Seasonal patterns of prolactin and corticosterone secretion in an Antarctic seabird that moults during reproduction

Glenn T. Crossin; Alistair Dawson; Richard A. Phillips; Phil N. Trathan; Kristen B. Gorman; Stacey Adlard; Tony D. Williams

doi:10.1016/j.ygcen.2011.10.003

Seasonal patterns of prolactin and corticosterone secretion in an Antarctic seabird that moults during reproduction

Glenn T. Crossin, Alistair Dawson, Richard A. Phillips, Phil N. Trathan, Kristen B. Gorman, Stacey Adlard, Tony D. Williams

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12 Citas (Scopus)

Resumen

In avian species that have evolved life-history strategies wherein molt and breeding overlap, there are potential conflicts between the regulatory roles of baseline prolactin and corticosterone in parental care (positive) and moult (negative). We describe seasonal patterns of hormonal secretion, moult, and parental behaviour in sibling species of giant petrels (Macronectes spp.) which begin moult during the incubation/early chick-rearing stage of reproduction. With the exception of male Southern giant petrels (Macronectes giganteus), prolactin secretion and moult in Northern (Macronectes halli) and female Southern giant petrels conformed to those observed in all other avian species, with the initiation of moult coincident with decreases from peak prolactin levels. However, male Southern giant petrels began moulting early in incubation when prolactin was increasing and had not yet peaked, which suggests a requirement of prolactin for incubation behaviour and a dissociation of prolactin from moult. Corticosterone showed little seasonal variation and no relationship with moult. When comparing prolactin, corticosterone, and moult in failed vs. active breeders, we found that failed breeding enabled a more rapid down-regulation of prolactin, thus facilitating a more rapid moult. We present specific examples of the behavioural ecology of giant petrels which we conclude help mediate any potential hormonal conflicts between parental care and moult.

Idioma original	English
Páginas (desde-hasta)	74-81
Número de páginas	8
Publicación	General and Comparative Endocrinology
Volumen	175
N.º	1
DOI	https://doi.org/10.1016/j.ygcen.2011.10.003
Estado	Published - ene. 1 2012
Publicado de forma externa	Sí

Nota bibliográfica

Funding Information:
Many thanks to Fabrice Le Bouard and Dickie Hall at the British Antarctic Survey for their kind assistance on Bird Island. Thanks too to Peter Sharp at the Roslin Institute for assistance with the prolactin assay. Oliver Love, Eunice Chin, Katrina Salvante, and members of the Soma Lab at the University of British Columbia provided helpful advice concerning corticosterone radio-immunoassay. Financial support for this work was provided by the British Antarctic Survey through an Antarctic Funding Initiative Collaborative Gearing Scheme awarded to AD, PNT, and RAP. Additional support was provided through a National Science and Engineering Research Council of Canada (NSERC) Post-doctoral Fellowship and NSERC E-BIRD funding to GTC, and through an NSERC Discovery Grant to TDW.

ASJC Scopus Subject Areas

Animal Science and Zoology
Endocrinology

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10.1016/j.ygcen.2011.10.003

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title = "Seasonal patterns of prolactin and corticosterone secretion in an Antarctic seabird that moults during reproduction",

abstract = "In avian species that have evolved life-history strategies wherein molt and breeding overlap, there are potential conflicts between the regulatory roles of baseline prolactin and corticosterone in parental care (positive) and moult (negative). We describe seasonal patterns of hormonal secretion, moult, and parental behaviour in sibling species of giant petrels (Macronectes spp.) which begin moult during the incubation/early chick-rearing stage of reproduction. With the exception of male Southern giant petrels (Macronectes giganteus), prolactin secretion and moult in Northern (Macronectes halli) and female Southern giant petrels conformed to those observed in all other avian species, with the initiation of moult coincident with decreases from peak prolactin levels. However, male Southern giant petrels began moulting early in incubation when prolactin was increasing and had not yet peaked, which suggests a requirement of prolactin for incubation behaviour and a dissociation of prolactin from moult. Corticosterone showed little seasonal variation and no relationship with moult. When comparing prolactin, corticosterone, and moult in failed vs. active breeders, we found that failed breeding enabled a more rapid down-regulation of prolactin, thus facilitating a more rapid moult. We present specific examples of the behavioural ecology of giant petrels which we conclude help mediate any potential hormonal conflicts between parental care and moult.",

