Energetic physiology mediates individual optimization of breeding phenology in a migratory Arctic Seabird

The influence of variation in individual state on key reproductive decisions impacting fitness is well appreciated in evolutionary ecology. Rowe et al. (1994) developed a condition-dependent individual optimization model predicting that three key factors impact the ability of migratory female birds...

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Bibliographic Details
Published in:The American Naturalist
Main Authors: Hennin, Holly L., Bêty, Joël, Legagneux, Pierre, Gilchrist, Hugh G., Williams, Tony D., Love, Oliver P.
Format: Text
Language:unknown
Published: Scholarship at UWindsor 2016
Subjects:
individual optimization
breeding phenology
fattening rate
energetic management
triglycerides
glucocorticoids
Biology
Life Sciences
Arctic
Rowe
Somateria mollissima
Online Access:https://scholar.uwindsor.ca/biologypub/1222
https://doi.org/10.1086/688044
https://scholar.uwindsor.ca/context/biologypub/article/2219/viewcontent/EnergeticPhysiologyBreedingPhenologyMigratoryArcticSeabird.pdf
id ftunivwindsor:oai:scholar.uwindsor.ca:biologypub-2219
record_format openpolar
spelling ftunivwindsor:oai:scholar.uwindsor.ca:biologypub-2219 2023-06-11T04:09:12+02:00 Energetic physiology mediates individual optimization of breeding phenology in a migratory Arctic Seabird Hennin, Holly L. Bêty, Joël Legagneux, Pierre Gilchrist, Hugh G. Williams, Tony D. Love, Oliver P. 2016-01-01T08:00:00Z application/pdf https://scholar.uwindsor.ca/biologypub/1222 https://doi.org/10.1086/688044 https://scholar.uwindsor.ca/context/biologypub/article/2219/viewcontent/EnergeticPhysiologyBreedingPhenologyMigratoryArcticSeabird.pdf unknown Scholarship at UWindsor https://scholar.uwindsor.ca/biologypub/1222 doi:10.1086/688044 https://scholar.uwindsor.ca/context/biologypub/article/2219/viewcontent/EnergeticPhysiologyBreedingPhenologyMigratoryArcticSeabird.pdf Biological Sciences Publications individual optimization breeding phenology fattening rate energetic management triglycerides glucocorticoids Biology Life Sciences text 2016 ftunivwindsor https://doi.org/10.1086/688044 2023-05-06T18:52:28Z The influence of variation in individual state on key reproductive decisions impacting fitness is well appreciated in evolutionary ecology. Rowe et al. (1994) developed a condition-dependent individual optimization model predicting that three key factors impact the ability of migratory female birds to individually optimize breeding phenology tomaximize fitness in seasonal environments: arrival condition, arrival date, and ability to gain in condition on the breeding grounds. While empirical studies have confirmed that greater arrival body mass and earlier arrival dates result in earlier laying, no study has assessed whether individual variation in energetic management of condition gain effects this key fitness-related decision. Using an 8-year data set from over 350 prebreeding female Arctic common eiders (Somateria mollissima), we tested this component of the model by examining whether individual variation in two physiological traits influencing energetic management (plasma triglycerides: physiological fattening rate; baseline corticosterone: energetic demand) predicted individual variation in breeding phenology after controlling for arrival date and body mass. As predicted by the optimization model, individuals with higher fattening rates and lower energetic demand had the earliest breeding phenology (shortest delays between arrival and laying; earliest laying dates). Our results are the first to empirically determine that individual flexibility in prebreeding energetic management influences key fitness-related reproductive decisions, suggesting that individuals have the capacity to optimally manage reproductive investment. Text Arctic Somateria mollissima University of Windsor, Ontario: Scholarship at UWindsor Arctic Rowe ENVELOPE(-60.904,-60.904,-62.592,-62.592) The American Naturalist 188 4 434 445
institution Open Polar
collection University of Windsor, Ontario: Scholarship at UWindsor
op_collection_id ftunivwindsor
language unknown
topic individual optimization
