Climate fluctuations interact with local demography and resources to predict spatially dynamic adult sex ratios in a megaherbivore

Climate fluctuations interact with local demography and resources to predict spatially dynamic adult sex ratios in a megaherbivore

Adult sex ratio (ASR) is a fundamental concept in population and evolutionary biology, with implications for management and conservation. Although ASR is typically measured at the population‐level, local mate competition points toward spatial variation in ASR within populations, the causes of which...

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Bibliographic Details
Published in:Oikos Vol. 124; no. 9; pp. 1132 - 1141
Main Authors: Manning, Jeffrey A, Medill, Sarah A, McLoughlin, Philip D
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Publishing Ltd 01-09-2015
Nordic Society Oikos
Subjects:
adults
Biogeography
breeding season
climate
Climate change
demographic statistics
Evolutionary biology
females
feral animals
Herbivores
horses
life history
males
mating competitiveness
prediction
sex ratio
sexual selection
space and time
surface water
weather
Canada
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Summary:Adult sex ratio (ASR) is a fundamental concept in population and evolutionary biology, with implications for management and conservation. Although ASR is typically measured at the population‐level, local mate competition points toward spatial variation in ASR within populations, the causes of which remain unclear. Over five breeding seasons (2008–2012), we tracked the life histories and movements of all male and female feral horses known to be alive (n = 721) on Sable Island, Canada, to investigate determinants of spatially explicit ASRs. We show that local demographic traits (density, adult female abundance, and abundance of unpaired males (e.g. floaters, adult bachelors)) operate together with inter‐annual changes in weather to determine asymmetrical ASRs across time and space that deviate from the population‐level mean. While accounting for possible confounding effects of unpaired male movements and weather, we also show that local demographics are best explained by different responses to an environmental gradient (distance to surface water). Our results demonstrate that local demographic traits operate as mechanisms by which environmental gradients and weather can shape spatial variation in ASR within wild populations, which has important implications for predicting how opportunities for sexual selection may follow from changes in resource availability and climate.
Bibliography:http://dx.doi.org/10.1111/oik.02273
ark:/67375/WNG-QH79M8LB-L
the Natural Sciences and Engineering Research Council of Canada (NSERC)
the Canada Foundation for Innovation
istex:AD624E111D2B6FDCB7D2D50E165DCAF25D33EC7B
the University of Saskatchewan
ArticleID:OIK2273
ISSN:0030-1299
1600-0706
DOI:10.1111/oik.02273