0682dateModified:[NOW-7DAYS/DAY TO NOW]https://pasta.lternet.edu/package/metadata/eml/knb-lter-cce/326/1https://pasta.lternet.edu/package/metadata/eml/knb-lter-cce/326/1knb-lter-cce.326.1.xmlapplication/xmlhttps://eml.ecoinformatics.org/eml-2.2.0METADATA5894722448a90c40d4ebdf393c4a528aeae9e9819f3d22CN=urn:node:LTER,DC=dataone,DC=orgSHA-1CN=PASTA-GMN,O=EDI,ST=New Mexico,C=US2026-04-21T22:45:08.465Z2026-04-21T22:45:08.465Z2026-04-21T22:45:08.465Zurn:node:LTERurn:node:LTERurn:node:LTERurn:node:CNcompletedcompleted2026-04-22T13:10:45.088Z2026-04-22T13:10:45.639ZpublicEDI-63413949442a86aa5c9f490b7eb0f52bce2f934ftruehttps://cn.dataone.org/cn/v2/resolve/https%3A%2F%2Fpasta.lternet.edu%2Fpackage%2Fmetadata%2Feml%2Fknb-lter-cce%2F326%2F1Zooplankton communities were sampled during the California Current Ecosystem Long-Term Ecological Research (CCE-LTER) Process Cruise P2107 (R/V Roger Revelle, July 21 – August 11 2021), spanning freshly upwelled to oligotrophic offshore waters. Oblique Bongo net tows (0.71 m diameter, 202 µm mesh) were collected to ~200 m depth, split quantitatively, size-fractionated (0.2-5 mm), and analyzed by paired morphological imaging (Zooscan) and dual-marker DNA metabarcoding targeting 18S V4 (Zhan et al. 2013) and COI (Leray et al. 2013). Environmental data (temperature, salinity, oxygen, fluorescence, nutrients,etc) were obtained from CTD casts and bottle samples. This dataset includes (1) raw read-count OTU tables for 18S and COI, (2) corresponding taxonomic assignments, and (3) environmental metadata matched by sample ID. These data provide high-resolution measurements of zooplankton community diversity, biomass proxies, and associated environmental gradients across the upwelling–offshore continuum of the California Current System.marinemeasurementsspecies diversitytaxonomyzooplanktonZooplankton community structure, diversity, and environmental context across the California Current Ecosystem based on dual-marker DNA metabarcoding (18S V4, COI) and paired Zooscan imaging during CCE-LTER Process Cruise P2107 (July–August 2021)California Current Ecosystem LTERThis material is based upon work supported by the National Science Foundation under grants: NSF/GEO/OCE-0417616, NSF/OCE-10-2660729.8463737.84743-126.486-117.394The California Current Ecosystem (CCE) LTER site is located off the southern coast of California, extending from San Diego north to San Luis Obispo and westward over 500 km. This area comprises an ecosystem that includes the California Current, which is the eastern current of the North Pacific Gyre.2021-01-01T00:00:00Z2021-01-01T00:00:00Z2026-04-21T00:00:00Z2026-04-21T00:00:00ZMoira DecimaDecimaMatthewsBowmanCaponeDecimaMatthewsBowmanCaponeCalifornia Current Ecosystem LTERMoira DecimaStephanie MatthewsJeff BowmanDante CaponeCalifornia Current Ecosystem LTERSIOSchool of Marine and Environmental Affairs, Univ. of WashingtonHashC1.T7.H9_S1.1C1.T7.H9_S1.2C1.T7.H9_S2.1C1.T7.H9_S2.2C1.T7.H9_S3.2C1.T8.H10_S1.2C1.T8.H10_S2.1C1.T8.H10_S2.2C1.T8.H10_S3.2C2.T8.H18_S1.1C2.T8.H18_S1.2C2.T8.H18_S2.1C2.T8.H18_S2.2C2.T8.H18_S3.1C2.T8.H18_S3.2C2.T9.H19_S2.1C2.T9.H19_S2.2C2.T9.H19_S3.2C3.T6.H25_S1.1C3.T6.H25_S1.2C3.T6.H25_S2.1C3.T6.H25_S2.2C3.T6.H25_S3.1C3.T7.H26_S1.1C3.T7.H26_S1.2C3.T7.H26_S2.1C3.T7.H26_S2.2C3.T7.H26_S3.1C3.T7.H26_S3.2CT1.T1.H28_S1.1CT1.T1.H28_S1.2CT1.T1.H28_S2.1CT1.T1.H28_S2.2CT1.T1.H28_S3.1CT1.T1.H28_S3.2CT1.T2.H29_S1.1CT1.T2.H29_S1.2CT1.T2.H29_S2.1CT1.T2.H29_S2.2CT1.T2.H29_S3.1CT1.T2.H29_S3.2CT1.T3.H30_S1.1CT1.T3.H30_S1.2CT1.T3.H30_S2.1CT1.T3.H30_S3.2CT1.T4.H31_S1.1CT1.T4.H31_S1.2CT1.T4.H31_S2.2CT1.T4.H31_S3.1CT1.T4.H31_S3.2CT1.T5.H32_S1.1CT1.T5.H32_S1.2CT1.T5.H32_S2.1CT1.T5.H32_S2.2CT1.T5.H32_S3.1CT1.T5.H32_S3.2CT1.T6.H33_S1.1CT1.T6.H33_S1.2CT1.T6.H33_S2.1CT1.T6.H33_S2.2CT1.T6.H33_S3.1CT1.T6.H33_S3.2CT1.T7.H34_S1.1CT1.T7.H34_S1.2CT1.T7.H34_S2.1CT1.T7.H34_S2.2CT1.T7.H34_S3.1CT1.T7.H34_S3.2CT1.T8.H35_S1.1CT1.T8.H35_S1.2CT1.T8.H35_S2.1CT1.T8.H35_S2.2CT1.T8.H35_S3.1CT1.T8.H35_S3.2CT2.T1.H36_S1.1CT2.T1.H36_S1.2CT2.T1.H36_S2.1CT2.T1.H36_S2.2CT2.T1.H36_S3.1CT2.T1.H36_S3.2CT2.T4.H39_S1.1CT2.T4.H39_S1.2CT2.T4.H39_S2.1CT2.T4.H39_S2.2CT2.T4.H39_S3.1CT2.T4.H39_S3.2CT2.T8.H43_S1.1CT2.T8.H43_S1.2CT2.T8.H43_S2.1CT2.T8.H43_S2.2CT2.T8.H43_S3.1CT2.T8.H43_S3.220C_AllPool.120C_AllPool.220C_AllPool.320C_Pooled.A1.A3.120C_Pooled.A1.A3.220C_Pooled.A1.A3.320C_Pooled.B3.B5.120C_Pooled.B3.B5.220C_Pooled.B3.B5.320C_Pooled.C5.C7.120C_Pooled.C5.C7.220C_Pooled.C5.C7.324C_AllPool.124C_AllPool.224C_AllPool.324C_Pooled.A1.A3.124C_Pooled.A1.A3.224C_Pooled.A1.A3.324C_Pooled.B3.B5.124C_Pooled.B3.B5.224C_Pooled.B3.B5.324C_Pooled.C5.C7.124C_Pooled.C5.C7.224C_Pooled.C5.C7.328C_AllPool.128C_AllPool.228C_AllPool.328C_Pooled.A1.A3.128C_Pooled.A1.A3.228C_Pooled.B3.B5.128C_Pooled.B3.B5.228C_Pooled.B3.B5.328C_Pooled.C5.C7.128C_Pooled.C5.C7.228C_Pooled.C5.C7.3C1.T7.H9_S1.3C1.T7.H9_S2.3C1.T7.H9_S3.3C1.T8.H10_S1.3C1.T8.H10_S3.3C2.T8.H18_S1.3C2.T8.H18_S2.3C2.T8.H18_S3.3C2.T9.H19_S2.3C2.T9.H19_S3.3C3.T6.H25_S1.3C3.T6.H25_S2.3C3.T7.H26_S1.3C3.T7.H26_S2.3C3.T7.H26_S3.3CT1.T1.H28_S1.3CT1.T1.H28_S2.3CT1.T1.H28_S3.3CT1.T2.H29_S1.3CT1.T2.H29_S2.3CT1.T3.H30_S1.3CT1.T4.H31_S1.3CT1.T4.H31_S2.3CT1.T4.H31_S3.3CT1.T5.H32_S1.3CT1.T5.H32_S2.3CT1.T5.H32_S3.3CT1.T6.H33_S1.3CT1.T6.H33_S3.3CT1.T7.H34_S1.3CT1.T7.H34_S2.3CT1.T7.H34_S3.3CT1.T8.H35_S1.3CT1.T8.H35_S2.4CT2.T1.H36_S1.3CT2.T1.H36_S3.3CT2.T4.H39_S2.3CT2.T4.H39_S3.3CT2.T8.H43_S1.3CT2.T8.H43_S2.3CT2.T8.H43_S3.3HashKingdomPhylumClassOrderFamilyGenusSpeciesASV_IDC1.T7.H9_S1.2C1.T7.H9_S2.2C1.T7.H9_S3.2C1.T8.H10_S1.2C1.T8.H10_S2.2C1.T8.H10_S3.2C2.T8.H18_S1.1C2.T8.H18_S1.2C2.T8.H18_S2.1C2.T8.H18_S2.2C2.T8.H18_S3.2C2.T9.H19_S2.1C2.T9.H19_S2.2C2.T9.H19_S3.2C3.T6.H25_S1.1C3.T6.H25_S1.2C3.T6.H25_S2.1C3.T6.H25_S2.2C3.T7.H26_S1.1C3.T7.H26_S1.2C3.T7.H26_S2.1C3.T7.H26_S2.2C3.T7.H26_S3.1C3.T7.H26_S3.2CT1.T1.H28_S1.1CT1.T1.H28_S1.2CT1.T1.H28_S2.1CT1.T1.H28_S2.2CT1.T1.H28_S3.1CT1.T1.H28_S3.2CT1.T2.H29_S1.1CT1.T2.H29_S1.2CT1.T2.H29_S2.1CT1.T2.H29_S2.2CT1.T2.H29_S3.1CT1.T2.H29_S3.2CT1.T3.H30_S1.1CT1.T3.H30_S1.2CT1.T3.H30_S2.1CT1.T3.H30_S3.2CT1.T4.H31_S2.2CT1.T4.H31_S3.1CT1.T4.H31_S3.2CT1.T5.H32_S1.1CT1.T5.H32_S1.2CT1.T5.H32_S2.1CT1.T5.H32_S2.2CT1.T5.H32_S3.1CT1.T5.H32_S3.2CT1.T6.H33_S1.1CT1.T6.H33_S1.2CT1.T6.H33_S2.1CT1.T6.H33_S2.2CT1.T6.H33_S3.1CT1.T6.H33_S3.2CT1.T7.H34_S1.1CT1.T7.H34_S1.2CT1.T7.H34_S2.1CT1.T7.H34_S2.2CT1.T7.H34_S3.1CT1.T7.H34_S3.2CT1.T8.H35_S1.1CT1.T8.H35_S1.2CT1.T8.H35_S2.1CT1.T8.H35_S2.2CT1.T8.H35_S3.1CT1.T8.H35_S3.2CT2.T1.H36_S1.1CT2.T1.H36_S1.2CT2.T1.H36_S2.1CT2.T1.H36_S2.2CT2.T1.H36_S3.1CT2.T1.H36_S3.2CT2.T4.H39_S1.1CT2.T4.H39_S1.2CT2.T4.H39_S2.1CT2.T4.H39_S2.2CT2.T4.H39_S3.1CT2.T4.H39_S3.2CT2.T8.H43_S1.1CT2.T8.H43_S1.2CT2.T8.H43_S2.1CT2.T8.H43_S2.2CT2.T8.H43_S3.1CT2.T8.H43_S3.224C_AllPool.124C_AllPool.224C_AllPool.324C_Pooled.A1.A3.124C_Pooled.A1.A3.224C_Pooled.A1.A3.324C_Pooled.C5.C7.124C_Pooled.C5.C7.228C_AllPool.128C_AllPool.228C_AllPool.328C_Pooled.A1.A3.128C_Pooled.A1.A3.228C_Pooled.B3.B5.128C_Pooled.B3.B5.328C_Pooled.C5.C7.128C_Pooled.C5.C7.228C_Pooled.C5.C7.3C1.T7.H9_S2.3C1.T7.H9_S3.3C1.T8.H10_S1.3C1.T8.H10_S3.3C2.T8.H18_S1.3C2.T8.H18_S2.3C2.T9.H19_S2.3C2.T9.H19_S3.3C3.T6.H25_S1.3C3.T6.H25_S2.3C3.T7.H26_S1.3CT1.T1.H28_S1.3CT1.T1.H28_S2.3CT1.T1.H28_S3.3CT1.T2.H29_S1.3CT1.T2.H29_S2.3CT1.T3.H30_S1.3CT1.T4.H31_S3.3CT1.T5.H32_S1.3CT1.T5.H32_S2.3CT1.T5.H32_S3.3CT1.T6.H33_S1.3CT1.T6.H33_S3.3CT1.T7.H34_S1.3CT1.T7.H34_S2.3CT1.T7.H34_S3.3CT1.T8.H35_S1.4CT1.T8.H35_S2.3CT2.T1.H36_S3.3CT2.T4.H39_S2.3CT2.T4.H39_S3.3CT2.T8.H43_S1.3CT2.T8.H43_S2.3CT2.T8.H43_S3.3HashKingdomPhylumClassOrderFamilyGenusSpeciespotemp2density2oxy_satSal2NO2nitracline_depthNO3fluorescencehypoxia_depthchl_max_depthPO4SILNH4beam_depthchl_maxmixedlayerdepthsintegrated_chlday_night_0_1distance_from_shorePAR_1_depth_adjmax_sizecycleSample_ID_shortSample_ID_dotPC1offshore_onshoreAlpha-numeric