Abstract
BackgroundClimate change is affecting many physical and biological processes worldwide. Anticipating its effects at the level of populations and species is imperative, especially for organisms of conservation or management concern. Previous studies have focused on estimating future species distributions and extinction probabilities directly from current climatic conditions within their geographical ranges. However, relationships between climate and population parameters may be so complex that to make these high-level predictions we need first to understand the underlying biological processes driving population size, as well as their individual response to climatic alterations. Therefore, the objective of this study is to investigate the influence that climate change may have on species population dynamics through altering breeding season.Methodology/Principal FindingsWe used a mechanistic model based on drivers of rabbit reproductive physiology together with demographic simulations to show how future climate-driven changes in breeding season result in contrasting rabbit population trends across Europe. In the Iberian Peninsula, where rabbits are a native species of high ecological and economic value, breeding seasons will shorten and become more variable leading to population declines, higher extinction risk, and lower resilience to perturbations. Whereas towards north-eastern countries, rabbit numbers are expected to increase through longer and more stable reproductive periods, which augment the probability of new rabbit invasions in those areas.Conclusions/SignificanceOur study reveals the type of mechanisms through which climate will cause alterations at the species level and emphasizes the need to focus on them in order to better foresee large-scale complex population trends. This is especially important in species like the European rabbit whose future responses may aggravate even further its dual keystone/pest problematic. Moreover, this approach allows us to predict not only distribution shifts but also future population status and growth, and to identify the demographic parameters on which to focus to mitigate global change effects.
Highlights
Anthropogenic climate change is affecting many physical and biological processes worldwide [1], and investigating its impact on populations and distributions of vulnerable or invasive species is one of the main research priorities [2,3]
We focused on the duration of the reproductive period as model of demographic trait to investigate the mechanisms through which climate change may alter large-scale patterns of population dynamics of a species such as the European rabbit (Oryctolagus cuniculus)
Climate Driven Changes in Rabbit Breeding Season there are some variations depending on the boundary conditions set by different general circulation models (GCM) or on the gas emission scenarios applied, the overall predicted regional trends are consistent
Summary
Anthropogenic climate change is affecting many physical and biological processes worldwide [1], and investigating its impact on populations and distributions of vulnerable or invasive species is one of the main research priorities [2,3]. We focused on the duration of the reproductive period as model of demographic trait to investigate the mechanisms through which climate change may alter large-scale patterns of population dynamics of a species such as the European rabbit (Oryctolagus cuniculus). We combined an existing mechanistic model, which efficiently predicts breeding season months based only on temperature, precipitation and photoperiod [14], and a rabbit demographic model we developed in order to explore the impact of climate change on future breeding seasons and population trends across large scales Studies like this focusing on the underlying mechanisms to explain and predict population responses will be essential to better understand future consequences of the undergoing global change and to help develop adequate mitigation strategies. The objective of this study is to investigate the influence that climate change may have on species population dynamics through altering breeding season
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