How does increasing mast seeding frequency affect population dynamics of seed consumers? Wild boar as a case study

Mast seeding in temperate oak populations shapes the dynamics of seed consumers and numerous communities. Mast seeding responds positively to warm spring temperatures and is therefore expected to increase under global warming. We investigated the potential effects of changes in oak mast seeding on w...

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Bibliographic Details
Published inEcological applications Vol. 30; no. 6; p. e02134
Main Authors Touzot, Laura, Schermer, Éliane, Venner, Samuel, Delzon, Sylvain, Rousset, Cyril, Baubet, Éric, Gaillard, Jean-Michel, Gamelon, Marlène
Format Journal Article
LanguageEnglish
Published United States 01.09.2020
Subjects
Animals
Climate Change
Female
Population Dynamics
Quercus
Seeds
Sus scrofa
Swine
demographic population model
population projections
spring temperatures
mast
Sus scrofa
climate projections
resource budget model
climate change
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Summary:Mast seeding in temperate oak populations shapes the dynamics of seed consumers and numerous communities. Mast seeding responds positively to warm spring temperatures and is therefore expected to increase under global warming. We investigated the potential effects of changes in oak mast seeding on wild boar population dynamics, a widespread and abundant consumer species. Using long-term monitoring data, we showed that abundant acorn production enhances the proportion of breeding females. With a body-mass-structured population model and a fixed hunting rate of 0.424, we showed that high acorn production over time would lead to an average wild boar population growth rate of 1.197 whereas non-acorn production would lead to a stable population. Finally, using climate projections and a mechanistic model linking weather data to oak reproduction, we predicted that mast seeding frequency might increase over the next century, which would lead to increase in both wild boar population size and the magnitude of its temporal variation. Our study provides rare evidence that some species could greatly benefit from global warming thanks to higher food availability and therefore highlights the importance of investigating the cascading effects of changing weather conditions on the dynamics of wild animal populations to reliably assess the effects of climate change.
ISSN:1051-0761
DOI:10.1002/eap.2134