Add to ORKGKnowledge of metabolic costs associated with maintenance, foraging, activity and growth under natural conditions is important for understanding fish behaviours and the bioenergetic consequences of a changing environment. Fish performance in the wild and within a complex environment can be investigated by analysing individual-level field metabolic rate and, at present, the natural stable carbon isotope tracer in otoliths offers the possibility to reconstruct field metabolic rate. The isotopic composition of carbon in fish otoliths is linked to oxygen consumption through metabolic oxidation of dietary carbon. The proportion of metabolically derived carbon can be estimated with knowledge of δ13C values of diet and dissolved inorganic carbon in...
Individual metabolism is a unifying variable in animal ecology, influencing all aspects of performa...
Metabolic rate - the energy expenditure of an organism over time - is considered by some ecologists ...
While temperature records are available from otolith δ18O profiles in fish, interpreting changes in ...
Knowledge of metabolic costs associated wi...
Knowledge of metabolic costs associated with maintenance, foraging, activity and growth under natura...
Field metabolic rate (FMR) is key to understanding individual and population-level responses to envi...
Field metabolic rate (FMR) is key to understanding individual and population-level responses to envi...
Metabolic rate underpins our understanding of how species survive, reproduce and interact with their...
Field metabolic rate (FMR) is key to understanding individual and population-level responses to envi...
International audienceStable oxygen and carbon isotope values of otoliths (δ18Ooto and δ13Coto) enab...
The isotopic composition of inorganic carbon in otoliths (δ13Coto) can be a useful tracer of metabol...
Otolith carbon isotope δ13C values may provide temporally resolved diet proxies in fish. If otolith ...
We generated 10 high-resolution profiles of stable carbon and oxygen isotope values (δ13Coto and δ18...
We generated 10 high-resolution profiles of stable carbon and oxygen isotope values (delta C-13(oto)...
Fish ecologists have used geochemical values in otoliths to examine habitat use, migration, and popu...
Individual metabolism is a unifying variable in animal ecology, influencing all aspects of performa...
Metabolic rate - the energy expenditure of an organism over time - is considered by some ecologists ...
While temperature records are available from otolith δ18O profiles in fish, interpreting changes in ...
Knowledge of metabolic costs associated wi...
Knowledge of metabolic costs associated with maintenance, foraging, activity and growth under natura...
Field metabolic rate (FMR) is key to understanding individual and population-level responses to envi...
Field metabolic rate (FMR) is key to understanding individual and population-level responses to envi...
Metabolic rate underpins our understanding of how species survive, reproduce and interact with their...
Field metabolic rate (FMR) is key to understanding individual and population-level responses to envi...
International audienceStable oxygen and carbon isotope values of otoliths (δ18Ooto and δ13Coto) enab...
The isotopic composition of inorganic carbon in otoliths (δ13Coto) can be a useful tracer of metabol...
Otolith carbon isotope δ13C values may provide temporally resolved diet proxies in fish. If otolith ...
We generated 10 high-resolution profiles of stable carbon and oxygen isotope values (δ13Coto and δ18...
We generated 10 high-resolution profiles of stable carbon and oxygen isotope values (delta C-13(oto)...
Fish ecologists have used geochemical values in otoliths to examine habitat use, migration, and popu...
Individual metabolism is a unifying variable in animal ecology, influencing all aspects of performa...
Metabolic rate - the energy expenditure of an organism over time - is considered by some ecologists ...
While temperature records are available from otolith δ18O profiles in fish, interpreting changes in ...