Kankus, Janset; Bizsel, Nihayet; Bizsel, Kemal Can; Besiktepe, Sengul; Leiknes, Øystein; Sanchez, Nicolas; Kuttivadakkethil Avarachen, Mathew; Tsagaraki, Tatiana M; Thingstad, Tron Frede; Hopwood, Mark James; King, Andrew L; Reggiani, Emanuele Roberto; Cuevas, L Antonio; Ardelan, Murat V (2020): Response of the microbial food web to a multi-stressor (increase in organic matter, grazing pressure and decrease in pH) effect in incubation experiments in the Mediterranean: Microcosm [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.911175, In: Sanchez, Nicolas; Leiknes, Øystein; Tsagaraki, Tatiana M; Hopwood, Mark James; Gallego-Urrea, J; Kuttivadakkethil Avarachen, Mathew; Cuevas, L Antonio; Kankus, Janset; King, Andrew L; Reggiani, Emanuele Roberto; Bratbak, Gunnar; Larsen, Aud; Sandaa, Ruth-Anne; Egge, Jorun K; Turner, David; Besiktepe, Sengul; Bizsel, Kemal Can; Bizsel, Nihayet; Iriarte, Jose Luis; González, Humberto; Torres, Rodrigo; Bellerby, Richard G J; Thingstad, Tron Frede; Hoffmann, Linn; Achterberg, Eric Pieter; Vadstein, Olav; Olsen, Yngvar; Ardelan, Murat V (2020): Response of the microbial food web to gradients of organic matter and grazing pressure and multi-stressor effect in incubation experiments in three different marine ecosystems: Patagonia, Arctic and Mediterranean [dataset publication series]. PANGAEA, https://doi.org/10.1594/PANGAEA.911130
Always quote citation above when using data! You can download the citation in several formats below.
Keyword(s):
Related to:
Hopwood, Mark James; Sanchez, Nicolas; Polyviou, Despo; Leiknes, Øystein; Gallego-Urrea, J; Achterberg, Eric Pieter; Ardelan, Murat V; Arístegui, Javier; Bach, Lennart Thomas; Besiktepe, Sengul; Heriot, Yohann; Kalantzi, Ioanna; Kurt, Tuba Terbiyik; Santi, Ioulia; Tsagaraki, Tatiana M; Turner, David (2020): Experiment design and bacterial abundance control extracellular H2O2 concentrations during four series of mesocosm experiments. Biogeosciences, 17(5), 1309-1326, https://doi.org/10.5194/bg-17-1309-2020
Hopwood, Mark James; Santana-Gonzalez, C; Gallego-Urrea, J; Sanchez, Nicolas; Achterberg, Eric Pieter; Ardelan, Murat V; Gledhill, Martha; González-Dávila, Melchor; Hoffmann, Linn; Leiknes, Øystein; Santana-Casiano, Juana Magdalena; Tsagaraki, Tatiana M; Turner, David (2020): Fe(II) stability in coastal seawater during experiments in Patagonia, Svalbard, and Gran Canaria. Biogeosciences, 17(5), 1327-1342, https://doi.org/10.5194/bg-17-1327-2020
Project(s):
Funding:
Seventh Framework Programme (FP7), grant/award no. 603773: Ocean Food-web Patrol – Climate Effects: Reducing Targeted Uncertainties with an Interactive Network
Coverage:
Latitude: 35.334763 * Longitude: 25.282237
Date/Time Start: 2016-05-23T00:00:00 * Date/Time End: 2016-06-01T00:00:00
Minimum Elevation: 2016.0 m * Maximum Elevation: 2016.0 m
Event(s):
OC_Mediterranean_Mesocosm (Mediterranean: Hellenic centre for marine research) * Latitude: 35.334763 * Longitude: 25.282237 * Date/Time: 2016-05-23T00:00:00 * Elevation: 2016.0 m * Method/Device: Mesocosm experiment (MESO)
Comment:
Zooplankton treatment: HZ: zooplankton added, LZ: Zooplankton removed
Carbon treatment: 0C: No glucose addition, 0.5: 0.5 x Redfield. 1: 1xRedfield, 2: 2xRedfield, 3: 3XRedfield
pH Treatment:NpH: Normal pH, LpH: Low pH
Parameter(s):
| # | Name | Short Name | Unit | Principal Investigator | Method/Device | Comment |
|---|---|---|---|---|---|---|
| 1 | DATE/TIME | Date/Time | Ardelan, Murat V | Geocode | ||
| 2 | Day of experiment | DOE | day | Ardelan, Murat V | ||
| 3 | Number | No | Ardelan, Murat V | Tank No | ||
| 4 | Treatment | Treat | Ardelan, Murat V | Zooplankton treatment | ||
| 5 | Treatment | Treat | Ardelan, Murat V | Carbon treatment | ||
| 6 | Treatment | Treat | Ardelan, Murat V | pH treatment | ||
| 7 | pH | pH | Ardelan, Murat V | |||
| 8 | Chlorophyll a | Chl a | mg/m3 | Cuevas, L Antonio | Chlorophyll a Total | |
| 9 | Phosphate | [PO4]3- | µmol/l | Ardelan, Murat V | ||