hash associated with amplicon sequence variant. Matches a taxanomic assignment in the taxa tableBongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Alpha-numeric hash associated with amplicon sequence variant. Matches a taxanomic assignment in the taxa tableTaxonomic LevelTaxonomic LevelTaxonomic LevelTaxonomic LevelTaxonomic LevelTaxonomic LevelTaxonomic LevelAlpha-numeric hash associated with amplicon sequence variant. Matches a taxanomic assignment in the taxa tableBongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Alpha-numeric hash associated with amplicon sequence variant. Matches a taxanomic assignment in the taxa tableTaxonomic LevelTaxonomic LevelTaxonomic LevelTaxonomic LevelTaxonomic LevelTaxonomic LevelTaxonomic LevelPotential temperature at sampling depthSeawater density derived from CTDPercent oxygen saturation in surface layerPractical salinity at sampling depthNitrite concentration from Niskin bottleDepth where nitrate concentration exceeds 1 µMNitrate concentration from Niskin bottleCTD chlorophyll-a fluorescence signalDepth where dissolved oxygen falls below 2 mL L⁻¹Depth of maximum chlorophyll fluorescencePhosphate concentration from Niskin bottleAmmonium concentration from Niskin bottleAmmonium concentration from Niskin bottleDepth of maximum beam attenuation (particle load)Maximum in situ chlorophyll-a concentrationMixed-layer depth (Δσθ = 0.125 criterion)Depth-integrated chlorophyll-a concentration (surface to 1% PAR)Sampling conducted during day (0) or night (1)Great-circle distance from nearest coastlineDepth of 1% photosynthetically active radiation (PAR)Upper bound of zooplankton size fraction analyzedLagrangian sampling cycle identifier (C1–C3, CT1–CT2)Simplified sample identifier used in plotsUnique dot-formatted sample ID for database linkagePrincipal component 1 of the environmental metadata. Largely associated with the cross-shore gradientoffshore or onshorecelsiuskilogramPerCubicMeterpercentpracticalSalinityUnitmicromolePerLitermetersmicromolePerLiterstandardized unitsmetersmetersmicromolePerLitermicromolePerLitermicromolePerLitermetersmilligramPerCubicMetermetersmilligramPerMeterSquaredkilometermetersmillimeterHash Alpha-numeric hash associated with amplicon sequence variant. Matches a taxanomic assignment in the taxa tableC1.T7.H9_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T7.H9_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T7.H9_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T7.H9_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T7.H9_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T8.H10_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T8.H10_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T8.H10_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T8.H10_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T8.H18_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T8.H18_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T8.H18_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T8.H18_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T8.H18_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T8.H18_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T9.H19_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T9.H19_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T9.H19_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T6.H25_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T6.H25_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T6.H25_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T6.H25_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T6.H25_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T7.H26_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T7.H26_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T7.H26_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T7.H26_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T7.H26_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T7.H26_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T1.H28_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T1.H28_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T1.H28_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T1.H28_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T1.H28_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T1.H28_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T2.H29_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T2.H29_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T2.H29_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T2.H29_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T2.H29_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T2.H29_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T3.H30_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T3.H30_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T3.H30_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T3.H30_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T4.H31_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T4.H31_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T4.H31_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T4.H31_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T4.H31_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T5.H32_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T5.H32_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T5.H32_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T5.H32_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T5.H32_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T5.H32_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T6.H33_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T6.H33_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T6.H33_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T6.H33_