Vane, Kim; Flores, Hauke (2021): Arctic basal resources and organisms measured with d13C values in essential amino acids [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.936933
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Abstract:
This data consists of compound specific isotope analysis of d13C values in essential amino acids measured in several Arctic basal resources collected in the field; ice algal filters, pelagic phytoplankton filters, kelp Laminaria digitata, red algae Coccotylus truncatus and Melosira arctica strands, and in cultures of fungi, bacteria, 2 pelagic phytoplankton, and 3 sea-ice algae species. See document for the different gears used, which include Surface Underwater Ice Trawl, Bottom trawl, Ice corer, and Niskin bottles. Field samples were collected on the Polarstern PS106.2 expedition from 23 June to July 2017 on the Barents Shelf and Nansen Basin. Cultured ice algae, pelagic phytoplankton, bacteria and fungi were almost all extracted from the Arctic region (see document). Isotopic measurements were done with a gas chromatograph isotope ratio mass spectrometer with methoxycarbonyl esterification of the amino acids in 2019. The aim of the measurements was to trace the d13C-EAA values of the Arctic basal resources in the tissues of the organisms in order to quantify their utilization of these basal resources.
Keyword(s):
Supplement to:
Vane, Kim; Cobain, Matthew R D; Trueman, Clive N; Vonnahme, Tobias; Rokitta, Sebastian D; Polunin, Nicholas V C; Flores, Hauke (2023): Tracing basal resource use across sea‐ice, pelagic, and benthic habitats in the early Arctic spring food web with essential amino acid carbon isotopes. Limnology and Oceanography, lno.12315, https://doi.org/10.1002/lno.12315
Project(s):
Funding:
Natural Environment Research Council (NERC), grant/award no. NE/R012520/1: Coldfish: potential benefits and risks of borealisation for fish stocks and ecosystems in a changing Arctic Ocean
Coverage:
Median Latitude: 80.680151 * Median Longitude: 36.003234 * South-bound Latitude: 58.000000 * West-bound Longitude: 11.669000 * North-bound Latitude: 89.478170 * East-bound Longitude: -178.000000
Date/Time Start: 2014-08-27T06:37:00 * Date/Time End: 2017-07-17T08:42:00
Minimum DEPTH, water: 1 m * Maximum DEPTH, water: 290 m
Event(s):
Parameter(s):
# | Name | Short Name | Unit | Principal Investigator | Method/Device | Comment |
---|---|---|---|---|---|---|
1 | Event label | Event | Vane, Kim | |||
2 | Sample code/label | Sample label | Vane, Kim | |||
3 | Species | Species | Vane, Kim | |||
4 | Sample type | Samp type | Vane, Kim | |||
5 | Origin | Origin | Vane, Kim | |||
6 | Gear | Gear | Vane, Kim | |||
7 | Station label | Station | Vane, Kim | |||
8 | DEPTH, water | Depth water | m | Vane, Kim | Geocode | |
9 | Length, total | TL | mm | Vane, Kim | ||
10 | Valine, δ13C | Val δ13C | ‰ PDB | Vane, Kim | Gas chromatography - Isotope ratio mass spectrometer (GC-IRMS) | |
