A multi-species modelling approach to examine the impact of alternative climate change adaptation strategies on range shifting ability in a fragmented landscape
A multi-species modelling approach to examine the impact of alternative climate change adaptation strategies on range shifting ability in a fragmented landscape
An individual-based model of animal dispersal and population dynamics was used to test the effects of different climate change adaptation strategies on species range shifting ability, namely the improvement of existing habitat, restoration of low quality habitat and creation of new habitat. These strategies were implemented on a landscape typical of fragmentation in the United Kingdom using spatial rules to differentiate between the allocation of strategies adjacent to or away from existing habitat patches. The total area being managed in the landscape was set at realistic levels based on recent habitat management trends. Eight species were parameterised to broadly represent different stage structure, population densities and modes of dispersal. Simulations were initialised with the species occupying 20% of the landscape and run for 100 years. As would be expected for a range of real taxa, range shifting abilities were dramatically different. This translated into large differences in their responses to the adaptation strategies. With conservative (0.5%) estimates of the area prescribed for climate change adaptation, few species display noticeable improvements in their range shifting, demonstrating the need for greater investment in future adaptation. With a larger (1%) prescribed area, greater range shifting improvements were found, although results were still species-specific. It was found that increasing the size of small existing habitat patches was the best way to promote range shifting, and that the creation of new stepping stone features, whilst beneficial to some species, did not have such broad effect across different species.
ecological networks, connectivity, habitat restoration, population dynamics, dispersal, rangeshifter
1-8
Synes, Nicholas W.
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Watts, Kevin
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Palmer, Stephen C.F.
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Bocedi, Greta
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Bartoń, Kamil A.
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Osborne, Patrick E.
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Travis, Justin M.J.
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Synes, Nicholas W.
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Watts, Kevin
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Palmer, Stephen C.F.
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Bocedi, Greta
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Bartoń, Kamil A.
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Osborne, Patrick E.
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Travis, Justin M.J.
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Synes, Nicholas W., Watts, Kevin, Palmer, Stephen C.F., Bocedi, Greta, Bartoń, Kamil A., Osborne, Patrick E. and Travis, Justin M.J.
(2015)
A multi-species modelling approach to examine the impact of alternative climate change adaptation strategies on range shifting ability in a fragmented landscape.
Ecological Informatics, .
(doi:10.1016/j.ecoinf.2015.06.004).
Abstract
An individual-based model of animal dispersal and population dynamics was used to test the effects of different climate change adaptation strategies on species range shifting ability, namely the improvement of existing habitat, restoration of low quality habitat and creation of new habitat. These strategies were implemented on a landscape typical of fragmentation in the United Kingdom using spatial rules to differentiate between the allocation of strategies adjacent to or away from existing habitat patches. The total area being managed in the landscape was set at realistic levels based on recent habitat management trends. Eight species were parameterised to broadly represent different stage structure, population densities and modes of dispersal. Simulations were initialised with the species occupying 20% of the landscape and run for 100 years. As would be expected for a range of real taxa, range shifting abilities were dramatically different. This translated into large differences in their responses to the adaptation strategies. With conservative (0.5%) estimates of the area prescribed for climate change adaptation, few species display noticeable improvements in their range shifting, demonstrating the need for greater investment in future adaptation. With a larger (1%) prescribed area, greater range shifting improvements were found, although results were still species-specific. It was found that increasing the size of small existing habitat patches was the best way to promote range shifting, and that the creation of new stepping stone features, whilst beneficial to some species, did not have such broad effect across different species.
Text
Synes_A_multi.pdf
- Accepted Manuscript
More information
Accepted/In Press date: 18 June 2015
e-pub ahead of print date: 25 June 2015
Keywords:
ecological networks, connectivity, habitat restoration, population dynamics, dispersal, rangeshifter
Organisations:
Centre for Environmental Science
Identifiers
Local EPrints ID: 378909
URI: http://eprints.soton.ac.uk/id/eprint/378909
ISSN: 1574-9541
PURE UUID: 6dd729bf-9bbf-44b5-966c-15ff25f93403
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Date deposited: 15 Jul 2015 10:40
Last modified: 15 Mar 2024 03:21
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Contributors
Author:
Nicholas W. Synes
Author:
Kevin Watts
Author:
Stephen C.F. Palmer
Author:
Greta Bocedi
Author:
Kamil A. Bartoń
Author:
Justin M.J. Travis
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