Dormancy (diapause) is a key life-history strategy of pelagic copepods that allows them to thrive in highly seasonal environments. Successful dormancy of copepodid stages requires the ability to store energy efficiently (for example as lipids) and to slow down the rate of mobilization of this capital during the dormant period. The physiology of lipids in copepods has been extensively reviewed; however, data about the energetics of dormancy are currently scattered throughout the literature. Thus, we conducted a meta-analysis comparing the metabolism of active and dormant copepods in 15 species that undergo dormancy as copepodids. Linear mixed-effects models showed that the metabolic rate of dormant copepods is about one-fourth of the values ...
Many free-living copepods produce and store lipids prior to entering diapause (long-term dormancy). ...
The recent Horizons article by Pond (Pond, 2012) hypothesizes that solid–liquid phase transitions in...
The life cycle of the freshwater copepod Cyclops kolensis in the eutrophic Lake Schierensee is chara...
Dormancy (diapause) is a key life-history strategy of pelagic copepods that allows them to thrive in...
Quantitative knowledge about copepod life histories is of crucial importance to interpret and predic...
Late developmental stages of the marine copepods in the genus Calanus can spend extended periods in ...
Calanus glacialis strongly contributes to the energy fluxes in Arctic shelf ecosystems. During its l...
Demographic time-series from four fixed stations in the Northwest Atlantic Ocean demonstrate variabl...
To the best of our knowledge, one or more authors of this paper were federal employees when contribu...
Four species of planktonic calanold copepods that co-occur in the California Current System (Euecala...
Mechanistic models are essential tools for interpreting and predicting the consequences of a changin...
Calanoid copepods with different life cycle strategies demonstrate varied velocity in the utilizatio...
Calanus copepods are keystone species in marine ecosystems, mainly due to their high lipid content, ...
This study compares the active and resting metabolic rates of species and life stages of copepods du...
Knowledge on the capability of zooplankton to adapt to the rapidly changing environmental conditions...
Many free-living copepods produce and store lipids prior to entering diapause (long-term dormancy). ...
The recent Horizons article by Pond (Pond, 2012) hypothesizes that solid–liquid phase transitions in...
The life cycle of the freshwater copepod Cyclops kolensis in the eutrophic Lake Schierensee is chara...
Dormancy (diapause) is a key life-history strategy of pelagic copepods that allows them to thrive in...
Quantitative knowledge about copepod life histories is of crucial importance to interpret and predic...
Late developmental stages of the marine copepods in the genus Calanus can spend extended periods in ...
Calanus glacialis strongly contributes to the energy fluxes in Arctic shelf ecosystems. During its l...
Demographic time-series from four fixed stations in the Northwest Atlantic Ocean demonstrate variabl...
To the best of our knowledge, one or more authors of this paper were federal employees when contribu...
Four species of planktonic calanold copepods that co-occur in the California Current System (Euecala...
Mechanistic models are essential tools for interpreting and predicting the consequences of a changin...
Calanoid copepods with different life cycle strategies demonstrate varied velocity in the utilizatio...
Calanus copepods are keystone species in marine ecosystems, mainly due to their high lipid content, ...
This study compares the active and resting metabolic rates of species and life stages of copepods du...
Knowledge on the capability of zooplankton to adapt to the rapidly changing environmental conditions...
Many free-living copepods produce and store lipids prior to entering diapause (long-term dormancy). ...
The recent Horizons article by Pond (Pond, 2012) hypothesizes that solid–liquid phase transitions in...
The life cycle of the freshwater copepod Cyclops kolensis in the eutrophic Lake Schierensee is chara...