breeding phenology
fattening rate
energetic management
triglycerides
glucocorticoids
Biology
Life Sciences
spellingShingle individual optimization
breeding phenology
fattening rate
energetic management
triglycerides
glucocorticoids
Biology
Life Sciences
Hennin, Holly L.
Bêty, Joël
Legagneux, Pierre
Gilchrist, Hugh G.
Williams, Tony D.
Love, Oliver P.
Energetic physiology mediates individual optimization of breeding phenology in a migratory Arctic Seabird
topic_facet individual optimization
breeding phenology
fattening rate
energetic management
triglycerides
glucocorticoids
Biology
Life Sciences
description The influence of variation in individual state on key reproductive decisions impacting fitness is well appreciated in evolutionary ecology. Rowe et al. (1994) developed a condition-dependent individual optimization model predicting that three key factors impact the ability of migratory female birds to individually optimize breeding phenology tomaximize fitness in seasonal environments: arrival condition, arrival date, and ability to gain in condition on the breeding grounds. While empirical studies have confirmed that greater arrival body mass and earlier arrival dates result in earlier laying, no study has assessed whether individual variation in energetic management of condition gain effects this key fitness-related decision. Using an 8-year data set from over 350 prebreeding female Arctic common eiders (Somateria mollissima), we tested this component of the model by examining whether individual variation in two physiological traits influencing energetic management (plasma triglycerides: physiological fattening rate; baseline corticosterone: energetic demand) predicted individual variation in breeding phenology after controlling for arrival date and body mass. As predicted by the optimization model, individuals with higher fattening rates and lower energetic demand had the earliest breeding phenology (shortest delays between arrival and laying; earliest laying dates). Our results are the first to empirically determine that individual flexibility in prebreeding energetic management influences key fitness-related reproductive decisions, suggesting that individuals have the capacity to optimally manage reproductive investment.
format Text
author Hennin, Holly L.
Bêty, Joël
Legagneux, Pierre
Gilchrist, Hugh G.
Williams, Tony D.
Love, Oliver P.
author_facet Hennin, Holly L.
Bêty, Joël
Legagneux, Pierre
Gilchrist, Hugh G.
Williams, Tony D.
Love, Oliver P.
author_sort Hennin, Holly L.
title Energetic physiology mediates individual optimization of breeding phenology in a migratory Arctic Seabird
title_short Energetic physiology mediates individual optimization of breeding phenology in a migratory Arctic Seabird
title_full Energetic physiology mediates individual optimization of breeding phenology in a migratory Arctic Seabird
title_fullStr Energetic physiology mediates individual optimization of breeding phenology in a migratory Arctic Seabird
title_full_unstemmed Energetic physiology mediates individual optimization of breeding phenology in a migratory Arctic Seabird
title_sort energetic physiology mediates individual optimization of breeding phenology in a migratory arctic seabird
publisher Scholarship at UWindsor
publishDate 2016
url https://scholar.uwindsor.ca/biologypub/1222
https://doi.org/10.1086/688044
https://scholar.uwindsor.ca/context/biologypub/article/2219/viewcontent/EnergeticPhysiologyBreedingPhenologyMigratoryArcticSeabird.pdf
long_lat ENVELOPE(-60.904,-60.904,-62.592,-62.592)
geographic Arctic
Rowe
geographic_facet Arctic
Rowe
genre Arctic
Somateria mollissima
genre_facet Arctic
Somateria mollissima
op_source Biological Sciences Publications
op_relation https://scholar.uwindsor.ca/biologypub/1222
doi:10.1086/688044
https://scholar.uwindsor.ca/context/biologypub/article/2219/viewcontent/EnergeticPhysiologyBreedingPhenologyMigratoryArcticSeabird.pdf
op_doi https://doi.org/10.1086/688044
container_title The American Naturalist
container_volume 188
container_issue 4
container_start_page 434
op_container_end_page 445
_version_ 1768382977800142848

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