| 10 | Nitrate | [NO3]- | µmol/l | Ardelan, Murat V | ||
| 11 | Ammonium | [NH4]+ | µmol/l | Ardelan, Murat V | ||
| 12 | Nitrate | [NO3]- | µmol/l | Ardelan, Murat V | ||
| 13 | Silicate | Si(OH)4 | µmol/l | Ardelan, Murat V | ||
| 14 | Carbon, organic, particulate | POC | µg/l | Kuttivadakkethil Avarachen, Mathew | ||
| 15 | Nitrogen, organic, particulate | PON | µg/l | Kuttivadakkethil Avarachen, Mathew | ||
| 16 | Nitrogen/Carbon ratio | N/C | Kuttivadakkethil Avarachen, Mathew | |||
| 17 | Abundance per volume | Abund v | #/ml | Ardelan, Murat V | Bacterial Abundance | |
| 18 | Abundance per volume | Abund v | #/ml | Ardelan, Murat V | Synecoccocus Abundance | |
| 19 | Abundance per volume | Abund v | #/ml | Ardelan, Murat V | Plochlorococcus | |
| 20 | Abundance per volume | Abund v | #/ml | Ardelan, Murat V | Picoeukaryotes Abundance | |
| 21 | Abundance per volume | Abund v | #/ml | Ardelan, Murat V | Autotrophic nanoflagellates | |
| 22 | Abundance per volume | Abund v | #/ml | Ardelan, Murat V | Heterotrophic nanoflagellates | |
| 23 | Primary production of carbon | PP C | µg/l/day | Leiknes, Øystein | Primary production Total | |
| 24 | Primary production of carbon | PP C | µg/l/day | Leiknes, Øystein | Primary Production 10µm | |
| 25 | Primary production of carbon | PP C | µg/l/day | Leiknes, Øystein | Primary Production 0.8-10µm | |
| 26 | Primary production of carbon | PP C | µg/l/day | Leiknes, Øystein | Primary Production 0.2-0.8µm | |
| 27 | Bacterial production | BP | µg/l/day | Leiknes, Øystein | ||
| 28 | Time in hours | Time | h | Thingstad, Tron Frede | Glucose turnover time | |
| 29 | Time in hours | Time | h | Thingstad, Tron Frede | Phosphate turnover time | |
| 30 | Abundance | Abund | #/l | Bizsel, Nihayet | TOTAL Nannoplankton (w/o flagellate) | |
| 31 | Abundance | Abund | #/l | Bizsel, Nihayet | TOTAL Bacillariophyceae | |
| 32 | Abundance | Abund | #/l | Bizsel, Nihayet | TOTAL Dinoflagellata | |
| 33 | Abundance | Abund | #/l | Bizsel, Nihayet | TOTAL Phytoplankton | |
| 34 | Abundance | Abund | #/l | Bizsel, Nihayet | Microzoo+Zoo (Carbon) | |
| 35 | Biomass as carbon per volume | Biom C | µg/l | Bizsel, Nihayet | TOTAL Nano (Carbon) | |
| 36 | Biomass as carbon per volume | Biom C | µg/l | Bizsel, Nihayet | TOTAL Bacillariophyceae (Carbon) | |
| 37 | Biomass as carbon per volume | Biom C | µg/l | Bizsel, Nihayet | TOTAL Dinoflagellata (Carbon) | |
| 38 | Biomass as carbon per volume | Biom C | µg/l | Bizsel, Nihayet | TOTAL Phytoplankton (Carbon) | |
| 39 | Biomass as carbon per volume | Biom C | µg/l | Bizsel, Nihayet | Microzoo+Zoo (Carbon) | |
| 40 | Zooplankton | Zoopl | #/l | Besiktepe, Sengul | total | |
| 41 | Biomass as carbon per volume | Biom C | µg/l | Besiktepe, Sengul | Zooplankton Biomass | |
| 42 | Hydrogen peroxide, water | H2O2 | nmol/l | Hopwood, Mark James | ||
| 43 | Monovinyl chlorophyll a | MV chl a | µg/l | Kankus, Janset | ||
| 44 | Chlorophyll b | Chl b | µg/l | Kankus, Janset | ||
| 45 | Chlorophyll c2 | Chl c2 | µg/l | Kankus, Janset | ||
| 46 | Chlorophyll c3 | Chl c3 | µg/l | Kankus, Janset | ||
| 47 | Chlorophyllide a | Chlide a | µg/l | Kankus, Janset | ||
| 48 | Pheophorbide a | Phide a | µg/l | Kankus, Janset | ||
| 49 | Pheophytin a | Phytin a | µg/l | Kankus, Janset | ||
| 50 | Peridinin | Perid | µg/l | Kankus, Janset | ||
| 51 | Fucoxanthin | Fuco | µg/l | Kankus, Janset | ||
| 52 | 19-Hexanoyloxyfucoxanthin | Hex-fuco | µg/l | Kankus, Janset | ||
| 53 | Violaxanthin | Viola | µg/l | Kankus, Janset | ||
| 54 | Diadinoxanthin | Diadino | µg/l | Kankus, Janset | ||
| 55 | Alloxanthin | Allo | µg/l | Kankus, Janset | ||
| 56 | Diatoxanthin | Diato | µg/l | Kankus, Janset | ||
| 57 | Zeaxanthin | Zea | µg/l | Kankus, Janset | ||
| 58 | beta-Carotene | b-Car | µg/l | Kankus, Janset |
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0)
Size:
4431 data points
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