Data Description

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Citation:
Svalbard 2010 team; Schulz, Kai Georg; Bellerby, Richard GJ; Nisumaa, Anne-Marin; Tanaka, Tsuneo; Motegi, Chiaki; Meyerhöfer, Michael; Brussaard, Corina; Hessen, Dag O; Czerny, Jan; Hopkins, Frances; Klavsen, Signe; Piontek, Judith; de Kluijver, Anna; Archer, Stephen; Silyakova, Anna; Engel, Anja; Boxhammer, Tim (2010): Svalbard 2010 team (2010): EPOCA Svalbard mesocosm experiment 2010 depth-integrated (0-12m) variables. doi:10.1594/PANGAEA.762307,
In: Svalbard 2010 team (2010): EPOCA Svalbard 2010 mesocosm experiment in Kongsfjorden, Svalbard, Norway. doi:10.1594/PANGAEA.769833
Related to:
Aberle, Nicole; Schulz, Kai Georg; Stuhr, A; Malzahn, Arne M; Ludwig, Andrea; Riebesell, Ulf (2013): High tolerance of microzooplankton to ocean acidification in an Arctic coastal plankton community. Biogeosciences, 10(3), 1471-1481, doi:10.5194/bg-10-1471-2013 *
Archer, S D; Kimmance, SA; Stephens, JA; Hopkins, Frances; Bellerby, Richard GJ; Schulz, Kai Georg; Piontek, Judith; Engel, Anja (2013): Contrasting responses of DMS and DMSP to ocean acidification in Arctic waters. Biogeosciences, 10(3), 1893-1908, doi:10.5194/bg-10-1893-2013 *
Brussaard, Corina; Noordeloos, AAM; Witte, Hannelore; Collenteur, MCJ; Schulz, Kai Georg; Ludwig, Andrea; Riebesell, Ulf (2013): Arctic microbial community dynamics influenced by elevated CO2 levels. Biogeosciences, 10(2), 719-731, doi:10.5194/bg-10-719-2013 *
Czerny, Jan; Schulz, Kai Georg; Boxhammer, Tim; Bellerby, Richard GJ; Büdenbender, Jan; Engel, Anja; Krug, Sebastian; Ludwig, Andrea; Nachtigall, Kerstin; Nondal, G; Niehoff, Barbara; Silyakova, Anna; Riebesell, Ulf (2013): Implications of elevated CO2 on pelagic carbon fluxes in an Arctic mesocosm study - an elemental mass balance approach. Biogeosciences, 10(5), 3109-3125, doi:10.5194/bg-10-3109-2013 *
Czerny, Jan; Schulz, Kai Georg; Krug, Sebastian; Ludwig, Andrea; Riebesell, Ulf (2013): Technical Note: The determination of enclosed water volume in large flexible-wall mesocosms "KOSMOS". Biogeosciences, 10(3), 1937-1941, doi:10.5194/bg-10-1937-2013 *
Czerny, Jan; Schulz, Kai Georg; Ludwig, Andrea; Riebesell, Ulf (2013): Technical Note: A simple method for air-sea gas exchange measurements in mesocosms and its application in carbon budgeting. Biogeosciences, 10(3), 1379-1390, doi:10.5194/bg-10-1379-2013 *
de Kluijver, Anna; Soetaert, Karline; Czerny, Jan; Schulz, Kai Georg; Boxhammer, Tim; Riebesell, Ulf; Middelburg, Jack J (2013): A 13C labelling study on carbon fluxes in Arctic plankton communities under elevated CO2 levels. Biogeosciences, 10(3), 1425-1440, doi:10.5194/bg-10-1425-2013 *
Hopkins, Frances; Kimmance, SA; Stephens, JA; Bellerby, Richard GJ; Brussaard, Corina; Czerny, Jan; Schulz, Kai Georg; Archer, S D (2013): Response of halocarbons to ocean acidification in the Arctic. Biogeosciences, 10(4), 2331-2345, doi:10.5194/bg-10-2331-2013 *
Leu, Eva; Daase, M; Schulz, Kai Georg; Stuhr, A; Riebesell, Ulf (2013): Effect of ocean acidification on the fatty acid composition of a natural plankton community. Biogeosciences, 10(2), 1143-1153, doi:10.5194/bg-10-1143-2013 *
Moisander, Pia H; Beinart, Roxanne A; Voß, Maren; Zehr, Jonathan P (2008): Diversity and abundance of diazotrophic microorganisms in the South China Sea during intermonsoon. The ISME journal, 2(9), 954-967, doi:10.1038/ismej.2008.51 *
