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Experiment on an artificial phytoplankton community in response to high CO2: ...
This dataset includes information specific to the Eco-Evo assay applied to a long-term community selection experiment after 80,186, and 288 days. The community contained... -
Experiment on E. huxleyi and C. affinis exposed to increased CO2: Relative im...
This dataset has no description
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Data from a long term experimental approach on eco-evolutionary coupling in a...
This dataset has no description
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Microbial carbon biomass and abundance measured on water bottle samples at ti...
This dataset has no description
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Long-term experiment (182 days) with the phytoplankton species Chaetoceros af...
Measurements of cell size, cell density, and nutrient concentration in a long-term experiment (182 days) with the marine phytoplankton species Chaetoceros affinis and Emiliania... -
Long term experiment using a semi-continuous batch cycle system with the phyt...
Long term experiment using a semi-continuous batch cycle system with the phytoplankton species Chaetoceros affinis and Emiliania huxleyi each consisting of 9 genotypes... -
Data compilation of ciliates growth rate, grazing rate and gross gowth effici...
The present data compilation includes ciliates growth rate, grazing rate and gross growth efficiency determined either in the field or in laboratory experiments. From the... -
Growth rates of various ciliates determined experimentally
This dataset has no description
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Feeding, growth and grazing rates of planktonic ciliates determined experimen...
This dataset has no description
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Feeding, growth and grazing rates of tintinnids determined experimentally
This dataset has no description
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Feeding rates of Ciliates on Heterocapsa triquetra determined experimentally
This dataset has no description
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Feeding rates of Ciliates on Pfiesteria piscida determined experimentally
Carbon per cell of grazer calculated using the following equation of Menden-Deuer and Lessard (2000): picogram carbon per cell = 0.216biovolume*0.939. -
Feeding and growth rates of Favella sp. determined experimentally
Carbon per cell of prey calculated using the following equation of Menden-Deuer and Lessard (2000): picogram carbon per cell = 0.216biovolume*0.939. -
Feeding and growth rates of Strombidium sp. determined experimentally
Carbon per cell of grazer and prey calculated using the following equation of Menden-Deuer and Lessard (2000): picogram carbon per cell = 0.216biovolume*0.939. -
Feeding, growth and grazing rates of Strombidium sp. determined experimentally
Carbon per cell of grazer calculated using the following equation of Menden-Deuer and Lessard (2000): picogram carbon per cell = 0.216biovolume*0.939. -
Feeding, growth and grazing rates of Strombidium sulcatum determined experime...
Carbon per cell of grazer calculated using the following equation of Menden-Deuer and Lessard (2000): picogram carbon per cell = 0.216biovolume*0.939. -
Feeding, growth and grazing rates of Lohmanniella spiraliss determined experi...
Carbon per cell of grazer and prey calculated using the following equation of Menden-Deuer and Lessard (2000): picogram carbon per cell = 0.216biovolume*0.939. -
Feeding, growth and grazing rates of the marine planktonic ciliate Strombidin...
Carbon per cell of grazer calculated using the following equation of Menden-Deuer and Lessard (2000): picogram carbon per cell = 0.216biovolume*0.939. -
Growth rate of the marine planktonic ciliate Strombidinopsis cheshiri determi...
Carbon per cell of grazer calculated using the following equation of Menden-Deuer and Lessard (2000): picogram carbon per cell = 0.216biovolume*0.939. -
Growth response of the genera Strobilidium and Strombidium determined experim...
Carbon per cell of grazer calculated using the following equation of Menden-Deuer and Lessard (2000): picogram carbon per cell = 0.216biovolume*0.939.
