TY - JOUR
T1 - Lifetime inclusive fitness effects of cooperative polygamy in the acorn woodpecker
AU - Koenig, Walter D.
AU - Barve, Sahas
AU - Haydock, Joseph
AU - Dugdale, Hannah L.
AU - Oli, Madan K.
AU - Walters, Eric L.
N1 - Funding Information:
ACKNOWLEDGMENTS. We thank J. Dickinson, S. Dobson, L. Fromhage, A. Gardner, J. Hoogland,B.Lyon,and two anonymous reviewers for their comments.R.Mumme, M. Stanback, and 250+ field and laboratory assistants assisted with the project over the years. This work was supported by NSF grants IOS-1455881 to W.D.K., IOS-1455949 to J.H., IOS-1455900 to E.L.W., and Natural Environment Research Council fellowship NE/I021748/1 to H.L.D.
Publisher Copyright:
Copyright © 2023 the Author(s). Published by PNAS.
PY - 2023
Y1 - 2023
N2 - Although over 50 y have passed since W. D. Hamilton articulated kin selection and inclusive fitness as evolutionary explanations for altruistic behavior, quantifying inclusive fitness continues to be challenging. Here, using 30 y of data and two alternative methods, we outline an approach to measure lifetime inclusive fitness effects of cooperative polygamy (mate-sharing or cobreeding) in the cooperatively breeding acorn woodpecker Melanerpes formicivorus. For both sexes, the number of offspring (observed direct fitness) declined while the number of young parented by related cobreeders (observed indirect fitness effect) increased with cobreeding coalition size. Combining these two factors, the observed inclusive fitness effect of cobreeding was greater than breeding singly for males, while the pattern for females depended on whether fitness was age-weighted, as females breeding singly accrued greater fitness at younger ages than cobreeding females. Accounting for the fitness birds would have obtained by breeding singly, however, lifetime inclusive fitness effects declined with coalition size for males, but were greater for females breeding as duos compared to breeding singly, due largely to indirect fitness effects of kin. Our analyses provide a road map for, and demonstrate the importance of, quantifying indirect fitness as a powerful evolutionary force contributing to the costs and benefits of social behaviors.
AB - Although over 50 y have passed since W. D. Hamilton articulated kin selection and inclusive fitness as evolutionary explanations for altruistic behavior, quantifying inclusive fitness continues to be challenging. Here, using 30 y of data and two alternative methods, we outline an approach to measure lifetime inclusive fitness effects of cooperative polygamy (mate-sharing or cobreeding) in the cooperatively breeding acorn woodpecker Melanerpes formicivorus. For both sexes, the number of offspring (observed direct fitness) declined while the number of young parented by related cobreeders (observed indirect fitness effect) increased with cobreeding coalition size. Combining these two factors, the observed inclusive fitness effect of cobreeding was greater than breeding singly for males, while the pattern for females depended on whether fitness was age-weighted, as females breeding singly accrued greater fitness at younger ages than cobreeding females. Accounting for the fitness birds would have obtained by breeding singly, however, lifetime inclusive fitness effects declined with coalition size for males, but were greater for females breeding as duos compared to breeding singly, due largely to indirect fitness effects of kin. Our analyses provide a road map for, and demonstrate the importance of, quantifying indirect fitness as a powerful evolutionary force contributing to the costs and benefits of social behaviors.
KW - acorn woodpecker
KW - cooperative breeding
KW - cooperative polygamy
KW - inclusive fitness
KW - Melanerpes formicivorus
UR - http://www.scopus.com/inward/record.url?scp=85157999901&partnerID=8YFLogxK
U2 - 10.1073/pnas.2219345120
DO - 10.1073/pnas.2219345120
M3 - Article
C2 - 37126712
AN - SCOPUS:85157999901
SN - 0027-8424
VL - 120
JO - Proceedings of the National Academy of Sciences of the United States of America
JF - Proceedings of the National Academy of Sciences of the United States of America
IS - 19
M1 - e2219345120
ER -