Motegi, Chiaki; Tanaka, Tsuneo; Piontek, Judith; Brussaard, Corina; Gattuso, Jean-Pierre; Weinbauer, Markus G (2013): Effect of CO2 enrichment on bacterial metabolism in an Arctic fjord. Biogeosciences, 10(5), 3285-3296, doi:10.5194/bg-10-3285-2013 *
Niehoff, Barbara; Schmithüsen, Holger; Knüppel, Nadine; Daase, M; Czerny, Jan; Boxhammer, Tim (2013): Mesozooplankton community development at elevated CO2 concentrations: results from a mesocosm experiment in an Arctic fjord. Biogeosciences, 10(3), 1391-1406, doi:10.5194/bg-10-1391-2013 *
Piontek, Judith; Borchard, Corinna; Sperling, Martin; Schulz, Kai Georg; Riebesell, Ulf; Engel, Anja (2013): Response of bacterioplankton activity in an Arctic fjord system to elevated pCO2: results from a mesocosm perturbation study. Biogeosciences, 10(1), 297-314, doi:10.5194/bg-10-297-2013 *
Riebesell, Ulf; Czerny, Jan; von Bröckel, Klaus; Boxhammer, Tim; Büdenbender, Jan; Deckelnick, M; Fischer, Matthias; Hoffmann, Dietrich; Krug, Sebastian; Lentz, SJ; Ludwig, Andrea; Muche, R; Schulz, Kai Georg (2013): Technical Note: A mobile sea-going mesocosm system - new opportunities for ocean change research. Biogeosciences, 10(3), 1835-1847, doi:10.5194/bg-10-1835-2013 *
Roy, AS; Gibbons, SM; Schunck, Harald; Owens, S; Caporaso, JG; Sperling, Martin; Nissimov, JI; Romac, Sarah; Bittner, Lucie; Mühling, M; Riebesell, Ulf; LaRoche, Julie; Gilbert, Jack Anthony (2013): Ocean acidification shows negligible impacts on high-latitude bacterial community structure in coastal pelagic mesocosms. Biogeosciences, 10(1), 555-566, doi:10.5194/bg-10-555-2013 *
Schulz, Kai Georg; Bellerby, Richard GJ; Brussaard, Corina; Büdenbender, Jan; Czerny, Jan; Engel, Anja; Fischer, Matthias; Krug, Sebastian; Lischka, Silke; Koch-Klavsen, Stephanie; Ludwig, Andrea; Meyerhöfer, Michael; Nondal, G; Silyakova, Anna; Stuhr, A; Riebesell, Ulf (2013): Temporal biomass dynamics of an Arctic plankton bloom in response to increasing levels of atmospheric carbon dioxide. Biogeosciences, 10(1), 161-180, doi:10.5194/bg-10-161-2013 *
Silyakova, Anna; Bellerby, Richard GJ; Schulz, Kai Georg; Czerny, Jan; Tanaka, Tsuneo; Nondal, G; Riebesell, Ulf; Engel, Anja; de Lange, Gert Jan; Ludvig, A (2013): Pelagic community production and carbon-nutrient stoichiometry under variable ocean acidification in an Arctic fjord. Biogeosciences, 10(7), 4847-4859, doi:10.5194/bg-10-4847-2013 *
Tanaka, Tsuneo; Alliouane, Samir; Bellerby, Richard GJ; Czerny, Jan; de Kluijver, Anna; Riebesell, Ulf; Schulz, Kai Georg; Silyakova, Anna; Gattuso, Jean-Pierre (2013): Effect of increased pCO2 on the planktonic metabolic balance during a mesocosm experiment in an Arctic fjord. Biogeosciences, 10(1), 315-325, doi:10.5194/bg-10-315-2013 *
Project(s):
Coverage:
Latitude: 78.953500 * Longitude: 11.956000
Date/Time Start: 2010-06-02T00:00:00 * Date/Time End: 2010-07-07T00:00:00
Minimum Elevation: -25.0 m * Maximum Elevation: 0.0 m
Event(s):
EPOCA-mesocom-2010 * * Latitude: 78.953500 * Longitude: 11.956000 * Date/Time Start: 2010-06-02T00:00:00 * Date/Time End: 2010-07-07T00:00:00 * Elevation Start: 0.0 m * Elevation End: -25.0 m * Location: Svalbard * * Campaign: EPOCA mesocosm experiment * * Device: Mesocosm experiment (Mesocosm) *
Comment:
Latest data set update: 9 October 2013. In order to allow full comparability with other ocean acidification data sets, the R package seacarb (Lavigne and Gattuso, 2011) was used to compute a complete and consistent set of carbonate system variables, as described by Nisumaa et al. (2010). In this dataset the original values were archived in addition with the recalculated parameters (see related PI).