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T6.H33_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T6.H33_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T7.H34_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T7.H34_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T7.H34_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T7.H34_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T7.H34_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T7.H34_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T8.H35_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T8.H35_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T8.H35_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T8.H35_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T8.H35_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T8.H35_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T1.H36_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T1.H36_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T1.H36_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T1.H36_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T1.H36_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T1.H36_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T4.H39_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T4.H39_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T4.H39_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T4.H39_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T4.H39_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T4.H39_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T8.H43_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T8.H43_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T8.H43_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T8.H43_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T8.H43_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T8.H43_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)20C_AllPool.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)20C_AllPool.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)20C_AllPool.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)20C_Pooled.A1.A3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)20C_Pooled.A1.A3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)20C_Pooled.A1.A3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)20C_Pooled.B3.B5.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)20C_Pooled.B3.B5.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)20C_Pooled.B3.B5.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)20C_Pooled.C5.C7.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)20C_Pooled.C5.C7.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)20C_Pooled.C5.C7.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_AllPool.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_AllPool.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_AllPool.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_Pooled.A1.A3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_Pooled.A1.A3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_Pooled.A1.A3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_Pooled.B3.B5.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_Pooled.B3.B5.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_Pooled.B3.B5.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_Pooled.C5.C7.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_Pooled.C5.C7.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_Pooled.C5.C7.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_AllPool.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_AllPool.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_AllPool.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_Pooled.A1.A3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_Pooled.A1.A3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_Pooled.B3.B5.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_Pooled.B3.B5.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_Pooled.B3.B5.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_Pooled.C5.C7.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_Pooled.C5.C7.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_Pooled.C5.C7.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T7.H9_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T7.H9_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T7.H9_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T8.H10_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T8.H10_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T8.H18_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T8.H18_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T8.H18_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T9.H19_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T9.H19_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T6.H25_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T6.H25_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T7.H26_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T7.H26_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T7.H26_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T1.H28_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T1.H28_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T1.H28_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T2.H29_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T2.H29_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T3.H30_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T4.H31_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T4.H31_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T4.H31_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T5.H32_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T5.H32_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T5.H32_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T6.H33_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T6.H33_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T7.H34_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T7.H34_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T7.H34_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T8.H35_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T8.H35_S2.4 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T1.H36_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T1.H36_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T4.H39_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T4.H39_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T8.H43_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T8.H43_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T8.H43_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Hash Alpha-numeric hash associated with amplicon sequence variant. Matches