Abstract
Changing climate can modify predator-prey interactions and induce declines or local extinctions of species due to reductions in food availability. Species hoarding perishable food for overwinter survival, like predators, are predicted to be particularly susceptible to increasing temperatures. We analysed the influence of autumn and winter weather, and abundance of main prey (voles), on the food-hoarding behaviour of a generalist predator, the Eurasian pygmy owl (Glaucidium passerinum), across 16years in Finland. Fewer freeze-thaw events in early autumn delayed the initiation of food hoarding. Pygmy owls consumed more hoarded food with more frequent freeze-thaw events and deeper snow cover in autumn and in winter, and lower precipitation in winter. In autumn, the rotting of food hoards increased with precipitation. Hoards already present in early autumn were much more likely to rot than the ones initiated in late autumn. Rotten food hoards were used more in years of low food abundance than in years of high food abundance. Having rotten food hoards in autumn resulted in a lower future recapture probability of female owls. These results indicate that pygmy owls might be partly able to adapt to climate change by delaying food hoarding, but changes in the snow cover, precipitation and frequency of freeze-thaw events might impair their foraging and ultimately decrease local overwinter survival. Long-term trends and future predictions, therefore, suggest that impacts of climate change on wintering food-hoarding species could be substantial, because their 'freezers' may no longer work properly. Altered usability and poorer quality of hoarded food may further modify the foraging needs of food-hoarding predators and thus their overall predation pressure on prey species. This raises concerns about the impacts of climate change on boreal food webs, in which ecological interactions have evolved under cold winter conditions.
Highlights
Animal populations have always been influenced by changes in climatic conditions (Dempster, 1975)
The most important climatic variables influencing the quality of hoarded food are temperature, freeze–thaw events and precipitation, and we considered the following variables: (a) For precipitation, we used both the number of days with precipitation and the total sum of precipitation. (b) Temperature variables were the average mean, minimum and maximum daily temperature, the number of freezing days and the number of freeze–thaw events
We found that pygmy owls started hoarding food early in the autumn when there was a high number of freeze–thaw events before the food-hoarding season and they tended to start later in recent years
Summary
Animal populations have always been influenced by changes in climatic conditions (Dempster, 1975). Previous studies have shown that food-hoarding behaviour of pygmy owls varies in relation to the availability of main prey species (i.e. abundance voles of the genera Myodes and Microtus) and age and sex of the individual (Masoero, Laaksonen, Morosinotto, & Korpimäki, 2020; Masoero, Morosinotto, Laaksonen, & Korpimäki, 2018), with increasing food hoards in years of vole abundance, in yearling individuals and in females It has not been yet examined how weather conditions, together with main prey abundance and individual traits, can affect the phenology of hoarding or the accumulation, consumption and perishability of the food items. We predicted that rotten food hoards may (viii) decrease the local overwinter survival of individual owls
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