Add to ORKGModel organisms can be useful for studying climate change impacts, but it is unclear whether domestication to laboratory conditions has altered their thermal tolerance and therefore how representative of wild populations they are. Zebrafish in the wild live in fluctuating thermal environments that potentially reach harmful temperatures. In the laboratory, zebrafish have gone through four decades of domestication and adaptation to stable optimal temperatures with few thermal extremes. If maintaining thermal tolerance is costly or if genetic traits promoting laboratory fitness at optimal temperature differ from genetic traits for high thermal tolerance, the thermal tolerance of laboratory zebrafish could be hypothesized to be lower than that ...
Critical thermal maximum (CTmax) is a commonly and increasingly used measure of an animal’s upper th...
WOS:000712564800052International audienceAbstract How ectothermic animals will cope with global warm...
Heat waves constitute a challenge for aquatic ectotherms. However, the thermal tolerance of animals ...
Model organisms can be useful for studying climate change impacts, but it is unclear whether domesti...
Plasticity can allow organisms to maintain consistent performance across a wide range of environment...
Global warming is predicted to increase both acute and prolonged thermal challenges for aquatic ecto...
In response to seasonal variation in environmental temperature, many ectotherms are able to adjust t...
Fish and other ectotherms living in warmer waters often grow faster as juveniles, mature earlier, bu...
In recent years, global warming of anthropogenic origin and its impacts on biodiversity have increas...
To evaluate developmental plasticity in thermal tolerance of zebrafish Danio rerio, common‐stock zeb...
Over the next century, climate change of anthropogenic origin is a major threat to global biodiversi...
Extrapolating patterns from individuals to populations informs climate vulnerability models, yet bio...
Organisms adjust to seasonal variability in the environment by responding to cues that indicate envi...
Anthropic activities are causing severe damages on the natural environment from climate change to ha...
The aim of this work is to investigate the effect of a temperature increase on the behaviour of adul...
Critical thermal maximum (CTmax) is a commonly and increasingly used measure of an animal’s upper th...
WOS:000712564800052International audienceAbstract How ectothermic animals will cope with global warm...
Heat waves constitute a challenge for aquatic ectotherms. However, the thermal tolerance of animals ...
Model organisms can be useful for studying climate change impacts, but it is unclear whether domesti...
Plasticity can allow organisms to maintain consistent performance across a wide range of environment...
Global warming is predicted to increase both acute and prolonged thermal challenges for aquatic ecto...
In response to seasonal variation in environmental temperature, many ectotherms are able to adjust t...
Fish and other ectotherms living in warmer waters often grow faster as juveniles, mature earlier, bu...
In recent years, global warming of anthropogenic origin and its impacts on biodiversity have increas...
To evaluate developmental plasticity in thermal tolerance of zebrafish Danio rerio, common‐stock zeb...
Over the next century, climate change of anthropogenic origin is a major threat to global biodiversi...
Extrapolating patterns from individuals to populations informs climate vulnerability models, yet bio...
Organisms adjust to seasonal variability in the environment by responding to cues that indicate envi...
Anthropic activities are causing severe damages on the natural environment from climate change to ha...
The aim of this work is to investigate the effect of a temperature increase on the behaviour of adul...
Critical thermal maximum (CTmax) is a commonly and increasingly used measure of an animal’s upper th...
WOS:000712564800052International audienceAbstract How ectothermic animals will cope with global warm...
Heat waves constitute a challenge for aquatic ectotherms. However, the thermal tolerance of animals ...