Fat or lean: adjustment of endogenous energy stores to predictable and unpredictable changes in allostatic load

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Fat or lean: adjustment of endogenous energy stores to predictable and unpredictable changes in allostatic load. / Schultner, Jannik; Kitaysky, Alexander S.; Welcker, Jorg et al.
in: Functional Ecology, Jahrgang 27, Nr. 1, 02.2013, S. 45-55.

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

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Schultner J, Kitaysky AS, Welcker J, Hatch S. Fat or lean: adjustment of endogenous energy stores to predictable and unpredictable changes in allostatic load. Functional Ecology. 2013 Feb;27(1):45-55. doi: 10.1111/j.1365-2435.2012.02058.x

Bibtex

@article{39a07aa257d942a0abf6a982e35e628c,
title = "Fat or lean: adjustment of endogenous energy stores to predictable and unpredictable changes in allostatic load",
abstract = "The ability to store energy endogenously is an important ecological mechanism that allows animals to buffer predictable and unpredictable variation in allostatic load. The secretion of glucocorticoids, which reflects changes in allostatic load, is suggested to play a major role in the adjustment of endogenous stores to these varying conditions. Although crucially important, the relationship between allostatic load and energy stores remains largely unexplorTwo contrasting hypotheses describe how stores may be adjusted: animals may use low allostatic loads to increase stores to a maximum possible ('fat and fit'), or they can attain a lean physique due to fitness advantages of a low body mass ('lean and fit'). We compiled observational and experimental data available for a long-lived seabird to examine the relationship between glucocorticoids and stored energy at two life history stages (incubation and chick-rearing). Data were collected across multiple years and colonies in the North Pacific, thereby reflecting the wide range of environmental conditions birds' encounter in the marine environment. During experimental manipulations, allostatic load was minimized by supplementing food to free-living birds. We found that the relationship between allostatic load and energy stores was clearly curvilinear at both life history stages. Observational data suggested that energy stores remained relatively stable under low allostatic load and decreased under high loads. Experimental data showed that birds did not maximize energy stores under favourable conditions but maintained energy stores below a physiologically attainable level. Energy stores remained consistently lower during chick-rearing compared to incubation across the wide range of variations in allostatic load suggesting that stage-specific trade-offs limit the accumulation of energy during favourable environmental conditions. Secretion of glucocorticoids did not appear to mediate this shift in energy stores between the life history stages. Overall, results of this study support the 'lean and fit' hypothesis. We conclude that increased energy stores may not necessarily reflect better environmental conditions experienced by individuals or predict their higher fitness. A major advantage of adopting a lean physique when environmental conditions allow may be the avoidance of additional energetic costs for moving a heavy body. In breeding seabirds, this advantage may be more important during chick-rearing. In the focal species, the secretion of glucocorticoids might be involved in regulation of energy stores within a life history stage but does not appear to mediate an adaptive shift in energy stores between the incubating and chick-rearing stages of reproduction.",
keywords = "allostasis, anorexia, baseline corticosterone, body condition, environmental conditions, fitness, food stress, life history, trade-offs, wing loading, Ecosystems Research",
author = "Jannik Schultner and Kitaysky, {Alexander S.} and Jorg Welcker and Scott Hatch",
year = "2013",
month = feb,
doi = "10.1111/j.1365-2435.2012.02058.x",
language = "English",
volume = "27",
pages = "45--55",
journal = "Functional Ecology",
issn = "0269-8463",
publisher = "Wiley-Blackwell Publishing Ltd.",
number = "1",

}

RIS

TY - JOUR

T1 - Fat or lean

T2 - adjustment of endogenous energy stores to predictable and unpredictable changes in allostatic load

AU - Schultner, Jannik

AU - Kitaysky, Alexander S.