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethodComment
1DATE/TIME *Date/TimeGeocode
2Sample comment *Samp comSvalbard 2010 team *
3Time, incubation *T incubationdaySvalbard 2010 team *
4Identification *IDSvalbard 2010 team *
5Salinity *SalSchulz, Kai Georg *Hand-operated CTD (Sea&Sun Technology, CTD 60M) *
6Temperature, water *Temp°CSchulz, Kai Georg *Hand-operated CTD (Sea&Sun Technology, CTD 60M) *
7Sigmas *SigmasSchulz, Kai Georg *Hand-operated CTD (Sea&Sun Technology, CTD 60M) *
8pH *pHSchulz, Kai Georg *Hand-operated CTD (Sea&Sun Technology, CTD 60M) *Free scale
9Oxygen *OXYGENµmol/kgSchulz, Kai Georg *Hand-operated CTD (Sea&Sun Technology, CTD 60M) *
10Chlorophyll a *Chl aµg/lSchulz, Kai Georg *Hand-operated CTD (Sea&Sun Technology, CTD 60M) *
11Turbidity (Formazin Turbidity Unit) *TurbidityFTUSchulz, Kai Georg *Hand-operated CTD (Sea&Sun Technology, CTD 60M) *
12Alkalinity, total *ATµmol/kgBellerby, Richard GJ *Alkalinity, Gran titration (Gran, 1950) *
13Carbon, inorganic, dissolved *DICµmol/kgBellerby, Richard GJ *Coulometry *
14pH *pHBellerby, Richard GJ *Calculated using CO2SYS *Total scale; CO2SYS (Lewis and Wallace, 1998) dissocoation constants for carbonic acid (Dickson and Millero, 1987) boric acid (Dickson, 1990a) sulphuric acid (Dickson, 1990b) CO2 solubility coefficient Weiss (1974)
15Partial pressure of carbon dioxide (water) at sea surface temperature (wet air) *pCO2water_SST_wetµatmBellerby, Richard GJ *Calculated using CO2SYS *CO2SYS (Lewis and Wallace, 1998) dissocoation constants for carbonic acid (Dickson and Millero, 1987) boric acid (Dickson, 1990a) sulphuric acid (Dickson, 1990b) CO2 solubility coefficient Weiss (1974)
16Bicarbonate ion *[HCO3]-µmol/kgBellerby, Richard GJ *Calculated using CO2SYS *CO2SYS (Lewis and Wallace, 1998) dissocoation constants for carbonic acid (Dickson and Millero, 1987) boric acid (Dickson, 1990a) sulphuric acid (Dickson, 1990b) CO2 solubility coefficient Weiss (1974)
17Carbonate ion *[CO3]2-µmol/kgBellerby, Richard GJ *Calculated using CO2SYS *CO2SYS (Lewis and Wallace, 1998) dissocoation constants for carbonic acid (Dickson and Millero, 1987) boric acid (Dickson, 1990a) sulphuric acid (Dickson, 1990b) CO2 solubility coefficient Weiss (1974)
18Aragonite saturation state *Omega ArgBellerby, Richard GJ *Calculated using CO2SYS *CO2SYS (Lewis and Wallace, 1998) dissocoation constants for carbonic acid (Dickson and Millero, 1987) boric acid (Dickson, 1990a) sulphuric acid (Dickson, 1990b) CO2 solubility coefficient Weiss (1974)
19Calcite saturation state *Omega CalBellerby, Richard GJ *Calculated using CO2SYS *CO2SYS (Lewis and Wallace, 1998) dissocoation constants for carbonic acid (Dickson and Millero, 1987) boric acid (Dickson, 1990a) sulphuric acid (Dickson, 1990b) CO2 solubility coefficient Weiss (1974)
20Carbonate system computation flag *CSC flagNisumaa, Anne-Marin *Calculated using seacarb after Nisumaa et al. (2010) *
21pH *pHNisumaa, Anne-Marin *Calculated using seacarb after Nisumaa et al. (2010) *Total scale
22Carbon dioxide *CO2µmol/kgNisumaa, Anne-Marin *Calculated using seacarb after Nisumaa et al. (2010) *
