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Assessing the sensitivity of alpine birds to potential future changes in habitat and climate to inform management strategies

•Breeding birds were surveyed along altitudinal transects in the Italian Alps from c. 1700m to 3100m asl.•Future bird distribution changes were modelled in relation to various scenarios of climate and land use change.•Distributions of many forest or shrub species were forecast to increase due to ele...

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Bibliographic Details
Published in:Biological conservation 2013-11, Vol.167, p.127-135
Main Authors: Chamberlain, Dan E., Negro, Matteo, Caprio, Enrico, Rolando, Antonio
Format: Article
Language:English
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Summary:•Breeding birds were surveyed along altitudinal transects in the Italian Alps from c. 1700m to 3100m asl.•Future bird distribution changes were modelled in relation to various scenarios of climate and land use change.•Distributions of many forest or shrub species were forecast to increase due to elevational shifts in their habitat.•Grassland species showed some severe future decreases in distribution as grasslands were colonised by forest and shrubs.•The loss of open habitats due to climate change may present a serious future conservation problem for alpine biodiversity. Climate change has resulted in upward elevational shifts in the distribution of animals and plants in many areas. The potential consequences of such changes for alpine bird communities were assessed by modelling data on breeding bird distributions along altitudinal gradients in the European Alps in relation to habitat, topography and temperature. Models were used to assess species’ sensitivity to potential future environmental change by estimating distributions under a range of scenarios of habitat and climate change, thereby identifying likely future conservation priorities. Distributions of the majority of forest or shrub species remained stable or increased in response to climate change as a result of elevational shifts in suitable habitats. However, open habitat species may face a severe decrease in distribution as grasslands are colonised by forest and shrubs, because much of the area considered is not at a sufficient altitude to accommodate further elevational shifts. This may be exacerbated if vegetation development is constrained at high altitudes, leading to a habitat ‘squeeze’ caused by an asymmetric response of vegetation zones to climate change. These results suggest that grassland species may be of conservation concern in the future, and that management strategies to maintain openness should be prioritised. However, model outcomes also suggested such management may not be sufficient for a number of species if climate change results in a mismatch between the distribution of suitable climates and suitable habitats. The loss of open habitats may therefore present a serious conservation problem for mountain biodiversity in the future.
ISSN:0006-3207
1873-2917
DOI:10.1016/j.biocon.2013.07.036