11 | Isoleucine, δ13C | Ile δ13C | ‰ PDB | Vane, Kim | Gas chromatography - Isotope ratio mass spectrometer (GC-IRMS) | |
12 | Leucine, δ13C | Leu δ13C | ‰ PDB | Vane, Kim | Gas chromatography - Isotope ratio mass spectrometer (GC-IRMS) | |
13 | Threonine, δ13C | Thr δ13C | ‰ PDB | Vane, Kim | Gas chromatography - Isotope ratio mass spectrometer (GC-IRMS) | |
14 | Phenylalanine, δ13C | Phe δ13C | ‰ PDB | Vane, Kim | Gas chromatography - Isotope ratio mass spectrometer (GC-IRMS) | |
15 | Lysine, δ13C | Lys δ13C | ‰ PDB | Vane, Kim | Gas chromatography - Isotope ratio mass spectrometer (GC-IRMS) |
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0)
Status:
Curation Level: Enhanced curation (CurationLevelC)
Size:
1106 data points
Data
1 Event | 2 Sample label | 3 Species | 4 Samp type | 5 Origin | 6 Gear | 7 Station | 8 Depth water [m] | 9 TL [mm] | 10 Val δ13C [‰ PDB] | 11 Ile δ13C [‰ PDB] | 12 Leu δ13C [‰ PDB] | 13 Thr δ13C [‰ PDB] | 14 Phe δ13C [‰ PDB] | 15 Lys δ13C [‰ PDB] |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
PS106_70-1 | AGL1273 | Apherusa glacialis | Field | PS106.2, 2017 | Surface Under Ice Trawl | 70.1 | -26.50 | -18.75 | -30.34 | -16.81 | -30.09 | -18.62 | ||
PS106_70-1 | AGL1273_2 | Apherusa glacialis | Field | PS106.2, 2017 | Surface Under Ice Trawl | 70.1 | -26.26 | -19.37 | -31.45 | -12.61 | -30.71 | -17.54 | ||
PS106_70-1 | AGL1273_0001 | Apherusa glacialis | Field | PS106.2, 2017 | Surface Under Ice Trawl | 70.1 | -23.90 | -16.26 | -29.04 | -12.62 | -27.91 | -16.22 | ||
PS106_70-1 | AGL1273_0004 | Apherusa glacialis | Field | PS106.2, 2017 | Surface Under Ice Trawl | 70.1 | -25.91 | -18.53 | -29.78 | -13.00 | -31.09 | -16.43 | ||
PS106_73-7 | AGL1450_0001 | Apherusa glacialis | Field | PS106.2, 2017 | Surface Under Ice Trawl | 73.7 | -25.81 | -19.23 | -29.71 | -13.29 | -30.10 | -16.25 | ||
PS106_73-7 | AGL1450_0002 | Apherusa glacialis | Field | PS106.2, 2017 | Surface Under Ice Trawl | 73.7 | -25.98 | -19.25 | -30.96 | -13.63 | -30.17 | -16.41 | ||
PS106_78-5 | AGL1668 | Apherusa glacialis | Field | PS106.2, 2017 | Surface Under Ice Trawl | 78.5 | -27.59 | -20.31 | -31.63 | -15.22 | -33.14 | -18.51 | ||
PS106_78-5 | AGL1668_0002 | Apherusa glacialis | Field | PS106.2, 2017 | Surface Under Ice Trawl | 78.5 | -27.64 | -19.75 | -30.58 | -13.52 | -31.09 | -16.54 | ||
PS106_78-5 | AGL1668_0003 | Apherusa glacialis | Field | PS106.2, 2017 | Surface Under Ice Trawl | 78.5 | -27.90 | -20.60 | -30.31 | -14.59 | -31.89 | -18.37 | ||
PS106_88-1 | BSA13 | Boreogadus saida | Field | PS106.2, 2017 | Bottom Trawl | 88.1 | 290 | 105 | -26.31 | -18.84 | -30.82 | -12.01 | -30.74 | -15.70 |
PS106_89-1 | BSA21 | Boreogadus saida | Field | PS106.2, 2017 | Bottom Trawl | 89.1 | 166 | 178 | -23.28 | -18.38 | -27.16 | -10.33 | -28.06 | -16.18 |
PS106_90-1 | BSA27 | Boreogadus saida | Field | PS106.2, 2017 | Bottom Trawl | 90.1 | 131 | 220 | -24.96 | -19.25 | -28.77 | -15.98 | -28.36 | -17.24 |