23Partial pressure of carbon dioxide (water) at sea surface temperature (wet air) *pCO2water_SST_wetµatmNisumaa, Anne-Marin *Calculated using seacarb after Nisumaa et al. (2010) *
24Fugacity of carbon dioxide (water) at sea surface temperature (wet air) *fCO2water_SST_wetµatmNisumaa, Anne-Marin *Calculated using seacarb after Nisumaa et al. (2010) *
25Bicarbonate ion *[HCO3]-µmol/kgNisumaa, Anne-Marin *Calculated using seacarb after Nisumaa et al. (2010) *
26Carbonate ion *[CO3]2-µmol/kgNisumaa, Anne-Marin *Calculated using seacarb after Nisumaa et al. (2010) *
27Aragonite saturation state *Omega ArgNisumaa, Anne-Marin *Calculated using seacarb after Nisumaa et al. (2010) *
28Calcite saturation state *Omega CalNisumaa, Anne-Marin *Calculated using seacarb after Nisumaa et al. (2010) *
29Net community production of oxygen *NCP O2µmol/l/dayTanaka, Tsuneo *Calculated from linear regression *
30Net community production, standard deviation *netOX std dev±Tanaka, Tsuneo *Calculated from linear regression *
31Respiration rate, oxygen, community *Comm resp O2µmol/dayTanaka, Tsuneo *Calculated from linear regression *
32Respiration rate, oxygen, community, standard error *Comm resp O2 std e±Tanaka, Tsuneo *Calculated from linear regression *
33Respiration rate, oxygen, bacterial *Bact resp O2µmol/dayTanaka, Tsuneo *Calculated from linear regression *
34Respiration rate, oxygen, bacterial, standard error *Bact resp O2 std e±Tanaka, Tsuneo *Calculated from linear regression *
35Bacterial/community respiration rate, oxygen, ratio *Bact resp O2/comm resp O2Tanaka, Tsuneo *Calculated *
36Gross community production of oxygen *GCPµmol/dayTanaka, Tsuneo *Calculated *
37Bacterial production *BP#/l/dayMotegi, Chiaki *Thymidine incorporation *
38Bacterial production, standard deviation *BP std dev±Motegi, Chiaki *
39Chlorophytes *Chloromg/m2Meyerhöfer, Michael *
40Cyanobacteria, biomass per area *Cyanobact Bmg/m2Meyerhöfer, Michael *
41Phytoplankton, biomass per area *Phytopl biom intmg/m2Meyerhöfer, Michael *Calculated *
42Cryptophytes *Cryptophytesmg/m2Meyerhöfer, Michael *
43Chlorophyll a, areal concentration *Chl a concmg/m2Meyerhöfer, Michael *
44Picophytoplankton *Picophytopl#/mlBrussaard, Corina *Flow cytometry *Average 1 µm
45Picophytoplankton *Picophytopl#/mlBrussaard, Corina *Flow cytometry *2-3 µm
46Nanoplankton *NP#/mlBrussaard, Corina *Flow cytometry *3-8 µm
47Nanoplankton *NP#/mlBrussaard, Corina *Flow cytometry *>10 µm
48Nanoplankton *NP#/mlBrussaard, Corina *Flow cytometry *5-8 µm
49Nanoplankton *NP#/mlBrussaard, Corina *Flow cytometry *3-5 µm
50Algae abundance *Algae ab#/mlBrussaard, Corina *Flow cytometry *
51Picophytoplankton *Picophytopl#/mlBrussaard, Corina *Flow cytometry *
52Nanoplankton *NP#/mlBrussaard, Corina *Flow cytometry *
53Bacteria *Bact#/mlBrussaard, Corina *Flow cytometry *
54Bacteria, high DNA fluorescence *Bact HDNA%Brussaard, Corina *Flow cytometry *
55Bacteria, low DNA fluorescence *Bact LDNA%Brussaard, Corina *Flow cytometry *
56Virus *Virus#/mlBrussaard, Corina *Flow cytometry *
