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Experiment on E. huxleyi and C. affinis exposed to increased CO2: Relative im...
This dataset has no description
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KOSMOS 2013 Gullmar Fjord mesocosm study: Microzooplankton biovolume
Biovolumes of ciliate and dinoflagellate taxa, means across all mesocosms. -
Mesocosm experiment on warming and acidification effects in 2012: Microzoopla...
Biovolumes of microzooplankton taxa: mean values across all mesocosms. -
Mesocosm experiment 2013 on effects of increased CO2 concentration on nutrien...
Aquatic ecosystems face a multitude of environmental stressors, including warming and acidification. While warming is expected to have a pronounced effect on plankton... -
Biovolume of Ceratium longipes and Ceratium fusus in the KOSMOS Experiment Be...
This dataset has no description
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Feeding, growth and grazing rates of Strombidium sulcatum determined experime...
Carbon per cell of prey and grazer calculated using the following equation of Menden-Deuer and Lessard (2000): picogram carbon per cell = 0.216biovolume*0.939. -
Feeding rates of Favella sp. and Balanion sp. determined experimentally
Carbon per cell of grazer Balanion sp. calculated using the following equation of Menden-Deuer and Lessard (2000): picogram carbon per cell = 0.216biovolume*0.939. -
Taxonomic composition, abundances, and biovolumes of prey organisms in in-sit...
The dataset compiles cell counts and biovolumes of different plankton groups (phytoplankton, ciliates, rotifers, heterotrophic nanoflagellates, and bacteria) obtained from three... -
Mesocosm experiment on warming and acidification effects in 2012: picoplankto...
low = 560 ppmhigh = 1400 ppm -
Mesocosm experiment on warming and acidification effects in 2012: Cell size f...
Dominat species, means for each mesocosm, mesured at peak biomass -
Mesocosm experiment on warming and acidification effects in 2012: Individual ...
low = 560 ppmhigh = 1400 ppm// -
ZooScan data for a coastal lagoon of Tahiti, French Polynesia
This dataset has no description
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Plankton data from 2017 mesocosm experiment manipulating nutrient concentrati...
Data from a mesocosm experiment where the effects of nitrate and phosphate fertilization and copepod grazing pressure on Baltic sea plankton community were followed. Oversupply... -
Phenotypic plasticity of coralline algae in a High CO2 world
It is important to understand how marine calcifying organisms may acclimatize to ocean acidification to assess their survival over the coming century. We cultured the cold water... -
Effects of pCO2 and iron on the elemental composition and cell geometry of th...
Partial pressure of CO2 (pCO2) and iron availability in seawater show corresponding changes due to biological and anthropogenic activities. The simultaneous change in these... -
Warming and ocean acidification effects on phytoplankton?from species shifts ...
In order to allow full comparability with other ocean acidification data sets, the R package seacarb (Gattuso et al, 2016) was used to compute a complete and consistent set of... -
Seawater carbonate chemistry and algal abundance, growth and flourometry data...
Annual fast ice at Scott Base (Antarctica) in late summer contained a high biomass surface community of mixed phytoflagellates, dominated by the dinoflagellate, Polarella... -
Seawater carbonate chemistry and photosynthesis and dark respiration of Thala...
Increasing atmospheric pCO2 leads to seawater acidification, which has attracted considerable attention due to its potential impact on the marine biological carbon pump and... -
Seawater carbonate chemistry and photosynthetic pigments and photophysiology ...
Ocean acidification, due to increased levels of anthropogenic carbon dioxide, is known to affect the physiology and growth of marine phytoplankton, especially in polar regions.... -
Seawater carbonate chemistry and phytoplankton, copepod development, and fatt...
Change in the nutritional quality of phytoplankton is a key mechanism through which ocean acidification can affect the function of marine ecosystems. Copepods play an important...
