Enregistré dans:
Détails bibliographiques
Auteurs principaux: Schumacher, Glenn T, Peebles, Ernst B, Furey, Nathan B, Kinnison, Michael T, Kronisch, Gregory R, Murphy, Christina A
Format: Artículo científico
Langue:en
Publié: PloS one 2026
Sujets:
Accès en ligne:https://pubmed.ncbi.nlm.nih.gov/42139259/
Tags: Ajouter un tag
Pas de tags, Soyez le premier à ajouter un tag!
_version_ 1868266048914980865
author Schumacher, Glenn T
Peebles, Ernst B
Furey, Nathan B
Kinnison, Michael T
Kronisch, Gregory R
Murphy, Christina A
author_facet Schumacher, Glenn T
Peebles, Ernst B
Furey, Nathan B
Kinnison, Michael T
Kronisch, Gregory R
Murphy, Christina A
Schumacher, Glenn T
Peebles, Ernst B
Furey, Nathan B
Kinnison, Michael T
Kronisch, Gregory R
Murphy, Christina A
collection PubMed - marine biology
contents Analyses of eye lens stable isotopes across ontogeny of trophically diverse freshwater salmonids. Schumacher, Glenn T Peebles, Ernst B Furey, Nathan B Kinnison, Michael T Kronisch, Gregory R Murphy, Christina A Animals Lens, Crystalline Lakes Trout Fresh Water Nitrogen Isotopes Ecosystem Bayes Theorem Ontogenetic niche shifts in fishes are nearly universal but remain poorly understood in many species despite being fundamentally important for the persistence, management, and conservation of fish populations, including those of vulnerable salmonids. Eye lens stable isotope analysis has proven useful in studying ontogeny in some marine species but has rarely been applied in freshwater fishes. We conducted among the first applications of eye lens stable isotope analysis in two salmonids, Arctic Charr (Salvelinus alpinus) and Brook Trout (Salvelinus fontinalis), in four North American lakes at the southern extent of the range of Arctic Charr (Maine, USA). Our goal was to determine if ontogenetic patterns varied between individuals and populations in ways that relate to differential vulnerability. Like studies in marine systems, we found patterns in lens isotopic values that agree with expected ontogenetic patterns to reach known adult trophic niches. Within lakes and individuals examined in this study, Arctic Charr appeared more dependent on pelagic resources than co-occurring Brook Trout through life. Using Bayesian hierarchical linear regressions, we found evidence that ontogenetic shifts in trophic position (measured by δ15N) of Arctic Charr may vary among lakes. Arctic Charr in some populations increased in trophic position through life (population lifetime δ15N posterior mean slope estimate = 1.01) while others showed no substantial changes (population lifetime δ15N posterior mean slope = 0.05), which may relate to differences in habitat and fish assemblage among our study lakes. Our study suggests that individual life stages and populations of salmonids are likely to respond to climate variability (e.g., basal resource shifts) differentially, which could warrant population and life-stage-specific management.
format Artículo científico
id pubmed_42139259
institution PubMed
language en
publishDate 2026
publisher PloS one
record_format pubmed
spellingShingle Analyses of eye lens stable isotopes across ontogeny of trophically diverse freshwater salmonids.
Schumacher, Glenn T
Peebles, Ernst B
Furey, Nathan B
Kinnison, Michael T
Kronisch, Gregory R
Murphy, Christina A
Animals
Lens, Crystalline
Lakes
Trout
Fresh Water
Nitrogen Isotopes
Ecosystem
Bayes Theorem
Analyses of eye lens stable isotopes across ontogeny of trophically diverse freshwater salmonids. Schumacher, Glenn T Peebles, Ernst B Furey, Nathan B Kinnison, Michael T Kronisch, Gregory R Murphy, Christina A Animals Lens, Crystalline Lakes Trout Fresh Water Nitrogen Isotopes Ecosystem Bayes Theorem Ontogenetic niche shifts in fishes are nearly universal but remain poorly understood in many species despite being fundamentally important for the persistence, management, and conservation of fish populations, including those of vulnerable salmonids. Eye lens stable isotope analysis has proven useful in studying ontogeny in some marine species but has rarely been applied in freshwater fishes. We conducted among the first applications of eye lens stable isotope analysis in two salmonids, Arctic Charr (Salvelinus alpinus) and Brook Trout (Salvelinus fontinalis), in four North American lakes at the southern extent of the range of Arctic Charr (Maine, USA). Our goal was to determine if ontogenetic patterns varied between individuals and populations in ways that relate to differential vulnerability. Like studies in marine systems, we found patterns in lens isotopic values that agree with expected ontogenetic patterns to reach known adult trophic niches. Within lakes and individuals examined in this study, Arctic Charr appeared more dependent on pelagic resources than co-occurring Brook Trout through life. Using Bayesian hierarchical linear regressions, we found evidence that ontogenetic shifts in trophic position (measured by δ15N) of Arctic Charr may vary among lakes. Arctic Charr in some populations increased in trophic position through life (population lifetime δ15N posterior mean slope estimate = 1.01) while others showed no substantial changes (population lifetime δ15N posterior mean slope = 0.05), which may relate to differences in habitat and fish assemblage among our study lakes. Our study suggests that individual life stages and populations of salmonids are likely to respond to climate variability (e.g., basal resource shifts) differentially, which could warrant population and life-stage-specific management.
title Analyses of eye lens stable isotopes across ontogeny of trophically diverse freshwater salmonids.
topic Animals
Lens, Crystalline
Lakes
Trout
Fresh Water
Nitrogen Isotopes
Ecosystem
Bayes Theorem
url https://pubmed.ncbi.nlm.nih.gov/42139259/