57Viruses *Viruses%Brussaard, Corina *Flow cytometry *Population 1
58Viruses *Viruses%Brussaard, Corina *Flow cytometry *Population 2
59Viruses *Viruses%Brussaard, Corina *Flow cytometry *Population 3
60Viruses *Viruses%Brussaard, Corina *Flow cytometry *Population 4
61Virus/bacteria ratio *VBRBrussaard, Corina *Flow cytometry *
62Alkaline phosphatase *ALKPrelative unitsHessen, Dag O *
63Nitrous oxide *N2Oµmol/m3Czerny, Jan *Gas chromatography - Mass spectrometry (GC-MS) *
64Transfer velocity, nitrous oxide *K N2Oµm/sCzerny, Jan *Gas chromatography - Mass spectrometry (GC-MS) *
65Transfer velocity, carbon dioxide *K CO2µm/sCzerny, Jan *Gas chromatography - Mass spectrometry (GC-MS) *
66Transfer velocity, dimethyl sulfide *K DMSµm/sCzerny, Jan *Gas chromatography - Mass spectrometry (GC-MS) *
67Carbon dioxide flux per mesocosm *CO2 fluxmmol/mes/dayCzerny, Jan *Gas chromatography - Mass spectrometry (GC-MS) *
68Water content of mesocosm *mesocosm volumetCzerny, Jan *Gas chromatography - Mass spectrometry (GC-MS) *
69Iodomethane *CH3Ipmol/lHopkins, Frances *Gas chromatography - Mass spectrometry (GC-MS) *
701-Iodoethane *CH3CH2Ipmol/lHopkins, Frances *Gas chromatography - Mass spectrometry (GC-MS) *
712-Iodopropane *CH3CHICH3pmol/lHopkins, Frances *Gas chromatography - Mass spectrometry (GC-MS) *
721-Iodopropane *CH3CH2CH2Ipmol/lHopkins, Frances *Gas chromatography - Mass spectrometry (GC-MS) *
73Diiodomethane *CH2I2pmol/lHopkins, Frances *Gas chromatography - Mass spectrometry (GC-MS) *
74Chloroiodomethane *CH2ClIpmol/lHopkins, Frances *Gas chromatography - Mass spectrometry (GC-MS) *
75Bromoiodomethane *CH2BrIpmol/lHopkins, Frances *Gas chromatography - Mass spectrometry (GC-MS) *
76Tribromomethane *CHBr3pmol/lHopkins, Frances *Gas chromatography - Mass spectrometry (GC-MS) *
77Dibromomethane *CH2Br2pmol/lHopkins, Frances *Gas chromatography - Mass spectrometry (GC-MS) *
78Bromochloromethane *CH2BrClpmol/lHopkins, Frances *Gas chromatography - Mass spectrometry (GC-MS) *
79Dibromochloromethane *CHBr2Clpmol/lHopkins, Frances *Gas chromatography - Mass spectrometry (GC-MS) *
80Chlorophyll c3 *Chl c3µg/lKlavsen, Signe *High Performance Liquid Chromatography (HPLC) *
81Chlorophyll c1+c2 *Chl c1+c2µg/lKlavsen, Signe *High Performance Liquid Chromatography (HPLC) *
82Peridinin *Peridµg/lKlavsen, Signe *High Performance Liquid Chromatography (HPLC) *
8319-Butanoyloxyfucoxanthin *But-fucoµg/lKlavsen, Signe *High Performance Liquid Chromatography (HPLC) *
84Fucoxanthin *Fucoµg/lKlavsen, Signe *High Performance Liquid Chromatography (HPLC) *
85Neoxanthin *Neoµg/lKlavsen, Signe *High Performance Liquid Chromatography (HPLC) *
86Prasinoxanthin *Prasµg/lKlavsen, Signe *High Performance Liquid Chromatography (HPLC) *
87Violaxanthin *Violaµg/lKlavsen, Signe *High Performance Liquid Chromatography (HPLC) *
88Diadinoxanthin *Diadinoµg/lKlavsen, Signe *High Performance Liquid Chromatography (HPLC) *
89Aphanizophyll *Aphanizomg/lKlavsen, Signe *High Performance Liquid Chromatography (HPLC) *
90Alloxanthin *Alloµg/lKlavsen, Signe *High Performance Liquid Chromatography (HPLC) *
