Add to ORKGBiogeochemical cycling in marine systems is intimately linked to the activity of specific plankton functional types (PFTs) such as diatoms, coccolithophores and nitrogen fixers, thereby providing a focus for contemporary modelling studies. Incorporating extra complexity beyond simple nutrient-phytoplankton-zooplankton-detritus (NPZD) models is, however, fraught with difficulties: poorly understood ecology; lack of data; aggregating diversity within functional groups into meaningful state variables and constants; sensitivity of output to the parameterizations in question and their physical and chemical environment. Although regional models addressing the seasonal succession of plankton types have achieved some degree of success, predicted di...
The ongoing, anthropogenically-driven changes to the global ocean are expected to have significant c...
A state-of-the-art complex marine ecosystem model, PlankTOM5.2, simulating the distribution of five ...
We compare the spatial and temporal representation of phytoplankton functional types (pPFTs) in four...
Biogeochemical cycling in marine systems is intimately linked to the activity of specific plankton f...
Abstract: The prospect of anthropogenic climate change has generated substantial interest in the rol...
We discuss the strategy of building models of the lower part of the planktonic food web in a stepwis...
It has long been recognized that biological activity has a large influence on biogeochemical cycles ...
Different hypotheses have been proposed explaining plankton community assembly and how changes in bi...
The term “functional types” emerged from biogeochemical studies. It represents the group of organis...
Progress in marine ecosystem modeling has seen a proliferation of the number of state variables and ...
Protists are key components of marine microbial communities and hence of the biogeochemical mathemat...
Protist plankton comprise phytoplankton (incapable of phagotrophy), protozooplankton (incapable of p...
International audienceGlobal ocean biogeochemistry models currently employed in climate change proje...
The ongoing, anthropogenically-driven changes to the global ocean are expected to have significant c...
A state-of-the-art complex marine ecosystem model, PlankTOM5.2, simulating the distribution of five ...
We compare the spatial and temporal representation of phytoplankton functional types (pPFTs) in four...
Biogeochemical cycling in marine systems is intimately linked to the activity of specific plankton f...
Abstract: The prospect of anthropogenic climate change has generated substantial interest in the rol...
We discuss the strategy of building models of the lower part of the planktonic food web in a stepwis...
It has long been recognized that biological activity has a large influence on biogeochemical cycles ...
Different hypotheses have been proposed explaining plankton community assembly and how changes in bi...
The term “functional types” emerged from biogeochemical studies. It represents the group of organis...
Progress in marine ecosystem modeling has seen a proliferation of the number of state variables and ...
Protists are key components of marine microbial communities and hence of the biogeochemical mathemat...
Protist plankton comprise phytoplankton (incapable of phagotrophy), protozooplankton (incapable of p...
International audienceGlobal ocean biogeochemistry models currently employed in climate change proje...
The ongoing, anthropogenically-driven changes to the global ocean are expected to have significant c...
A state-of-the-art complex marine ecosystem model, PlankTOM5.2, simulating the distribution of five ...
We compare the spatial and temporal representation of phytoplankton functional types (pPFTs) in four...