The release of chemicals following herbivore grazing on primary producers may provide feeding cues to carnivorous predators, thereby promoting multitrophic interactions. In particular, chemicals released following grazing on phytoplankton by microzooplankton herbivores have been shown to elicit a behavioural foraging response in carnivorous copepods, which may use this chemical information as a mechanism to locate and remain within biologically productive patches of the ocean. In this paper, we use a 1D spatial reaction-diffusion model to simulate a tri-trophic planktonic system in the water column, where predation at the top trophic level (copepods) is affected by infoch...
Production is a function of growth rate and extant biomass. Resource availability mostly controls th...
An increasing number of studies show the importance of chemical interactions in the aquatic environm...
WOS:000502962100001International audienceIn marine ecosystems, carbon export is driven by particle f...
The release of chemicals following herbivore grazing on primary producers may provide feeding cues t...
Chemicals released following herbivore grazing on primary producers can promote multitrophic interac...
Infochemicals released by marine phytoplankton play important roles in food web interactions by infl...
Trophic cascades in the marine pelagic food web, especially in the microbial food web in which copep...
Chemical interactions play a fundamental role in the ecology of marine foodwebs. Dimethyl sulfide (D...
Copepods are the most important metazoan grazers of phytoplankton in the sea. In order to more fully...
The effects of patchy distribution of phytoplankton on the swimming behavior of marine copepods was ...
The classical dichotomy poses strict autotrophic (phytoplankton) and heterotrophic (zooplankton) pro...
Phytoplanktonic communities have been moulded from a higher level in the food web by zooplankton pr...
A two-species predator–prey plankton model is studied, where the grazing pressure of microzooplankto...
Chemical interactions play a fundamental role in the ecology of marine foodwebs. Dimethyl sulfide (D...
Revealing mechanisms of efficient top-down control in eutrophic ecosystems remains a long term chall...
Production is a function of growth rate and extant biomass. Resource availability mostly controls th...
An increasing number of studies show the importance of chemical interactions in the aquatic environm...
WOS:000502962100001International audienceIn marine ecosystems, carbon export is driven by particle f...
The release of chemicals following herbivore grazing on primary producers may provide feeding cues t...
Chemicals released following herbivore grazing on primary producers can promote multitrophic interac...
Infochemicals released by marine phytoplankton play important roles in food web interactions by infl...
Trophic cascades in the marine pelagic food web, especially in the microbial food web in which copep...
Chemical interactions play a fundamental role in the ecology of marine foodwebs. Dimethyl sulfide (D...
Copepods are the most important metazoan grazers of phytoplankton in the sea. In order to more fully...
The effects of patchy distribution of phytoplankton on the swimming behavior of marine copepods was ...
The classical dichotomy poses strict autotrophic (phytoplankton) and heterotrophic (zooplankton) pro...
Phytoplanktonic communities have been moulded from a higher level in the food web by zooplankton pr...
A two-species predator–prey plankton model is studied, where the grazing pressure of microzooplankto...
Chemical interactions play a fundamental role in the ecology of marine foodwebs. Dimethyl sulfide (D...
Revealing mechanisms of efficient top-down control in eutrophic ecosystems remains a long term chall...
Production is a function of growth rate and extant biomass. Resource availability mostly controls th...
An increasing number of studies show the importance of chemical interactions in the aquatic environm...
WOS:000502962100001International audienceIn marine ecosystems, carbon export is driven by particle f...