a taxanomic assignment in the taxa tableKingdom Taxonomic LevelPhylum Taxonomic LevelClass Taxonomic LevelOrder Taxonomic LevelFamily Taxonomic LevelGenus Taxonomic LevelSpecies Taxonomic LevelASV_ID Alpha-numeric hash associated with amplicon sequence variant. Matches a taxanomic assignment in the taxa tableC1.T7.H9_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T7.H9_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T7.H9_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T8.H10_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T8.H10_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T8.H10_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T8.H18_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T8.H18_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T8.H18_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T8.H18_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T8.H18_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T9.H19_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T9.H19_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T9.H19_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T6.H25_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T6.H25_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T6.H25_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T6.H25_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T7.H26_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T7.H26_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T7.H26_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T7.H26_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T7.H26_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T7.H26_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T1.H28_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T1.H28_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T1.H28_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T1.H28_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T1.H28_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T1.H28_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T2.H29_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T2.H29_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T2.H29_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T2.H29_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T2.H29_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T2.H29_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T3.H30_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T3.H30_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T3.H30_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T3.H30_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T4.H31_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T4.H31_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T4.H31_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T5.H32_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T5.H32_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T5.H32_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T5.H32_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T5.H32_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T5.H32_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T6.H33_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T6.H33_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T6.H33_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T6.H33_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T6.H33_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T6.H33_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T7.H34_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T7.H34_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T7.H34_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T7.H34_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T7.H34_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T7.H34_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T8.H35_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T8.H35_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T8.H35_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T8.H35_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T8.H35_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T8.H35_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T1.H36_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T1.H36_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T1.H36_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T1.H36_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T1.H36_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T1.H36_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T4.H39_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T4.H39_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T4.H39_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T4.H39_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T4.H39_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T4.H39_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T8.H43_S1.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T8.H43_S1.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T8.H43_S2.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T8.H43_S2.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T8.H43_S3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T8.H43_S3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_AllPool.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_AllPool.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_AllPool.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_Pooled.A1.A3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_Pooled.A1.A3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_Pooled.A1.A3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_Pooled.C5.C7.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)24C_Pooled.C5.C7.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_AllPool.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_AllPool.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_AllPool.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_Pooled.A1.A3.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_Pooled.A1.A3.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_Pooled.B3.B5.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_Pooled.B3.B5.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_Pooled.C5.C7.1 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_Pooled.C5.C7.2 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)28C_Pooled.C5.C7.