PS106_91-1 | BSA43 | Boreogadus saida | Field | PS106.2, 2017 | Bottom Trawl | 91.1 | 117 | 111 | -29.56 | -25.32 | -32.94 | -19.12 | -34.89 | -22.36 |
PS106_91-1 | BSA44 | Boreogadus saida | Field | PS106.2, 2017 | Bottom Trawl | 91.1 | 117 | 101 | -24.94 | -20.05 | -28.56 | -13.73 | -29.90 | -17.54 |
PS106_92-1 | BSA55 | Boreogadus saida | Field | PS106.2, 2017 | Bottom Trawl | 92.1 | 132 | 190 | -23.52 | -18.20 | -26.98 | -7.07 | -27.94 | -15.89 |
PS106_92-1 | BSA56 | Boreogadus saida | Field | PS106.2, 2017 | Bottom Trawl | 92.1 | 132 | 190 | -24.48 | -18.66 | -28.06 | -12.09 | -28.19 | -16.36 |
PS106_92-1 | BSA70 | Boreogadus saida | Field | PS106.2, 2017 | Bottom Trawl | 92.1 | 132 | 199 | -30.36 | -20.52 | -34.06 | -13.27 | -32.16 | -20.26 |
PS106_89-1 | BSA90 | Boreogadus saida | Field | PS106.2, 2017 | Bottom Trawl | 89.1 | 166 | 90 | -23.65 | -17.80 | -27.34 | -13.11 | -27.53 | -14.96 |
PS106_89-1 | BSA92 | Boreogadus saida | Field | PS106.2, 2017 | Bottom Trawl | 89.1 | 166 | 94 | -25.76 | -19.58 | -29.96 | -16.94 | -29.34 | -17.44 |
PS106_70-1 | CHY1306_0002 | Calanus hyperboreus | Field | PS106.2, 2017 | Surface Under Ice Trawl | 70.1 | -27.81 | -20.60 | -31.45 | -17.32 | -33.30 | -19.83 | ||
PS106_70-1 | CHY1306_0008 | Calanus hyperboreus | Field | PS106.2, 2017 | Surface Under Ice Trawl | 70.1 | -28.97 | -21.11 | -30.95 | -15.52 | -32.21 | -19.99 | ||
PS106_70-1 | CHY1306_0009 | Calanus hyperboreus | Field | PS106.2, 2017 | Surface Under Ice Trawl | 70.1 | -26.95 | -20.20 | -30.60 | -15.85 | -30.08 | -19.37 | ||
PS106_73-7 | CHY1449_0003 | Calanus hyperboreus | Field | PS106.2, 2017 | Surface Under Ice Trawl | 73.7 | -30.65 | -23.56 | -32.75 | -21.62 | -33.60 | -22.19 | ||
PS106_73-7 | CHY1449_0006 | Calanus hyperboreus | Field | PS106.2, 2017 | Surface Under Ice Trawl | 73.7 | -29.42 | -20.64 | -33.69 | -15.06 | -31.84 | -18.53 | ||
PS106_73-7 | CHY1449_0007 | Calanus hyperboreus | Field | PS106.2, 2017 | Surface Under Ice Trawl | 73.7 | -30.27 | -23.17 | -34.97 | -20.19 | -33.54 | -21.57 | ||
PS106_77-3 | CHY1620_0006 | Calanus hyperboreus | Field | PS106.2, 2017 | Rectangular Midwater Trawl | 77.3 | -31.94 | -23.64 | -32.32 | -18.04 | -37.07 | -23.05 | ||
PS106_77-3 | CHY1620_0002 | Calanus hyperboreus | Field | PS106.2, 2017 | Rectangular Midwater Trawl | 77.3 | -31.46 | -24.03 | -35.07 | -21.75 | -33.37 | -23.70 | ||
PS106_77-3 | CHY1620_0007 | Calanus hyperboreus | Field | PS106.2, 2017 | Rectangular Midwater Trawl | 77.3 | -31.46 | -24.52 | -32.93 | -21.58 | -34.20 | -23.02 | ||
PS106_87-1 | CUC1 | Sea cucumber | Field | PS106.2, 2017 | Bottom Trawl | 87.1 | 290 | -23.11 | -18.92 | -26.30 | -10.01 | -25.87 | -16.90 | |
PS106_87-1 | CUC2 | Sea cucumber | Field | PS106.2, 2017 | Bottom Trawl | 87.1 | 290 | -22.73 | -18.59 | -27.19 | -10.47 | -27.54 | -16.92 | |
PS106_88-1 | CUC3_1 | Sea cucumber | Field | PS106.2, 2017 | Bottom Trawl | 88.1 | 280 | -22.27 | -16.23 | -25.84 | -8.46 | -25.76 | -17.24 | |