91Diatoxanthin *Diatoµg/lKlavsen, Signe *High Performance Liquid Chromatography (HPLC) *
92Zeaxanthin *Zeaµg/lKlavsen, Signe *High Performance Liquid Chromatography (HPLC) *
93Myxoxanthophyll *Myxoxmg/lKlavsen, Signe *High Performance Liquid Chromatography (HPLC) *
94Chlorophyll b *Chl bµg/lKlavsen, Signe *High Performance Liquid Chromatography (HPLC) *
95Chlorophyll a *Chl aµg/lKlavsen, Signe *High Performance Liquid Chromatography (HPLC) *
96alpha-Carotene, beta,epsilon-Carotene *be-Carµg/lKlavsen, Signe *High Performance Liquid Chromatography (HPLC) *
97beta-Carotene, beta,beta-Carotene *bb-Carµg/lKlavsen, Signe *High Performance Liquid Chromatography (HPLC) *
98Bacterial biomass production of carbon *Bact prodng/l/hPiontek, Judith *
99Bacterial biomass production of carbon, standard deviation *Bact prod std dev±Piontek, Judith *
100Carbon, organic, particulate *POCµmol/lSchulz, Kai Georg *
101Nitrogen, organic, particulate *PONµmol/lSchulz, Kai Georg *
102Phosphorus, organic, particulate *POPµmol/lSchulz, Kai Georg *
103Nitrate *NO3µmol/lSchulz, Kai Georg *
104Nitrite *[NO2]-µmol/lSchulz, Kai Georg *
105Silicon *Siµmol/lSchulz, Kai Georg *
106Phosphate *PO4µmol/lSchulz, Kai Georg *
107Ammonium *[NH4]+µmol/lSchulz, Kai Georg *
108delta 13C, dissolved inorganic carbon *d13C DICper mil PDBde Kluijver, Anna *
109Delta delta 13C *Dd13Cper mil PDBde Kluijver, Anna *Calculated *Of DIC; corrected: ((d13C DIC (mesocosm tn)) - (d13C DIC (background))/correction factor)
110Carbon, inorganic, dissolved *DICµmol/lde Kluijver, Anna *delta 13C labeling method *Corrected for initial label differences and gas-exchange
111delta 13C, dissolved organic carbon *d13C DOCper mil PDBde Kluijver, Anna *
112Delta delta 13C *Dd13Cper mil PDBde Kluijver, Anna *Calculated *Of DOC; corrected: ((d13C DOC (mesocosm tn)) - (d13C DOC(background))/correction factor)
113Carbon, organic, dissolved *DOCµmol/lde Kluijver, Anna *delta 13C labeling method *
114delta 13C, particulate organic carbon *d13C POCper mil PDBde Kluijver, Anna *
115Delta delta 13C *Dd13Cper mil PDBde Kluijver, Anna *Calculated *Of POC; corrected: ((d13C POC (mesocosm tn)) - (d13C POC (background))/correction factor)
116Carbon, organic, particulate *POCµmol/lde Kluijver, Anna *delta 13C labeling method *
117delta 13C, algae *d13C algaeper mil PDBde Kluijver, Anna *Small, fast growing algae (e.g. chrysophytes and green algae)
118Delta delta 13C *Dd13Cper mil PDBde Kluijver, Anna *Calculated *Of small, fast growing algae (e.g. chrysophytes and green algae); corrected: ((d13C algae (mesocosm tn)) - (d13C algae (background))/correction factor)
119Algae, fatty acids *Algae FAµmol/lde Kluijver, Anna *delta 13C labeling method *Small, fast growing algae (e.g. chrysophytes and green algae)
120Algae, biomass as carbon *Algae Cµmol/lde Kluijver, Anna *delta 13C labeling method *Small, fast growing algae (e.g. chrysophytes and green algae)
121delta 13C, algae *d13C algaeper mil PDBde Kluijver, Anna *Larger, slower growing algae (e.g. diatoms and (heterotrophic) dinoflagellates
