Add to ORKGFish ecologists have used geochemical values in otoliths to examine habitat use, migration, and population connectivity for decades. However, it remains difficult to determine an unambiguous dietary δ13C signature from bulk analysis of otolith. Studies to date have focused on the aragonite component of otoliths with less attention paid to the organic fraction. We describe the application of compound-specific stable isotope analysis (SIA) to analyze amino acid (AA) δ13C values from small amounts (\u3c1 mg) of otolith powder. We examined δ13C values of otolith and muscle AAs from a reef-associated snapper (Lutjanus ehrenbergii (Peters, 1869)) collected along a carbon isotope gradient (isoscape) from seagrass beds to coral reefs. Carbon isotop...
1. Analysis of stable carbon isotopes is a valuable tool for studies of diet, habitat use and migrat...
Habitat connectivity and trophic shifts during the lifetime of an individual fish are important dete...
The isotopic composition of inorganic carbon in otoliths (δ13Coto) can be a useful tracer of metabol...
This study explored the potential for otolith geochemistry in snapper (Family: Lutjanidae) to identi...
Otolith carbon isotope δ13C values may provide temporally resolved diet proxies in fish. If otolith ...
With increasing disturbances to fish habitats, it is becoming essential to understand how fish speci...
Stable isotope analyses (SIA) of carbon and nitrogen are used routinely in food-web studies to deter...
With increasing disturbances to fish habitats, it is becoming essential to understand how fish speci...
Stable isotopes in otoliths are increasingly used to understand life history and movement patterns o...
The 15N/14N ratio of the fish-native organic matter preserved in fish otoliths (or δ15Noto) may allo...
Metabolic rate underpins our understanding of how species survive, reproduce and interact with their...
Knowledge of metabolic costs associated with maintenance, foraging, activity and growth under natura...
Understanding whether fish move among estuarine areas and habitats or show high site fidelity has ma...
Knowledge of metabolic costs associated wi...
Chemical analysis of fish otoliths has become an important technique in fisheries science with wides...
1. Analysis of stable carbon isotopes is a valuable tool for studies of diet, habitat use and migrat...
Habitat connectivity and trophic shifts during the lifetime of an individual fish are important dete...
The isotopic composition of inorganic carbon in otoliths (δ13Coto) can be a useful tracer of metabol...
This study explored the potential for otolith geochemistry in snapper (Family: Lutjanidae) to identi...
Otolith carbon isotope δ13C values may provide temporally resolved diet proxies in fish. If otolith ...
With increasing disturbances to fish habitats, it is becoming essential to understand how fish speci...
Stable isotope analyses (SIA) of carbon and nitrogen are used routinely in food-web studies to deter...
With increasing disturbances to fish habitats, it is becoming essential to understand how fish speci...
Stable isotopes in otoliths are increasingly used to understand life history and movement patterns o...
The 15N/14N ratio of the fish-native organic matter preserved in fish otoliths (or δ15Noto) may allo...
Metabolic rate underpins our understanding of how species survive, reproduce and interact with their...
Knowledge of metabolic costs associated with maintenance, foraging, activity and growth under natura...
Understanding whether fish move among estuarine areas and habitats or show high site fidelity has ma...
Knowledge of metabolic costs associated wi...
Chemical analysis of fish otoliths has become an important technique in fisheries science with wides...
1. Analysis of stable carbon isotopes is a valuable tool for studies of diet, habitat use and migrat...
Habitat connectivity and trophic shifts during the lifetime of an individual fish are important dete...
The isotopic composition of inorganic carbon in otoliths (δ13Coto) can be a useful tracer of metabol...