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T7.H9_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T7.H9_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T8.H10_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C1.T8.H10_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T8.H18_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T8.H18_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T9.H19_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C2.T9.H19_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T6.H25_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T6.H25_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)C3.T7.H26_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T1.H28_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T1.H28_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T1.H28_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T2.H29_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T2.H29_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T3.H30_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T4.H31_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T5.H32_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T5.H32_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T5.H32_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T6.H33_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T6.H33_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T7.H34_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T7.H34_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T7.H34_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T8.H35_S1.4 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT1.T8.H35_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T1.H36_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T4.H39_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T4.H39_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T8.H43_S1.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T8.H43_S2.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)CT2.T8.H43_S3.3 Bongo net tow ID. For environmental samples ID is as follows: Cycle-haul-tow-size fraction.technical replicate. Cycle is the Lagranian sampling cycle or transect (C1,2,3 or CT1, CT2), Haul is the cumulative net tow for the cruise, tow is the cumulative net tow for that cycle, and size fraction is (S1-0.2-0.5, S2=0.5-1 and S3=1-2). For the calibration experiment the Sample ID is: PCR cycle number.Sample pool (All, A1-A3, B3-B5, or C5-C7)Hash Alpha-numeric hash associated with amplicon sequence variant. Matches a taxanomic assignment in the taxa tableKingdom Taxonomic LevelPhylum Taxonomic LevelClass Taxonomic LevelOrder Taxonomic LevelFamily Taxonomic LevelGenus Taxonomic LevelSpecies Taxonomic Levelpotemp2 Potential temperature at sampling depth celsiusdensity2 Seawater density derived from CTD kilogramPerCubicMeteroxy_sat Percent oxygen saturation in surface layer percentSal2 Practical salinity at sampling depth practicalSalinityUnitNO2 Nitrite concentration from Niskin bottle micromolePerLiternitracline_depth Depth where nitrate concentration exceeds 1 µM metersNO3 Nitrate concentration from Niskin bottle micromolePerLiterfluorescence CTD chlorophyll-a fluorescence signal standardized unitshypoxia_depth Depth where dissolved oxygen falls below 2 mL L⁻¹ meterschl_max_depth Depth of maximum chlorophyll fluorescence metersPO4 Phosphate concentration from Niskin bottle micromolePerLiterSIL Ammonium concentration from Niskin bottle micromolePerLiterNH4 Ammonium concentration from Niskin bottle micromolePerLiterbeam_depth Depth of maximum beam attenuation (particle load) meterschl_max Maximum in situ chlorophyll-a concentration milligramPerCubicMetermixedlayerdepths Mixed-layer depth (Δσθ = 0.125 criterion) metersintegrated_chl Depth-integrated chlorophyll-a concentration (surface to 1% PAR) milligramPerMeterSquaredday_night_0_1 Sampling conducted during day (0) or night (1)distance_from_shore Great-circle distance from nearest coastline kilometerPAR_1_depth_adj Depth of 1% photosynthetically active radiation (PAR) metersmax_size Upper bound of zooplankton size fraction analyzed millimetercycle Lagrangian sampling cycle identifier (C1–C3, CT1–CT2)Sample_ID_short Simplified sample identifier used in plotsSample_ID_dot Unique dot-formatted sample ID for database linkagePC1 Principal component 1 of the environmental metadata. Largely associated with the cross-shore gradientoffshore_onshore offshore or onshorehttps://cn.dataone.org/cn/v2/resolve/https%3A%2F%2Fpasta.lternet.edu%2Fpackage%2Fmetadata%2Feml%2Fknb-lter-cce%2F326%2F199q9q19q129q1299q12919q1291w9q1291wh9q1291wh2falsefalsesha256:e6d3ad71c05a9ecdba32f85dcedeb6155ba5a5cd6bee9d96adcff70d98e52601sha256:e6d3ad71c05a9ecdba32f85dcedeb6155ba5a5cd6bee9d96adcff70d98e52601https://doi.org/10.1594/PANGAEA.262463tmpa_1_8znnapplication/ld+jsonscience-on-schema.org/Dataset;ld+jsonMETADATA201602fcc8f7d0339e925591b546e4bf02f26http://orcid.org/0000-0002-8880-5019MD5http://orcid.org/0000-0002-8880-5019false02026-02-06T00:00:00Z2026-02-06T00:00:00Z2026-04-20T11:06:25Zurn:node:PANGAEAurn:node:PANGAEAurn:node:PANGAEAurn:node:CNcompletedcompleted2026-04-20T11:07:26.826Z2026-04-20T11:07:26.896Zpublictruehttps://cn.dataone.org/cn/v2/resolve/sha256%3Ae6d3ad71c05a9ecdba32f85dcedeb6155ba5a5cd6bee9d96adcff70d98e52601This dataset is about: Major-element chemical analyses of Hole 63-472A.Major-element chemical analyses of Hole 63-472A@enH Minami@en2005-03-21T00:00:00Z2005-03-21T00:00:00ZH@enMinami@enYeats@enHaq@enH Minami@enRobert S Yeats@enBilal U Haq@en23.0058-113.995223.0058-113.995299k9kn9knf9knfv9knfvu9knfvup9knfvup49knfvup4rMinami@enYeats@enHaq@enDEPTH, sediment/rock@enWater content, dry mass@enRock type@enIron oxide, FeO@enWater content, dry mass@enSodium oxide@enTitanium dioxide@enManganese oxide@enIron oxide, FeO, fractionated@enSample method@enMagnesium oxide@enAlteration@enMethod comment@enSample ID@enLithology/composition/facies@enCalcium oxide@enAluminium oxide@enPotassium oxide@enSilicon dioxide@enSample code/label@enIron oxide, Fe2O3, fractionated@enhttps://doi.pangaea.de/10.1594/PANGAEA.262463https://doi.pangaea.de/10.1594/PANGAEA.262463?format=htmlfalsefalsesha256:9b5ac6c8c09f59f27ad98f3b52b7ef895979778e1406c00418f885a18ff0d744sha256:9b5ac6c8c09f59f27ad98f3b52b7ef895979778e1406c00418f885a18ff0d744https://doi.org/10.1594/PANGAEA.262537tmpcyokvibuapplication/ld+jsonscience-on-schema.org/Dataset;ld+jsonMETADATA18916edd382a22d483057f61bf7ee67937389http://orcid.org/0000-0002-8880-5019MD5http://orcid.org/0000-0002-8880-5019false02026-02-06T00:00:00Z2026-02-06T00:00:00Z2026-04-20T11:05:50Zurn:node:PANGAEAurn:node:PANGAEAurn:node:PANGAEAurn:node:CNcompletedcompleted2026-04-20T11:07:15.597Z2026-04-20T11:07:15.703Zpublictruehttps://cn.dataone.org/cn/v2/resolve/sha256%3A9b5ac6c8c09f59f27ad98f3b52b7ef895979778e1406c00418f885a18ff0d744This dataset is about: Major-element chemical analyses of Hole 51-417A.Major-element chemical analyses of Hole 51-417A@enNikolay N Pertsev@en2005-03-21T00:00:00Z2005-03-21T00:00:00ZNikolay