Female choice for optimal combinations of multiple male display traits increases offspring survival

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Standard

Female choice for optimal combinations of multiple male display traits increases offspring survival. / Lancaster, Lesley T.; Hipsley, Christy A.; Sinervo, Barry.

I: Behavioral Ecology, Bind 20, Nr. 5, 2009, s. 993-999.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Lancaster, LT, Hipsley, CA & Sinervo, B 2009, 'Female choice for optimal combinations of multiple male display traits increases offspring survival', Behavioral Ecology, bind 20, nr. 5, s. 993-999. https://doi.org/10.1093/beheco/arp088

APA

Lancaster, L. T., Hipsley, C. A., & Sinervo, B. (2009). Female choice for optimal combinations of multiple male display traits increases offspring survival. Behavioral Ecology, 20(5), 993-999. https://doi.org/10.1093/beheco/arp088

Vancouver

Lancaster LT, Hipsley CA, Sinervo B. Female choice for optimal combinations of multiple male display traits increases offspring survival. Behavioral Ecology. 2009;20(5):993-999. https://doi.org/10.1093/beheco/arp088

Author

Lancaster, Lesley T. ; Hipsley, Christy A. ; Sinervo, Barry. / Female choice for optimal combinations of multiple male display traits increases offspring survival. I: Behavioral Ecology. 2009 ; Bind 20, Nr. 5. s. 993-999.

Bibtex

@article{6db8e3bfbbe045e899385fefcc19cf47,
title = "Female choice for optimal combinations of multiple male display traits increases offspring survival",
abstract = "Females commonly incorporate information from more than 1 male trait when making mating decisions, which may increase their ability to choose high-quality males. Assessment of multiple male traits may also incur increasing costs of time and/or energy and should therefore provide an adaptive advantage over females that do not exhibit such complex mating decisions. Although this benefit has been assumed/concluded in previous mate choice studies, it has rarely been empirically verified with female fitness data. Here we show that female side-blotched lizards (Uta stansburiana) that assess males for optimal trait combinations of throat color (a polymorphic social signal) and dorsal patterning (a polymorphic antipredator trait) recruit more offspring to the next adult generation. Specifically, females preferred males with a barred dorsal pattern, but only when males were yellow throated (signaling a sneaker strategy in males). Females mated to sires with both these traits experienced high rates of progeny survival to adulthood, via inheritance of favorable genetic combinations from sires (indirect benefits). Previous results suggest that this is because barredness confers crypsis primarily in yellow-throated lizards and not in lizards with alternative throat colors. Together, these results support the hypothesis that female preference for multiple, interacting male traits is an adaptive response to complex patterns of natural selection on offspring, such as correlational selection on unlinked traits. Our results provide new evidence for an adaptive advantage to females that exhibit complex mating-decision rules and suggest that one advantage lies in reducing deleterious recombination of genes for traits that, only in specific combinations, enhance fitness.",
keywords = "Alternative strategies, Color pattern polymorphism, Correlational selection, Crypsis, Good genes sexual selection, Indirect benefits, Multivariate signaling (multicomponent display)",
author = "Lancaster, {Lesley T.} and Hipsley, {Christy A.} and Barry Sinervo",
year = "2009",
doi = "10.1093/beheco/arp088",
language = "English",
volume = "20",
pages = "993--999",
journal = "Behavioral Ecology",
issn = "1045-2249",
publisher = "Oxford University Press",
number = "5",

}

RIS

TY - JOUR

T1 - Female choice for optimal combinations of multiple male display traits increases offspring survival

AU - Lancaster, Lesley T.

AU - Hipsley, Christy A.

AU - Sinervo, Barry

PY - 2009

Y1 - 2009

N2 - Females commonly incorporate information from more than 1 male trait when making mating decisions, which may increase their ability to choose high-quality males. Assessment of multiple male traits may also incur increasing costs of time and/or energy and should therefore provide an adaptive advantage over females that do not exhibit such complex mating decisions. Although this benefit has been assumed/concluded in previous mate choice studies, it has rarely been empirically verified with female fitness data. Here we show that female side-blotched lizards (Uta stansburiana) that assess males for optimal trait combinations of throat color (a polymorphic social signal) and dorsal patterning (a polymorphic antipredator trait) recruit more offspring to the next adult generation. Specifically, females preferred males with a barred dorsal pattern, but only when males were yellow throated (signaling a sneaker strategy in males). Females mated to sires with both these traits experienced high rates of progeny survival to adulthood, via inheritance of favorable genetic combinations from sires (indirect benefits). Previous results suggest that this is because barredness confers crypsis primarily in yellow-throated lizards and not in lizards with alternative throat colors. Together, these results support the hypothesis that female preference for multiple, interacting male traits is an adaptive response to complex patterns of natural selection on offspring, such as correlational selection on unlinked traits. Our results provide new evidence for an adaptive advantage to females that exhibit complex mating-decision rules and suggest that one advantage lies in reducing deleterious recombination of genes for traits that, only in specific combinations, enhance fitness.

AB - Females commonly incorporate information from more than 1 male trait when making mating decisions, which may increase their ability to choose high-quality males. Assessment of multiple male traits may also incur increasing costs of time and/or energy and should therefore provide an adaptive advantage over females that do not exhibit such complex mating decisions. Although this benefit has been assumed/concluded in previous mate choice studies, it has rarely been empirically verified with female fitness data. Here we show that female side-blotched lizards (Uta stansburiana) that assess males for optimal trait combinations of throat color (a polymorphic social signal) and dorsal patterning (a polymorphic antipredator trait) recruit more offspring to the next adult generation. Specifically, females preferred males with a barred dorsal pattern, but only when males were yellow throated (signaling a sneaker strategy in males). Females mated to sires with both these traits experienced high rates of progeny survival to adulthood, via inheritance of favorable genetic combinations from sires (indirect benefits). Previous results suggest that this is because barredness confers crypsis primarily in yellow-throated lizards and not in lizards with alternative throat colors. Together, these results support the hypothesis that female preference for multiple, interacting male traits is an adaptive response to complex patterns of natural selection on offspring, such as correlational selection on unlinked traits. Our results provide new evidence for an adaptive advantage to females that exhibit complex mating-decision rules and suggest that one advantage lies in reducing deleterious recombination of genes for traits that, only in specific combinations, enhance fitness.

KW - Alternative strategies

KW - Color pattern polymorphism

KW - Correlational selection

KW - Crypsis

KW - Good genes sexual selection

KW - Indirect benefits

KW - Multivariate signaling (multicomponent display)

U2 - 10.1093/beheco/arp088

DO - 10.1093/beheco/arp088

M3 - Journal article

AN - SCOPUS:70349471081

VL - 20

SP - 993

EP - 999

JO - Behavioral Ecology

JF - Behavioral Ecology

SN - 1045-2249

IS - 5

ER -

ID: 255690513