PS106_88-1 | CUC3_2 | Sea cucumber | Field | PS106.2, 2017 | Bottom Trawl | 88.1 | 280 | -22.51 | -18.16 | -25.93 | -13.57 | -26.63 | -16.51 | |
PS106_88-1 | CUC3_3 | Sea cucumber | Field | PS106.2, 2017 | Bottom Trawl | 88.1 | 280 | -25.24 | -22.00 | -30.34 | -8.77 | -27.23 | -16.35 | |
PS106_91-1 | CUC4 | Sea cucumber | Field | PS106.2, 2017 | Bottom Trawl | 91.1 | 117 | -23.63 | -19.62 | -26.89 | -17.97 | -26.16 | -17.01 | |
PS106_93-1 | CUC5 | Sea cucumber | Field | PS106.2, 2017 | Bottom Trawl | 93.1 | 163 | -25.83 | -22.24 | -28.90 | -12.03 | -31.94 | -19.96 | |
PS106_88-1 | FMA1 | Laminaria digitata | Field | PS106.2, 2017 | Bottom Trawl | 88.1 | 280 | -26.31 | -22.71 | -29.16 | -12.44 | -29.63 | -18.31 | |
PS106_89-1 | FMA2 | Laminaria digitata | Field | PS106.2, 2017 | Bottom Trawl | 89.1 | 166 | -21.53 | -18.38 | -24.37 | -6.20 | -26.25 | -14.16 | |
PS106_91-1 | FMA4 | Laminaria digitata | Field | PS106.2, 2017 | Bottom Trawl | 91.1 | 117 | -21.88 | -18.41 | -24.90 | -7.04 | -25.58 | -14.86 | |
PS106_92-1 | FMA5 | Laminaria digitata | Field | PS106.2, 2017 | Bottom Trawl | 92.1 | 132 | -29.82 | -27.30 | -35.86 | -14.77 | -32.52 | -19.77 | |
PS106_80-2 | ICE1 | iPOM | Field | PS106.2, 2017 | Ice corer | 80.2 | -27.70 | -20.98 | -33.31 | -12.12 | -28.69 | -16.31 | ||
PS106_80-2 | ICE8 | iPOM | Field | PS106.2, 2017 | Ice corer | 80.2 | -24.27 | -19.72 | -29.66 | -11.18 | -30.29 | -16.05 | ||
PS106_80-2 | ICE9 | iPOM | Field | PS106.2, 2017 | Ice corer | 80.2 | -24.23 | -20.99 | -28.98 | -11.89 | -25.75 | -15.27 | ||
PS106_66-5 | KIM006 | iPOM | Field | PS106.2, 2017 | Ice corer | 66.5 | -22.51 | -15.65 | -29.11 | -5.26 | -24.46 | -13.32 | ||
PS106_80-2 | UWI3 | iPOM | Field | PS106.2, 2017 | Under ice Niskin Bottle | 80.2 | -28.53 | -22.99 | -34.03 | -14.15 | -30.19 | -17.92 | ||
PS106_63-1 | MS1 | Melosira sp | Field | PS106.2, 2017 | Surface Under Ice Trawl | 63.1 | -25.57 | -17.89 | -27.98 | -13.34 | -27.91 | -20.26 | ||
PS106_65-4 | MS3 | Melosira sp | Field | PS106.2, 2017 | Surface Under Ice Trawl | 65.4 | -26.90 | -17.37 | -29.49 | -14.07 | -28.19 | -19.63 | ||
PS106_67-5 | MS4 | Melosira sp | Field | PS106.2, 2017 | Surface Under Ice Trawl | 67.5 | -26.79 | -17.65 | -26.06 | -19.00 | -26.65 | -21.76 | ||
PS106_69-2 | MS5 | Melosira sp | Field | PS106.2, 2017 | Surface Under Ice Trawl | 69.2 | -27.78 | -19.98 | -27.99 | -18.15 | -28.33 | -23.56 | ||
PS106_71-5 | MS7 | Melosira sp | Field | PS106.2, 2017 | Surface Under Ice Trawl | 71.5 | -25.11 | -16.23 | -24.77 | -15.61 | -25.57 | -20.45 | ||
PS106_79-1 | MS8 | Melosira sp | Field | PS106.2, 2017 | Surface Under Ice Trawl | 79.1 | -24.21 | -17.17 | -26.76 | -14.26 | -25.58 | -19.73 | ||
PS106_88-1 | RAE1 | Coccotylus truncatus | Field | PS106.2, 2017 | Bottom Trawl | 88.1 | -40.87 | -40.21 | -44.11 | -42.15 | -45.08 | -36.72 | ||