122Delta delta 13C *Dd13Cper mil PDBde Kluijver, Anna *Calculated *Of larger, slower growing algae (e.g. diatoms and (heterotrophic) dinoflagellates; corrected: ((d13C algae (mesocosm tn)) - (d13C algae (background))/correction factor)
123Algae, fatty acids *Algae FAµmol/lde Kluijver, Anna *delta 13C labeling method *Larger, slower growing algae (e.g. diatoms and (heterotrophic) dinoflagellates
124Algae, biomass as carbon *Algae Cµmol/lde Kluijver, Anna *delta 13C labeling method *Larger, slower growing algae (e.g. diatoms and (heterotrophic) dinoflagellates
125delta 13C, bacteria *d13C bactper mil PDBde Kluijver, Anna *Gram-positive bacteria
126Delta delta 13C *Dd13Cper mil PDBde Kluijver, Anna *Calculated *Gram-positive bacteria; corrected: ((d13C bacteria (mesocosm tn)) - (d13C bacteria (background))/correction factor)
127Bacteria, fatty acids *Bacteria FAµmol/lde Kluijver, Anna *Gram-positive bacteria
128Bacteria, biomass as carbon *Bact Cµmol/lde Kluijver, Anna *Gram-positive bacteria
129Calanus finmarchicus, d13C *C. finmarchicus d13Cper mil PDBde Kluijver, Anna *
130Cirripedia, larvae, d13C *Cirripedia larv d13Cper mil PDBde Kluijver, Anna *
131Delta delta 13C *Dd13Cper mil PDBde Kluijver, Anna *Calculated *Calanus finmarchicus; corrected: ((d13C C. finmarchicus (mesocosm tn)) - (d13C C. finmarchicus (background))/correction factor)
132Delta delta 13C *Dd13Cper mil PDBde Kluijver, Anna *Calculated *Cirripedia, larvae; corrected: ((d13C Cirripedia (mesocosm tn)) - (d13C Cirripedia (background))/correction factor)
133delta 13C, particulate organic carbon *d13C POCper mil PDBde Kluijver, Anna *Sediment trap
134Delta delta 13C *Dd13Cper mil PDBde Kluijver, Anna *Calculated *Sediment trap POC; corrected: ((d13C POC (mesocosm tn)) - (d13C POC (background))/correction factor)
135Dimethyl sulfide, dissolved *DMS dissnmol/lArcher, Stephen *PFPD gas chromatography *
136Dimethylsulfoniopropionate *DMSPnmol/lArcher, Stephen *PFPD gas chromatography *
137Net community production of carbon dioxide *NCP DICµmol/kgSilyakova, Anna *
138Exudation as determined by 14C DOC production *Exud 14C DOCµmol/l/dayEngel, Anja *
139Exudation as determined by 14C DOC production, standard deviation *Exud 14C DOC std dev±Engel, Anja *
140Primary production of POC as determined by 14C POC production *PP 14C POCµmol/l/dayEngel, Anja *
141Primary production of POC as determined by 14C POC production, standard deviation *PP 14C POC std dev±Engel, Anja *
142Carbon, total particulate *TPCµmol/kgBoxhammer, Tim *sediment trap samples
143Carbon, organic, particulate *POCµmol/kgBoxhammer, Tim *sediment trap samples
144Carbon, inorganic, particulate *PICµmol/kgBoxhammer, Tim *sediment trap samples
145Nitrogen, organic, particulate *PONµmol/kgBoxhammer, Tim *sediment trap samples
146Phosphorus, organic, particulate *POPµmol/kgBoxhammer, Tim *sediment trap samples
147Biogenic silica *bSiO2µmol/kgBoxhammer, Tim *sediment trap samples
148Nitrogen, organic, dissolved *DONµmol/lSchulz, Kai Georg *
149Phosphorus, organic, dissolved *DOPµmol/lSchulz, Kai Georg *
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