N@enPertsev@enBryan@enRobinson@enNikolay N Pertsev@enWilfred B Bryan@enPaul T Robinson@en25.1105-68.041325.1105-68.0413ddkdkrdkrwdkrwgdkrwgedkrwgejdkrwgejzdkrwgejz6Pertsev@enBryan@enRobinson@enCarbon dioxide@enTitanium dioxide@enRock type@enLoss on ignition@enCalcium oxide@enMagnesium oxide@enWater content, dry mass@enSample code/label@enAlteration@enIron oxide, Fe2O3, fractionated@enPotassium oxide@enComment@enAluminium oxide@enSample method@enMethod comment@enSodium oxide@enWater content, dry mass@enManganese oxide@enDEPTH, sediment/rock@enLithology/composition/facies@enSample ID@enSilicon dioxide@enIron oxide, FeO, fractionated@enhttps://doi.pangaea.de/10.1594/PANGAEA.262537https://doi.pangaea.de/10.1594/PANGAEA.262537?format=htmlfalsefalsehttps://pasta.lternet.edu/package/data/eml/edi/2325/1/4ec641650b7e3f578dadfa01bbdd76b7https://pasta.lternet.edu/package/data/eml/edi/2325/1/4ec641650b7e3f578dadfa01bbdd76b7S5_streamwater_chemistry.csvtext/csvtext/csvDATA873675fe8d6b70075224982cb06a5b6303dca4c68d7f3CN=urn:node:EDI,DC=dataone,DC=orgSHA-1CN=PASTA-GMN,O=EDI,ST=New Mexico,C=US2026-04-21T18:30:04.891Z2026-04-21T18:30:04.891Z2026-04-21T18:30:04.891Zurn:node:EDIurn:node:EDIurn:node:EDIcompleted2026-04-22T13:09:14.423ZpublicEDI-f1408665effa053908827ac1ed170288682a48aetruehttps://cn.dataone.org/cn/v2/resolve/https%3A%2F%2Fpasta.lternet.edu%2Fpackage%2Fdata%2Feml%2Fedi%2F2325%2F1%2F4ec641650b7e3f578dadfa01bbdd76b7falsefalsesha256:dc9a42c3dee578981de5d26e7e769c321c064912cced54cccb16f20f8840b75csha256:dc9a42c3dee578981de5d26e7e769c321c064912cced54cccb16f20f8840b75chttps://doi.org/10.1594/PANGAEA.355485tmpto9c8ajlapplication/ld+jsonscience-on-schema.org/Dataset;ld+jsonMETADATA70583fe6fc489c473efa3e69102e1c1d2456http://orcid.org/0000-0002-8880-5019MD5http://orcid.org/0000-0002-8880-5019false02024-08-15T00:00:00Z2024-08-15T00:00:00Z2026-04-20T11:06:34Zurn:node:PANGAEAurn:node:PANGAEAurn:node:PANGAEAurn:node:CNcompletedcompleted2026-04-20T11:09:40.035Z2026-04-20T11:09:40.091Zpublictruehttps://cn.dataone.org/cn/v2/resolve/sha256%3Adc9a42c3dee578981de5d26e7e769c321c064912cced54cccb16f20f8840b75cFor definition of quality flags see hdl:10013/epic.31518.d001Water temperature XBT profiles from cruise NLPM91 (SCQC)@enUOT WOCE Upper Ocean Thermal@en2006-01-26T00:00:00Z2006-01-26T00:00:00ZUOT@enWOCE Upper Ocean Thermal@enUOT WOCE Upper Ocean Thermal@en10.4167-79.2539.45-70.7667ddkdk6dk6tdk6tvdk6tv4dk6tv4udk6tv4uxdk6tv4ux6WOCE Upper Ocean Thermal@enTemperature, water@enSample code/label@enDEPTH, water@enLONGITUDE@enLATITUDE@enDATE/TIME@enhttps://doi.pangaea.de/10.1594/PANGAEA.355485https://doi.pangaea.de/10.1594/PANGAEA.355485?format=htmlfalsefalsesha256:193d58d875499bccbec4a1c290ca427b739a17e9b31a328382bcbd7c67d4d6a2sha256:193d58d875499bccbec4a1c290ca427b739a17e9b31a328382bcbd7c67d4d6a2https://doi.org/10.7910/DVN/MP7KDXtmpx96vqpg1application/ld+jsonscience-on-schema.org/Dataset;ld+jsonMETADATA43284f60bf7c8c87fbef1f6a7415343e291ehttp://orcid.org/0000-0002-9528-9470MD5http://orcid.org/0000-0002-9528-9470false0sha256:1669e27021503b287d213d52fa247c6181a924a3e7ec607bbb8e733ec9ae930a2026-04-16T00:00:00Z2026-04-16T00:00:00Z2026-04-21T02:25:32Zurn:node:HDurn:node:HDurn:node:HDurn:node:CNcompletedcompleted2026-04-22T13:09:46.799Z2026-04-22T13:09:46.962Zpublictruehttps://cn.dataone.org/cn/v2/resolve/sha256%3A193d58d875499bccbec4a1c290ca427b739a17e9b31a328382bcbd7c67d4d6a2HK-Vs3D1.0 is the first high-resolution 3D upper crustal S wave velocity model of Hong Kong (8km * 8km), developed at the University of Hong Kong in 2025. This model is derived from ambient noise adjoint tomography using data recorded by a portable nodal sensor network. It covers the depth range from surface to 8km.HK-Vs3D1.0Li, Zhanwen2026-04-16T00:00:00Z2026-04-16T00:00:00ZZhanwenLiWangLiuYangZhaoLi, ZhanwenWang, XiLiu, XinYang, HongfengZhao, GuochunEarth and Environmental SciencesLiWangLiuYangZhao1https://dataverse.harvard.edu/api/access/datafile/13670583falsefalsesha256:3e3700ea37bff667af1f54fa00b339e6dd74e9e40d4956e206c812d6fea18580sha256:3e3700ea37bff667af1f54fa00b339e6dd74e9e40d4956e206c812d6fea18580https://doi.org/10.1594/PANGAEA.355410tmp5312fw1yapplication/ld+jsonscience-on-schema.org/Dataset;ld+jsonMETADATA70377d91457298883221e5e0612de69d3635http://orcid.org/0000-0002-8880-5019MD5http://orcid.org/0000-0002-8880-5019false02024-07-20T00:00:00Z2024-07-20T00:00:00Z2026-04-20T11:07:04Zurn:node:PANGAEAurn:node:PANGAEAurn:node:PANGAEAurn:node:CNcompletedcompleted2026-04-20T11:09:45.902Z2026-04-20T11:09:45.949Zpublictruehttps://cn.dataone.org/cn/v2/resolve/sha256%3A3e3700ea37bff667af1f54fa00b339e6dd74e9e40d4956e206c812d6fea18580For definition of quality flags see hdl:10013/epic.31518.d001Water temperature XBT profiles from cruise FNQC90 (SCQC)@enUOT WOCE Upper Ocean Thermal@en2006-01-26T00:00:00Z2006-01-26T00:00:00ZUOT@enWOCE Upper Ocean Thermal@enUOT WOCE Upper Ocean Thermal@en-18.8167-17.7519.93335.1667eebeb5eb5eeb5e0eb5e0veb5e0vdeb5e0vdseb5e0vds3WOCE Upper Ocean Thermal@enSample code/label@enDATE/TIME@enTemperature, water@enLONGITUDE@enLATITUDE@enDEPTH, water@enhttps://doi.pangaea.de/10.1594/PANGAEA.355410https://doi.pangaea.de/10.1594/PANGAEA.355410?format=htmlfalsefalsehttps://pasta.lternet.edu/package/data/eml/knb-lter-cce/326/1/17de48fea62fb2719f0b03fea4caaf7bhttps://pasta.lternet.edu/package/data/eml/knb-lter-cce/326/1/17de48fea62fb2719f0b03fea4caaf7btable_334.csvtext/csvtext/csvDATA7720560c4a551ecc4fea8fc8b7544830a3566c6af0f76bCN=urn:node:LTER,DC=dataone,DC=orgSHA-1CN=PASTA-GMN,O=EDI,ST=New Mexico,C=US2026-04-21T22:45:03.99Z2026-04-21T22:45:03.99Z2026-04-21T22:45:03.99Zurn:node:LTERurn:node:LTERurn:node:LTERcompleted2026-04-22T13:09:11.13ZpublicEDI-63413949442a86aa5c9f490b7eb0f52bce2f934ftruehttps://cn.dataone.org/cn/v2/resolve/https%3A%2F%2Fpasta.lternet.edu%2Fpackage%2Fdata%2Feml%2Fknb-lter-cce%2F326%2F1%2F17de48fea62fb2719f0b03fea4caaf7bfalsefalsehttps://pasta.lternet.edu/package/metadata/eml/edi/1529/30https://pasta.lternet.edu/package/metadata/eml/edi/1529/30edi.1529.30.xmlapplication/xmlhttps://eml.ecoinformatics.org/eml-2.2.0METADATA57685d1335786945fddbe8f4bb9381d290e2240261a8aCN=urn:node:EDI,DC=dataone,DC=orgSHA-1CN=PASTA-GMN,O=EDI,ST=New Mexico,C=UShttps://pasta.lternet.edu/package/metadata/eml/edi/1529/292026-04-22T08:30:09.537Z2026-04-22T08:30:09.537Z2026-04-22T08:30:09.537Zurn:node:EDIurn:node:EDIurn:node:EDIurn:node:CNcompletedcompleted2026-04-22T13:13:12.551Z2026-04-22T13:13:12.657ZpublicEDI-25f0a34c6c02f73f7b0b10e35703b3f9ef551a1ftruehttps://cn.dataone.org/cn/v2/resolve/https%3A%2F%2Fpasta.lternet.edu%2Fpackage%2Fmetadata%2Feml%2Fedi%2F1529%2F30California Department of Water Resources (DWR) currently operates multiple eight-foot rotary screw traps (RSTs) at Hallwood Boulevard RM 7.5. RST operations were conducted by CDFW and then under the direction of the Yuba