PS106_91-1 | RAE2 | Coccotylus truncatus | Field | PS106.2, 2017 | Bottom Trawl | 91.1 | -43.60 | -41.96 | -45.52 | -45.08 | -47.53 | -39.28 | ||
PS106_92-1 | RAE3 | Coccotylus truncatus | Field | PS106.2, 2017 | Bottom Trawl | 92.1 | -42.98 | -41.47 | -42.45 | -46.36 | -46.46 | -38.51 | ||
PS106_93-1 | RAE4 | Coccotylus truncatus | Field | PS106.2, 2017 | Bottom Trawl | 93.1 | -39.72 | -39.50 | -39.33 | -41.90 | -43.52 | -34.83 | ||
PS106_69-4 | SEA001 | pPOM | Field | PS106.2, 2017 | Niskin/CTD | 69.4 | 9 | -31.11 | -25.20 | -32.10 | -17.90 | -32.37 | -21.46 | |
PS106_73-4 | SEA007 | pPOM | Field | PS106.2, 2017 | Niskin/CTD | 73.4 | 10 | -32.34 | -26.33 | -36.44 | -17.44 | -34.52 | -21.28 | |
PS106_74-1 | SEA011 | pPOM | Field | PS106.2, 2017 | Niskin/CTD | 74.1 | 10 | -32.78 | -26.11 | -37.73 | -16.80 | -34.03 | -19.99 | |
PS106_75-1 | SEA015 | pPOM | Field | PS106.2, 2017 | Niskin/CTD | 75.1 | 10 | -37.14 | -32.50 | -41.12 | -24.21 | -36.62 | -26.38 | |
PS106_83-1 | SEA039 | pPOM | Field | PS106.2, 2017 | Niskin/CTD | 83.1 | 10 | -30.88 | -24.81 | -33.50 | -16.04 | -31.67 | -19.62 | |
PS106_85-1 | SEA045 | pPOM | Field | PS106.2, 2017 | Niskin/CTD | 85.1 | 1 | -34.88 | -29.35 | -37.45 | -22.99 | -36.65 | -25.75 | |
PS106_85-1 | SEA046 | pPOM | Field | PS106.2, 2017 | Niskin/CTD | 85.1 | 10 | -32.34 | -27.53 | -36.62 | -19.86 | -34.74 | -22.07 | |
PS106_46-3 | SPG1 | Sponge | Field | PS106.2, 2017 | Bottom Trawl | 46.3 | 198 | -24.89 | -21.46 | -25.82 | -15.78 | -27.22 | -19.63 | |
PS106_89-1 | SPG4 | Sponge | Field | PS106.2, 2017 | Bottom Trawl | 89.1 | 166 | -27.16 | -23.67 | -25.69 | -17.45 | -28.54 | -23.28 | |
PS106_91-1 | SPG8 | Sponge | Field | PS106.2, 2017 | Bottom Trawl | 91.1 | 177 | -26.25 | -22.60 | -28.25 | -17.34 | -28.39 | -23.04 | |
PS106_92-1 | SPG10 | Sponge | Field | PS106.2, 2017 | Bottom Trawl | 92.1 | 132 | -25.23 | -21.65 | -28.59 | -17.26 | -27.18 | -22.48 | |
PHAE_SYM1 | Sarocladium strictum | Culture | PS106.2, 2017 | -18.40 | -23.34 | -28.23 | -15.53 | -24.56 | -19.08 | |||||
PHAE_SYM2 | Sarocladium strictum | Culture | PS106.2, 2017 | -19.16 | -22.67 | -27.53 | -15.91 | -25.35 | -17.34 | |||||
PHAE_SYM3 | Sarocladium strictum | Culture | PS106.2, 2017 | -17.62 | -21.34 | -25.35 | -13.94 | -24.69 | -16.68 | |||||
PMTG5_1 | Oblongichytrium sp. | Culture | PS106.2, 2017 | -16.38 | -20.65 | -25.98 | -5.99 | -26.51 | -17.84 | |||||
PMTG5_2 | Oblongichytrium sp. | Culture | PS106.2, 2017 | -17.14 | -21.29 | -24.79 | -7.02 | -27.74 | -19.78 | |||||
PMTG5_4 | Oblongichytrium sp. | Culture | PS106.2, 2017 | -14.55 | -18.58 | -20.36 | -7.36 | -24.93 | -17.64 | |||||
BeringSea | SNAP1_1 | Sphaeroforma napiecek | Culture | Bering Sea | -21.52 | -21.00 | -30.80 | -17.13 | -27.95 | -20.10 | ||||
BeringSea | SNAP2 | Sphaeroforma napiecek | Culture | Bering Sea | -23.61 | -22.55 | -27.39 | -17.43 | -31.39 | -25.43 | ||||
BeringSea | SNAP1_2 | Sphaeroforma napiecek | Culture | Bering Sea | -22.70 | -22.39 | -28.82 | -17.55 | -31.38 | -23.19 | ||||
