Consecutive cohort effects driven by density-dependence and climate influence early-life survival in a long-lived bird

A. Payo-Payo; M. Genovart; A. Bertolero; R. Pradel; D. Oro

doi:10.1098/rspb.2015.3042

Consecutive cohort effects driven by density-dependence and climate influence early-life survival in a long-lived bird

A. Payo-Payo^*, M. Genovart, A. Bertolero, R. Pradel, D. Oro

^*Corresponding author for this work

Aberdeen Centre For Environmental Sustainability

Research output: Contribution to journal › Article › peer-review

33 Citations (Scopus)

Abstract

Conditions during early life, including maternal cohort effects, can influence the future fitness of individuals. This may be particularly true for longdistance migrating birds, because, apart from conditions experienced by cohorts during rearing, conditions during early life in regions far from breeding grounds may also influence their population dynamics. Very little is known about the fitness consequences of those conditions experienced by juveniles after independence, especially in wild populations and for longlived birds. We used multi-event capture-recapture-recovery models and a unique 26-year dataset for the Audouin’s gull (Larus audouinii) to assess for the first time whether survival was influenced by early conditions, both during the rearing period (i.e. a maternal cohort effect potentially affected by density dependence) and the first winter (i.e. a cohort effect driven by climate when birds disperse to wintering grounds). Our results show that juvenile survivalwas highly sensitive to early-life conditions and that survival decreased with stronger density dependence and harsh climate. The two consecutive cohort effects were of similar magnitude and they may represent a selection filter. Thus, early-life conditions had a strong impact on survival, and neglecting this complexity may hinder our understanding on how populations of long-lived animals fluctuate and respond to perturbations.

Original language	English
Article number	20153042
Number of pages	6
Journal	Proceedings of the Royal Society B: Biological Sciences
Volume	283
Issue number	1829
DOIs	https://doi.org/10.1098/rspb.2015.3042
Publication status	Published - 27 Apr 2016

Bibliographical note

Funding
We received funding for this study from Ministerio de Educación y ciencia (FPU-AP 2012-0869) and Ministerio de Economía y Competitividad ((IBISES) CGL 2013-42203-R, EU H2020 RIA; (MINOUW) 634495).

Acknowledgements
We thank the staff of the PEG (IMEDEA) and the Delta de l'Ebre NP, in particular Julia Piccardo, for helping with the fieldwork over the years. G. Tavecchia and P. Monaghan kindly made very valuable comments on the manuscript.

Keywords

Density dependence
Early-life conditions
First-year
Long-lived seabird
Survival
Winter

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10.1098/rspb.2015.3042Licence: CC BY

http://cedai.imedea.uib-csic.es/geonetwork/srv/es/main.home?uuid=e13d37f4-2fe6-4f9e-8a51-d60bc6ea1a2cLicence: Unspecified

Cite this

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title = "Consecutive cohort effects driven by density-dependence and climate influence early-life survival in a long-lived bird",

abstract = "Conditions during early life, including maternal cohort effects, can influence the future fitness of individuals. This may be particularly true for longdistance migrating birds, because, apart from conditions experienced by cohorts during rearing, conditions during early life in regions far from breeding grounds may also influence their population dynamics. Very little is known about the fitness consequences of those conditions experienced by juveniles after independence, especially in wild populations and for longlived birds. We used multi-event capture-recapture-recovery models and a unique 26-year dataset for the Audouin{\textquoteright}s gull (Larus audouinii) to assess for the first time whether survival was influenced by early conditions, both during the rearing period (i.e. a maternal cohort effect potentially affected by density dependence) and the first winter (i.e. a cohort effect driven by climate when birds disperse to wintering grounds). Our results show that juvenile survivalwas highly sensitive to early-life conditions and that survival decreased with stronger density dependence and harsh climate. The two consecutive cohort effects were of similar magnitude and they may represent a selection filter. Thus, early-life conditions had a strong impact on survival, and neglecting this complexity may hinder our understanding on how populations of long-lived animals fluctuate and respond to perturbations.",

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author = "A. Payo-Payo and M. Genovart and A. Bertolero and R. Pradel and D. Oro",

note = "Funding We received funding for this study from Ministerio de Educaci{\'o}n y ciencia (FPU-AP 2012-0869) and Ministerio de Econom{\'i}a y Competitividad ((IBISES) CGL 2013-42203-R, EU H2020 RIA; (MINOUW) 634495). Acknowledgements We thank the staff of the PEG (IMEDEA) and the Delta de l'Ebre NP, in particular Julia Piccardo, for helping with the fieldwork over the years. G. Tavecchia and P. Monaghan kindly made very valuable comments on the manuscript.",

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AU - Payo-Payo, A.

AU - Genovart, M.

AU - Bertolero, A.

AU - Pradel, R.

AU - Oro, D.

N1 - Funding We received funding for this study from Ministerio de Educación y ciencia (FPU-AP 2012-0869) and Ministerio de Economía y Competitividad ((IBISES) CGL 2013-42203-R, EU H2020 RIA; (MINOUW) 634495). Acknowledgements We thank the staff of the PEG (IMEDEA) and the Delta de l'Ebre NP, in particular Julia Piccardo, for helping with the fieldwork over the years. G. Tavecchia and P. Monaghan kindly made very valuable comments on the manuscript.

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N2 - Conditions during early life, including maternal cohort effects, can influence the future fitness of individuals. This may be particularly true for longdistance migrating birds, because, apart from conditions experienced by cohorts during rearing, conditions during early life in regions far from breeding grounds may also influence their population dynamics. Very little is known about the fitness consequences of those conditions experienced by juveniles after independence, especially in wild populations and for longlived birds. We used multi-event capture-recapture-recovery models and a unique 26-year dataset for the Audouin’s gull (Larus audouinii) to assess for the first time whether survival was influenced by early conditions, both during the rearing period (i.e. a maternal cohort effect potentially affected by density dependence) and the first winter (i.e. a cohort effect driven by climate when birds disperse to wintering grounds). Our results show that juvenile survivalwas highly sensitive to early-life conditions and that survival decreased with stronger density dependence and harsh climate. The two consecutive cohort effects were of similar magnitude and they may represent a selection filter. Thus, early-life conditions had a strong impact on survival, and neglecting this complexity may hinder our understanding on how populations of long-lived animals fluctuate and respond to perturbations.

AB - Conditions during early life, including maternal cohort effects, can influence the future fitness of individuals. This may be particularly true for longdistance migrating birds, because, apart from conditions experienced by cohorts during rearing, conditions during early life in regions far from breeding grounds may also influence their population dynamics. Very little is known about the fitness consequences of those conditions experienced by juveniles after independence, especially in wild populations and for longlived birds. We used multi-event capture-recapture-recovery models and a unique 26-year dataset for the Audouin’s gull (Larus audouinii) to assess for the first time whether survival was influenced by early conditions, both during the rearing period (i.e. a maternal cohort effect potentially affected by density dependence) and the first winter (i.e. a cohort effect driven by climate when birds disperse to wintering grounds). Our results show that juvenile survivalwas highly sensitive to early-life conditions and that survival decreased with stronger density dependence and harsh climate. The two consecutive cohort effects were of similar magnitude and they may represent a selection filter. Thus, early-life conditions had a strong impact on survival, and neglecting this complexity may hinder our understanding on how populations of long-lived animals fluctuate and respond to perturbations.

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KW - Long-lived seabird

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KW - Winter

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ER -

Consecutive cohort effects driven by density-dependence and climate influence early-life survival in a long-lived bird

Abstract

Bibliographical note

Keywords

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