Add to ORKGAn increasing number of studies show the importance of chemical interactions in the aquatic environment. Our understanding of the role of chemical cues and signals in larger crustaceans has advanced in the last decades. However, for cope-pods, the most abundant metazoan zooplankton and essential for the functioning of the marine food web, much is still unknown. We synthesize current knowledge about chemical ecology of copepods including foraging, survival and reproduction. We also compile information on the sensory apparatus and new analytical approaches that may facilitate the identification of signal molecules. The review illustrates the importance of chemical interactions in many aspects of copepod ecology and identi-fies gaps in our kno...
The behavioural responses of adult Temora longicornis to chemical signals from predators and potenti...
The behavioural responses of adult Temora longicornis to chemical signals from predators and potenti...
The effects of patchy distribution of phytoplankton on the swimming behavior of marine copepods was ...
An increasing number of studies show the importance of chemical interactions in the aquatic environm...
Copepods are the most important metazoan grazers of phytoplankton in the sea. In order to more fully...
Living organisms deeply rely on the acquisition of chemical signals in any aspect of their life, fro...
The release of chemicals following herbivore grazing on primary producers may provide feed...
Copepods exist in an aquatic food desert where finding food is difficult given the constraints of th...
Copepods are ubiquitous in aquatic habitats. They exude bioactive compounds that mediate mate findin...
Phytoplanktonic communities have been moulded from a higher level in the food web by zooplankton pr...
The release of chemicals following herbivore grazing on primary producers may provide feeding cues t...
Aquatic organisms detect chemical cues to sense the local environment, for example, to find a mate, ...
Chemoreception is the most widespread of the senses, and was the first one to evolve. This sense is ...
Chemical interactions play a fundamental role in the ecology of marine foodwebs. Dimethyl sulfide (D...
Males of the marine copepod species Temora longicornis have been seen to track the chemical trails o...
The behavioural responses of adult Temora longicornis to chemical signals from predators and potenti...
The behavioural responses of adult Temora longicornis to chemical signals from predators and potenti...
The effects of patchy distribution of phytoplankton on the swimming behavior of marine copepods was ...
An increasing number of studies show the importance of chemical interactions in the aquatic environm...
Copepods are the most important metazoan grazers of phytoplankton in the sea. In order to more fully...
Living organisms deeply rely on the acquisition of chemical signals in any aspect of their life, fro...
The release of chemicals following herbivore grazing on primary producers may provide feed...
Copepods exist in an aquatic food desert where finding food is difficult given the constraints of th...
Copepods are ubiquitous in aquatic habitats. They exude bioactive compounds that mediate mate findin...
Phytoplanktonic communities have been moulded from a higher level in the food web by zooplankton pr...
The release of chemicals following herbivore grazing on primary producers may provide feeding cues t...
Aquatic organisms detect chemical cues to sense the local environment, for example, to find a mate, ...
Chemoreception is the most widespread of the senses, and was the first one to evolve. This sense is ...
Chemical interactions play a fundamental role in the ecology of marine foodwebs. Dimethyl sulfide (D...
Males of the marine copepod species Temora longicornis have been seen to track the chemical trails o...
The behavioural responses of adult Temora longicornis to chemical signals from predators and potenti...
The behavioural responses of adult Temora longicornis to chemical signals from predators and potenti...
The effects of patchy distribution of phytoplankton on the swimming behavior of marine copepods was ...