Mijenfjorden | MAP1 | Marinomonas primoryensis | Culture | van Mijenfjorden, Svalbard | -29.33 | -30.22 | -32.67 | -22.50 | -39.70 | -25.64 | ||||
Mijenfjorden | MAP2 | Marinomonas primoryensis | Culture | van Mijenfjorden, Svalbard | -29.90 | -29.98 | -33.88 | -21.60 | -36.37 | -26.26 | ||||
Kaldfjord | PSEC1 | Pseudoalteromonas elyakovii | Culture | Kaldfjord, Tromso | -29.97 | -29.75 | -31.88 | -23.80 | -33.28 | -25.37 | ||||
Kaldfjord | PSEC2 | Pseudoalteromonas elyakovii | Culture | Kaldfjord, Tromso | -29.60 | -28.17 | -32.69 | -21.93 | -38.97 | -26.99 | ||||
Kaldfjord | PSAR1 | Pseudoalteromonas arctica | Culture | Kaldfjord, Tromso | -26.45 | -25.53 | -26.70 | -20.55 | -31.49 | -20.21 | ||||
Kaldfjord | PSAR2 | Pseudoalteromonas arctica | Culture | Kaldfjord, Tromso | -27.12 | -26.18 | -26.27 | -22.03 | -30.33 | -20.90 | ||||
Kaldfjord | PSAR3 | Pseudoalteromonas arctica | Culture | Kaldfjord, Tromso | -26.46 | -25.30 | -20.13 | -21.25 | -29.25 | -23.04 | ||||
Kongsfjorden | MM1_1 | Micromonas pusilla | Culture | Kongsfjorden, Svalbard | -30.99 | -26.02 | -35.72 | -17.02 | -35.91 | -24.27 | ||||
Kongsfjorden | MM2_2 | Micromonas pusilla | Culture | Kongsfjorden, Svalbard | -28.92 | -24.62 | -33.70 | -14.62 | -34.54 | -21.65 | ||||
Kongsfjorden | MM2_1 | Micromonas pusilla | Culture | Kongsfjorden, Svalbard | -31.19 | -24.68 | -34.84 | -16.05 | -35.45 | -21.59 | ||||
Kongsfjorden | THY1_1 | Thalassiosira hyalina | Culture | Kongsfjorden, Svalbard | -33.42 | -26.04 | -36.36 | -14.43 | -35.23 | -22.20 | ||||
Kongsfjorden | THY1_4 | Thalassiosira hyalina | Culture | Kongsfjorden, Svalbard | -32.45 | -26.60 | -36.84 | -14.30 | -32.16 | -19.92 | ||||
Kongsfjorden | THY2_1 | Thalassiosira hyalina | Culture | Kongsfjorden, Svalbard | -34.37 | -28.02 | -37.63 | -16.72 | -34.75 | -21.25 | ||||
MSA1_1 | Melosira arctica | Culture | Unknown | -29.10 | -19.47 | -35.02 | -12.58 | -32.48 | -16.94 | |||||
MSA1_2 | Melosira arctica | Culture | Unknown | -23.49 | -18.93 | -27.08 | -10.87 | -27.40 | -14.43 | |||||
MSA2_1 | Melosira arctica | Culture | Unknown | -28.81 | -20.26 | -34.39 | -12.95 | -31.38 | -16.71 | |||||
PS87/040-1 | NAV_MF1 | Navicula sp. | Culture | ARK 2014 | 40.1 | -22.00 | -13.65 | -24.66 | -4.69 | -25.54 | -13.10 | |||
PS87/040-1 | NAV_MF2 | Navicula sp. | Culture | ARK 2014 | 40.1 | -22.79 | -13.18 | -26.62 | -3.72 | -25.83 | -9.38 | |||
PS87/040-1 | NAV1_1 | Navicula sp. | Culture | ARK 2014 | 40.1 | -22.53 | -14.01 | -27.58 | -4.46 | -28.53 | -9.74 | |||
PS87/037-1 | THA_MF2 | Thalassiosira sp. | Culture | ARK 2014 | 37 | -23.05 | -17.42 | -30.18 | -8.20 | -23.18 | -14.64 | |||
PS87/037-1 | THA1_2 | Thalassiosira sp. | Culture | ARK 2014 | 37 | -23.16 | -18.31 | -31.90 | -10.99 | -25.14 | -14.93 | |||
PS87/037-1 | THA1_3 | Thalassiosira sp. | Culture | ARK 2014 | 37 | -20.37 | -15.50 | -29.71 | -4.25 | -24.53 | -12.10 |