AU - Welcker, Jorg

AU - Hatch, Scott

PY - 2013/2

Y1 - 2013/2

N2 - The ability to store energy endogenously is an important ecological mechanism that allows animals to buffer predictable and unpredictable variation in allostatic load. The secretion of glucocorticoids, which reflects changes in allostatic load, is suggested to play a major role in the adjustment of endogenous stores to these varying conditions. Although crucially important, the relationship between allostatic load and energy stores remains largely unexplorTwo contrasting hypotheses describe how stores may be adjusted: animals may use low allostatic loads to increase stores to a maximum possible ('fat and fit'), or they can attain a lean physique due to fitness advantages of a low body mass ('lean and fit'). We compiled observational and experimental data available for a long-lived seabird to examine the relationship between glucocorticoids and stored energy at two life history stages (incubation and chick-rearing). Data were collected across multiple years and colonies in the North Pacific, thereby reflecting the wide range of environmental conditions birds' encounter in the marine environment. During experimental manipulations, allostatic load was minimized by supplementing food to free-living birds. We found that the relationship between allostatic load and energy stores was clearly curvilinear at both life history stages. Observational data suggested that energy stores remained relatively stable under low allostatic load and decreased under high loads. Experimental data showed that birds did not maximize energy stores under favourable conditions but maintained energy stores below a physiologically attainable level. Energy stores remained consistently lower during chick-rearing compared to incubation across the wide range of variations in allostatic load suggesting that stage-specific trade-offs limit the accumulation of energy during favourable environmental conditions. Secretion of glucocorticoids did not appear to mediate this shift in energy stores between the life history stages. Overall, results of this study support the 'lean and fit' hypothesis. We conclude that increased energy stores may not necessarily reflect better environmental conditions experienced by individuals or predict their higher fitness. A major advantage of adopting a lean physique when environmental conditions allow may be the avoidance of additional energetic costs for moving a heavy body. In breeding seabirds, this advantage may be more important during chick-rearing. In the focal species, the secretion of glucocorticoids might be involved in regulation of energy stores within a life history stage but does not appear to mediate an adaptive shift in energy stores between the incubating and chick-rearing stages of reproduction.

AB - The ability to store energy endogenously is an important ecological mechanism that allows animals to buffer predictable and unpredictable variation in allostatic load. The secretion of glucocorticoids, which reflects changes in allostatic load, is suggested to play a major role in the adjustment of endogenous stores to these varying conditions. Although crucially important, the relationship between allostatic load and energy stores remains largely unexplorTwo contrasting hypotheses describe how stores may be adjusted: animals may use low allostatic loads to increase stores to a maximum possible ('fat and fit'), or they can attain a lean physique due to fitness advantages of a low body mass ('lean and fit'). We compiled observational and experimental data available for a long-lived seabird to examine the relationship between glucocorticoids and stored energy at two life history stages (incubation and chick-rearing). Data were collected across multiple years and colonies in the North Pacific, thereby reflecting the wide range of environmental conditions birds' encounter in the marine environment. During experimental manipulations, allostatic load was minimized by supplementing food to free-living birds. We found that the relationship between allostatic load and energy stores was clearly curvilinear at both life history stages. Observational data suggested that energy stores remained relatively stable under low allostatic load and decreased under high loads. Experimental data showed that birds did not maximize energy stores under favourable conditions but maintained energy stores below a physiologically attainable level. Energy stores remained consistently lower during chick-rearing compared to incubation across the wide range of variations in allostatic load suggesting that stage-specific trade-offs limit the accumulation of energy during favourable environmental conditions. Secretion of glucocorticoids did not appear to mediate this shift in energy stores between the life history stages. Overall, results of this study support the 'lean and fit' hypothesis. We conclude that increased energy stores may not necessarily reflect better environmental conditions experienced by individuals or predict their higher fitness. A major advantage of adopting a lean physique when environmental conditions allow may be the avoidance of additional energetic costs for moving a heavy body. In breeding seabirds, this advantage may be more important during chick-rearing. In the focal species, the secretion of glucocorticoids might be involved in regulation of energy stores within a life history stage but does not appear to mediate an adaptive shift in energy stores between the incubating and chick-rearing stages of reproduction.

KW - allostasis

KW - anorexia

KW - baseline corticosterone

KW - body condition

KW - environmental conditions

KW - fitness

KW - food stress

KW - life history

KW - trade-offs

KW - wing loading

KW - Ecosystems Research

UR - http://www.scopus.com/inward/record.url?scp=84873077946&partnerID=8YFLogxK

U2 - 10.1111/j.1365-2435.2012.02058.x

DO - 10.1111/j.1365-2435.2012.02058.x

M3 - Journal articles

VL - 27

SP - 45

EP - 55

JO - Functional Ecology

JF - Functional Ecology

SN - 0269-8463

IS - 1

ER -

DOI