River Management Team from 1999 to 2009 at the Hallwood Boulevard site; and resumed in 2022 by DWR. The Hallwood site will essentially sample all areas of the lower Yuba River upstream of Hallwood Boulevard. Additionally, the Hallwood site is located downstream of the bulk of adult Chinook salmon spawning areas and downstream of all known spring-run Chinook salmon spawning. Data are currently being used to inform the development of a juvenile production estimate (JPE) for spring-run Chinook salmon in the Sacramento River Watershed as required by Incidental Take Permit No. 2081-2019-006-00 issued by CA Department of Fish and Wildlife (CDFW) to DWR for the long-term operation of the State Water Project. Data within the current year’s monitoring season are considered provisional.spring runfall runtrapcatchjuvenile production estimateOncorhynchus tshawytschaRSTCaliforniaCentral ValleySRJPEChinook salmonMonitoring juvenile Chinook salmon outmigration using rotary screw traps on Yuba RiverMonitoring juvenile Chinook salmon outmigration using rotary screw traps on Yuba River39.161939.2112-121.5525-121.4254Yuba River Rotary Screw Trap1999-11-25T00:00:00Z2026-04-14T00:00:00Z2026-04-22T00:00:00Z2026-04-22T00:00:00ZCasey CamposCaseyCamposCamposCamposCamposCasey CamposCalifornia Department of Water ResourcesOncorhynchusOncorhynchus tshawytschaAnimaliaSalmoniformesChordataSalmonidaeTeleosteiOncorhynchus Oncorhynchus tshawytschaProjectDescriptionIDtrapVisitIDvisitTimesiteNamesubSiteNamevisitTypecatchRawIDcommonNamerunfishOriginlifeStageforkLengthtotalLengthnactualCountreleaseIDProjectDescriptionIDcatchRawIDtrapVisitIDcommonNamereleaseIDrunfishOriginlifeStageforkLengthnvisitTimevisitTypesiteNamesubSiteNamemarkTypemarkColormarkPositionmarkCodeprojectDescriptionIDtrapVisitIDvisitTimesiteNamesubSiteNamevisitTypefishProcessedtrapFunctioningcounterAtEndrpmRevolutionsAtStartrpmRevolutionsAtEndincludeCatchwaterTempturbiditycatchcatchcatchcatchcatchcatchcatchcatchcatchcatchcatchcatchcatchcatchcatchcatchrecapturerecapturerecapturerecapturerecapturerecapturerecapturerecapturerecapturerecapturerecapturerecapturerecapturerecapturerecapturerecapturerecapturerecapturetraptraptraptraptraptraptraptraptraptraptraptraptraptrapForeign key to the CAMP ProjectDescription table. All data associated with this package will have a ProjectDescriptionID = 7.Foreign key to the CAMP TrapVisit tableDate and time of day associated with the trap visit.Name of the sampling site. Levels = "Hallwood"Name of the trap or trap location. Levels = c("Hallwood 1 RR", "Hallwood 3", "Hallwood 2 RL")Work that was done during visit to trap. Levels = c("Start trap & begin trapping", "Continue trapping", "End trapping", "Unplanned restart", "Service/adjust/clean trap")Primary key in the CAMP CatchRaw tableCommon name of species. Levels =c("Chinook salmon", "Steelhead / rainbow trout", "Riffle sculpin", "Smallmouth bass", "Bluegill", "Pacific lamprey", "Sacramento sucker", "Mosquitofish", "Not applicable (n/a)", "Sacramento pikeminnow", "Wakasagi / Japanese smelt", "Hardhead", "Unknown lamprey (Entosphenus or Lampetra)", "Unknown bass (Micropterus)", "Speckled dace", "Green sunfish", "Unknown sunfish (Lepomis)", "Prickly sculpin", "Largemouth bass", "Golden shiner", "Unknown sculpin (Cottus)", "Channel catfish", "Spotted bass", "River lamprey", "White crappie", "Tule perch", "Redear sunfish", "Sacramento perch", "Unknown minnow", "Other", "Unknown Lampetra", "Goldfish", "American shad")Run designation as determined in the field or as assigned at a later date. Run assignments in the historical data may be inconsistent with contemporary methods for assigning run. Levels = c("Not recorded", "Spring", "Fall", "Winter", "Late fall")Origin/production type of the fish. Levels = c("Natural", "Hatchery")Life stage of the fish. Levels = c("Not recorded", "Parr", "Smolt", "Silvery parr", "Fry", "Ammocoete", "Yolk sac fry (alevin)")Fork length of the fish measured in millimetersTotal length of the fish measured in millimetersNumber of fish actually handled/countedWhether the count (n) is an actual count or estimate. Levels = "Yes"Foreign Key to the CAMP Release tableForeign key to the CAMP ProjectDescription table. All data associated with this package will have a ProjectDescriptionID = 7.Primary key in the CAMP CatchRaw tableForeign key to the CAMP TrapVisit tableCommon name of species. Levels = "Chinook salmon"Foreign Key to the CAMP Release tableRun as assigned at the time of the capture. Levels = NAOrigin/production type of the fish. Levels = c("Hatchery", "Natural")Life stage of the fish. Levels = c("Not recorded", "Silvery parr", "Parr")Fork length of the fish measured in millimetersNumber of fish actually handled/countedDate and time of day associated with the trap visit.Work that was done during visit to trap. Levels = c("Continue trapping", "Unplanned restart", "End trapping")Name of the sampling site. Levels = "Hallwood"Name of the trap or trap location. Levels = c("Hallwood 1 RR", "Hallwood 2 RL", "Hallwood 3")type of mark on fish. Levels = c("Pigment / dye", "Elastomer")color of mark on fish. Levels = c("Brown", "Yellow", "Pink")position of mark on body of fish. Levels = c("Whole body", "Nose")Code associated with tagForeign key to the CAMP ProjectDescription table. All data associated with this package will have a ProjectDescriptionID = 7.Primary key that defines record in table.Date and time of day associated with the trap visit. Definition varies based on visitType (For visitTypeID=1, 5, or 6 this is the date and the time of day of arrival at the trap. For visitTypeID=2, 3, or 4 this is the date and the time of day the trap was emptied.)Name of the sampling site. Levels = "Hallwood"Position of trap within the site. Levels = c("Hallwood 1 RR", "Hallwood 3", "Hallwood 2 RL")Work that was done during visit to trap. Levels = c("Start trap & begin trapping", "Continue trapping", "End trapping", "Unplanned restart", "Service/adjust/clean trap")Describing if fish processed during trap visit. Levels = c("Not applicable", "No fish were caught", "Processed fish")Code for description of how well trap is functioning when visit to trap began. Levels = c("Trap functioning normally", "Trap stopped functioning", "Trap not in service", "Trap functioning, but not normally")Reading on the rotation counter at the end of the trap visit but before resettingNumber of revolutions per minute before cleaning the trapNumber of revolutions per minute before cleaning the trapCode for whether this record is considered of high enough quality to include in analysis. Levels = "Yes"Water temperature measured at trapTurbidity measured at trapmillimetermillimeternumber of fishmillimeternumber of fishnumber of rotationsrevolutions per minuterevolutions per minutecelsiusNTUProjectDescriptionID catch Foreign