This dataset provides the output of eight model simulations with the global ocean biogeochemical model FESOM-REcoM necessary to reproduce the findings of Seifert et al. (2022). In addition to information on the mesh, the dataset contains 1) 5-year means of global phytoplankton biomass, chlorophyll, net primary production, growth rates, limitations, calcification, grazing rates, calcite concentrations, zooplankton biomass, export fluxes as well as CO2(aq), HCO3- and nutrient concentrations, and 2) a time series of global and North Atlantic coccolithophore biomass, temperature, and CO2(aq) concentrations from 1958 to 2018. File names refer to the Figures and Tables in the paper where the respective data are used. See “readme” for detailed in...
Simulation of coupled carbon-climate requires representation of ocean carbon cycling, but the comput...
Phytoplankton growth is controlled by multiple environmental drivers, which are all modified by clim...
Accumulation of anthropogenic CO2 is significantly altering ocean chemistry. A range of biological i...
This dataset provides the output of ten model simulations with the global ocean biogeochemical model...
Atmospheric and oceanic CO2 concentrations are rising at an unprecedented rate. Laboratory studies i...
Biogeochemical models are used to project future plankton community composition and biogeochemical f...
This is the underlying dataset of the publication "Ocean biogeochemistry in the coupled ocean–sea ic...
Marine phytoplankton constitutes about half of the primary production on Earth. It forms the base of...
This dataset reinforces the paper "Ocean biogeochemistry in the coupled ocean–sea ice–biogeochemistr...
<p>Many studies have attempted to predict the consequences of climate change on the ocean's primary ...
Anthropogenic CO2 emissions are inundating the upper ocean, acidifying the water, and altering the h...
Data contains outputs of two global model simulations performed with ocean biogeochemical model FESO...
The oceans absorb ~25% of the annual anthropogenic CO2 emissions. This causes a shift in the marine ...
We present results obtained with SWAMCO-4, a complex model of the marine planktonic system calculati...
<p>Model predictions of (A) the level of carbon limitation, and (B) phytoplankton population density...
Simulation of coupled carbon-climate requires representation of ocean carbon cycling, but the comput...
Phytoplankton growth is controlled by multiple environmental drivers, which are all modified by clim...
Accumulation of anthropogenic CO2 is significantly altering ocean chemistry. A range of biological i...
This dataset provides the output of ten model simulations with the global ocean biogeochemical model...
Atmospheric and oceanic CO2 concentrations are rising at an unprecedented rate. Laboratory studies i...
Biogeochemical models are used to project future plankton community composition and biogeochemical f...
This is the underlying dataset of the publication "Ocean biogeochemistry in the coupled ocean–sea ic...
Marine phytoplankton constitutes about half of the primary production on Earth. It forms the base of...
This dataset reinforces the paper "Ocean biogeochemistry in the coupled ocean–sea ice–biogeochemistr...
<p>Many studies have attempted to predict the consequences of climate change on the ocean's primary ...
Anthropogenic CO2 emissions are inundating the upper ocean, acidifying the water, and altering the h...
Data contains outputs of two global model simulations performed with ocean biogeochemical model FESO...
The oceans absorb ~25% of the annual anthropogenic CO2 emissions. This causes a shift in the marine ...
We present results obtained with SWAMCO-4, a complex model of the marine planktonic system calculati...
<p>Model predictions of (A) the level of carbon limitation, and (B) phytoplankton population density...
Simulation of coupled carbon-climate requires representation of ocean carbon cycling, but the comput...
Phytoplankton growth is controlled by multiple environmental drivers, which are all modified by clim...
Accumulation of anthropogenic CO2 is significantly altering ocean chemistry. A range of biological i...