author = "Crossin, {Glenn T.} and Alistair Dawson and Phillips, {Richard A.} and Trathan, {Phil N.} and Gorman, {Kristen B.} and Stacey Adlard and Williams, {Tony D.}",

note = "Funding Information: Many thanks to Fabrice Le Bouard and Dickie Hall at the British Antarctic Survey for their kind assistance on Bird Island. Thanks too to Peter Sharp at the Roslin Institute for assistance with the prolactin assay. Oliver Love, Eunice Chin, Katrina Salvante, and members of the Soma Lab at the University of British Columbia provided helpful advice concerning corticosterone radio-immunoassay. Financial support for this work was provided by the British Antarctic Survey through an Antarctic Funding Initiative Collaborative Gearing Scheme awarded to AD, PNT, and RAP. Additional support was provided through a National Science and Engineering Research Council of Canada (NSERC) Post-doctoral Fellowship and NSERC E-BIRD funding to GTC, and through an NSERC Discovery Grant to TDW.",

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AU - Crossin, Glenn T.

AU - Dawson, Alistair

AU - Phillips, Richard A.

AU - Trathan, Phil N.

AU - Gorman, Kristen B.

AU - Adlard, Stacey

AU - Williams, Tony D.

N1 - Funding Information: Many thanks to Fabrice Le Bouard and Dickie Hall at the British Antarctic Survey for their kind assistance on Bird Island. Thanks too to Peter Sharp at the Roslin Institute for assistance with the prolactin assay. Oliver Love, Eunice Chin, Katrina Salvante, and members of the Soma Lab at the University of British Columbia provided helpful advice concerning corticosterone radio-immunoassay. Financial support for this work was provided by the British Antarctic Survey through an Antarctic Funding Initiative Collaborative Gearing Scheme awarded to AD, PNT, and RAP. Additional support was provided through a National Science and Engineering Research Council of Canada (NSERC) Post-doctoral Fellowship and NSERC E-BIRD funding to GTC, and through an NSERC Discovery Grant to TDW.

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N2 - In avian species that have evolved life-history strategies wherein molt and breeding overlap, there are potential conflicts between the regulatory roles of baseline prolactin and corticosterone in parental care (positive) and moult (negative). We describe seasonal patterns of hormonal secretion, moult, and parental behaviour in sibling species of giant petrels (Macronectes spp.) which begin moult during the incubation/early chick-rearing stage of reproduction. With the exception of male Southern giant petrels (Macronectes giganteus), prolactin secretion and moult in Northern (Macronectes halli) and female Southern giant petrels conformed to those observed in all other avian species, with the initiation of moult coincident with decreases from peak prolactin levels. However, male Southern giant petrels began moulting early in incubation when prolactin was increasing and had not yet peaked, which suggests a requirement of prolactin for incubation behaviour and a dissociation of prolactin from moult. Corticosterone showed little seasonal variation and no relationship with moult. When comparing prolactin, corticosterone, and moult in failed vs. active breeders, we found that failed breeding enabled a more rapid down-regulation of prolactin, thus facilitating a more rapid moult. We present specific examples of the behavioural ecology of giant petrels which we conclude help mediate any potential hormonal conflicts between parental care and moult.

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Seasonal patterns of prolactin and corticosterone secretion in an Antarctic seabird that moults during reproduction

Resumen

Nota bibliográfica

ASJC Scopus Subject Areas

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