Add to ORKGChanges in marine plankton communities driven by environmental variability impact the marine food web and global biogeochemical cycles of carbon and other elements. To predict and assess these community shifts and their consequences, ecologists are increasingly investigating how the functional traits of plankton determine their relative fitness along environmental and biological gradients. Laboratory, field and model-ling studies are adopting this trait-based approach to map the biogeography of plankton traits that underlies variations in plankton communities. Here, we review progress towards understanding the regulatory roles of several key plankton functional traits, including cell size, N2-fixation and mixotrophy among phytoplank-ton, an...
Ongoing environmental changes driven by either natural or anthropogenic causes, have a major impact ...
Planktonic ecosystems are usually modeled in terms of autotrophic and heterotrophic compartments. Ho...
Communities of microscopic dinoflagellates are omnipresent in aquatic ecosystems. Consequently, thei...
Changes in marine plankton communities driven by environmental variability impact the marine food we...
Recent studies on the global primary production showed a decline in cell size and productivity of ma...
Zooplankton are major primary consumers and predators in most aquatic ecosystems. They exhibit treme...
Trait-based approaches to investigate (short- and long-term) phytoplankton dynamics and community as...
A fundamental yet elusive goal of ecology is to predict the structure of communities from the enviro...
The trait‐based approach is increasingly used in plankton ecology to understand diversity, community...
Uncertainties about marine biotic processes and their interactions with the global carbon cycle rema...
Variability in community composition is often attributed to underlying differences in physical envir...
Phytoplankton are key players in the global carbon cycle, contributing about half of global primary ...
Despite their critical role as the main energy pathway between phytoplankton and fish, the functiona...
International audienceThe recent emergence of approaches based on functional traits allows a more co...
Multicellular zooplankton, such as copepods, are the main link between primary producers and fish. M...
Ongoing environmental changes driven by either natural or anthropogenic causes, have a major impact ...
Planktonic ecosystems are usually modeled in terms of autotrophic and heterotrophic compartments. Ho...
Communities of microscopic dinoflagellates are omnipresent in aquatic ecosystems. Consequently, thei...
Changes in marine plankton communities driven by environmental variability impact the marine food we...
Recent studies on the global primary production showed a decline in cell size and productivity of ma...
Zooplankton are major primary consumers and predators in most aquatic ecosystems. They exhibit treme...
Trait-based approaches to investigate (short- and long-term) phytoplankton dynamics and community as...
A fundamental yet elusive goal of ecology is to predict the structure of communities from the enviro...
The trait‐based approach is increasingly used in plankton ecology to understand diversity, community...
Uncertainties about marine biotic processes and their interactions with the global carbon cycle rema...
Variability in community composition is often attributed to underlying differences in physical envir...
Phytoplankton are key players in the global carbon cycle, contributing about half of global primary ...
Despite their critical role as the main energy pathway between phytoplankton and fish, the functiona...
International audienceThe recent emergence of approaches based on functional traits allows a more co...
Multicellular zooplankton, such as copepods, are the main link between primary producers and fish. M...
Ongoing environmental changes driven by either natural or anthropogenic causes, have a major impact ...
Planktonic ecosystems are usually modeled in terms of autotrophic and heterotrophic compartments. Ho...
Communities of microscopic dinoflagellates are omnipresent in aquatic ecosystems. Consequently, thei...