key to the CAMP ProjectDescription table. All data associated with this package will have a ProjectDescriptionID = 7.trapVisitID catch Foreign key to the CAMP TrapVisit tablevisitTime catch Date and time of day associated with the trap visit.siteName catch Name of the sampling site. Levels = "Hallwood"subSiteName catch Name of the trap or trap location. Levels = c("Hallwood 1 RR", "Hallwood 3", "Hallwood 2 RL")visitType catch Work that was done during visit to trap. Levels = c("Start trap & begin trapping", "Continue trapping", "End trapping", "Unplanned restart", "Service/adjust/clean trap")catchRawID catch Primary key in the CAMP CatchRaw tablecommonName catch Common name of species. Levels =c("Chinook salmon", "Steelhead / rainbow trout", "Riffle sculpin", "Smallmouth bass", "Bluegill", "Pacific lamprey", "Sacramento sucker", "Mosquitofish", "Not applicable (n/a)", "Sacramento pikeminnow", "Wakasagi / Japanese smelt", "Hardhead", "Unknown lamprey (Entosphenus or Lampetra)", "Unknown bass (Micropterus)", "Speckled dace", "Green sunfish", "Unknown sunfish (Lepomis)", "Prickly sculpin", "Largemouth bass", "Golden shiner", "Unknown sculpin (Cottus)", "Channel catfish", "Spotted bass", "River lamprey", "White crappie", "Tule perch", "Redear sunfish", "Sacramento perch", "Unknown minnow", "Other", "Unknown Lampetra", "Goldfish", "American shad")run catch Run designation as determined in the field or as assigned at a later date. Run assignments in the historical data may be inconsistent with contemporary methods for assigning run. Levels = c("Not recorded", "Spring", "Fall", "Winter", "Late fall")fishOrigin catch Origin/production type of the fish. Levels = c("Natural", "Hatchery")lifeStage catch Life stage of the fish. Levels = c("Not recorded", "Parr", "Smolt", "Silvery parr", "Fry", "Ammocoete", "Yolk sac fry (alevin)")forkLength catch Fork length of the fish measured in millimeters millimetertotalLength catch Total length of the fish measured in millimeters millimetern catch Number of fish actually handled/counted number of fishactualCount catch Whether the count (n) is an actual count or estimate. Levels = "Yes"releaseID catch Foreign Key to the CAMP Release tableProjectDescriptionID recapture Foreign key to the CAMP ProjectDescription table. All data associated with this package will have a ProjectDescriptionID = 7.catchRawID recapture Primary key in the CAMP CatchRaw tabletrapVisitID recapture Foreign key to the CAMP TrapVisit tablecommonName recapture Common name of species. Levels = "Chinook salmon"releaseID recapture Foreign Key to the CAMP Release tablerun recapture Run as assigned at the time of the capture. Levels = NAfishOrigin recapture Origin/production type of the fish. Levels = c("Hatchery", "Natural")lifeStage recapture Life stage of the fish. Levels = c("Not recorded", "Silvery parr", "Parr")forkLength recapture Fork length of the fish measured in millimeters millimetern recapture Number of fish actually handled/counted number of fishvisitTime recapture Date and time of day associated with the trap visit.visitType recapture Work that was done during visit to trap. Levels = c("Continue trapping", "Unplanned restart", "End trapping")siteName recapture Name of the sampling site. Levels = "Hallwood"subSiteName recapture Name of the trap or trap location. Levels = c("Hallwood 1 RR", "Hallwood 2 RL", "Hallwood 3")markType recapture type of mark on fish. Levels = c("Pigment / dye", "Elastomer")markColor recapture color of mark on fish. Levels = c("Brown", "Yellow", "Pink")markPosition recapture position of mark on body of fish. Levels = c("Whole body", "Nose")markCode recapture Code associated with tagprojectDescriptionID trap Foreign key to the CAMP ProjectDescription table. All data associated with this package will have a ProjectDescriptionID = 7.trapVisitID trap Primary key that defines record in table.visitTime trap Date and time of day associated with the trap visit. Definition varies based on visitType (For visitTypeID=1, 5, or 6 this is the date and the time of day of arrival at the trap. For visitTypeID=2, 3, or 4 this is the date and the time of day the trap was emptied.)siteName trap Name of the sampling site. Levels = "Hallwood"subSiteName trap Position of trap within the site. Levels = c("Hallwood 1 RR", "Hallwood 3", "Hallwood 2 RL")visitType trap Work that was done during visit to trap. Levels = c("Start trap & begin trapping", "Continue trapping", "End trapping", "Unplanned restart", "Service/adjust/clean trap")fishProcessed trap Describing if fish processed during trap visit. Levels = c("Not applicable", "No fish were caught", "Processed fish")trapFunctioning trap Code for description of how well trap is functioning when visit to trap began. Levels = c("Trap functioning normally", "Trap stopped functioning", "Trap not in service", "Trap functioning, but not normally")counterAtEnd trap Reading on the rotation counter at the end of the trap visit but before resetting number of rotationsrpmRevolutionsAtStart trap Number of revolutions per minute before cleaning the trap revolutions per minuterpmRevolutionsAtEnd trap Number of revolutions per minute before cleaning the trap revolutions per minuteincludeCatch trap Code for whether this record is considered of high enough quality to include in analysis. Levels = "Yes"waterTemp trap Water temperature measured at trap celsiusturbidity trap Turbidity measured at trap NTUhttps://cn.dataone.org/cn/v2/resolve/https%3A%2F%2Fpasta.lternet.edu%2Fpackage%2Fmetadata%2Feml%2Fedi%2F1529%2F3099q9qc9qcw9qcwg9qcwgm9qcwgmw9qcwgmwq9qcwgmwqnfalsefalsesha256:26f9eb4abee43c1a216e7bb766f9c9729b199d6040cc2543f3d170ce441b9f27sha256:26f9eb4abee43c1a216e7bb766f9c9729b199d6040cc2543f3d170ce441b9f27https://doi.org/10.1594/PANGAEA.355706tmpqoskp02xapplication/ld+jsonscience-on-schema.org/Dataset;ld+jsonMETADATA666038bb438490c4cbd3a6f742c2c79b6e47http://orcid.org/0000-0002-8880-5019MD5http://orcid.org/0000-0002-8880-5019false02024-07-20T00:00:00Z2024-07-20T00:00:00Z2026-04-20T11:03:28Zurn:node:PANGAEAurn:node:PANGAEAurn:node:PANGAEAurn:node:CNcompletedcompleted2026-04-20T11:06:39.499Z2026-04-20T11:06:39.567Zpublictruehttps://cn.dataone.org/cn/v2/resolve/sha256%3A26f9eb4abee43c1a216e7bb766f9c9729b199d6040cc2543f3d170ce441b9f27For definition of quality flags see hdl:10013/epic.31518.d001Water temperature real-time profiles from cruise NFKQ90 (SCQC)@enUOT WOCE Upper Ocean Thermal@en2006-01-26T00:00:00Z2006-01-26T00:00:00ZUOT@enWOCE Upper Ocean Thermal@enUOT WOCE Upper Ocean Thermal@en34.4667-10.435.05-9.6833eeyey0ey0vey0veey0verey0verxey0verxfey0verxfhWOCE Upper Ocean Thermal@enDEPTH, water@enSample code/label@enLONGITUDE@enLATITUDE@enDATE/TIME@enTemperature, water@enhttps://doi.pangaea.de/10.1594/PANGAEA.355706https://doi.pangaea.de/10.1594/PANGAEA.355706?format=htmlfalsefalse