Allee effects and the spatial dynamics of a locally-endangered butterfly, the High Brown Fritillary (Argynnis adippe)
Allee effects and the spatial dynamics of a locally-endangered butterfly, the High Brown Fritillary (Argynnis adippe)
Conservation of endangered species necessitates a full appreciation of the ecological processes affecting the regulation, limitation, and persistence of populations. These processes are influenced by birth, death, and dispersal events, and characterizing them requires careful accounting of both the deterministic and stochastic processes operating at both local and regional population levels. We combined ecological theory and observations on Allee effects by linking mathematical analysis and the spatial and temporal population dynamics patterns of a highly endangered butterfly, the high brown fritillary, Argynnis adippe. Our theoretical analysis showed that the role of density-dependent feedbacks in the presence of local immigration can influence the strength of Allee effects. Linking this theory to the analysis of the population data revealed strong evidence for both negative density dependence and Allee effects at the landscape or regional scale. These regional dynamics are predicted to be highly influenced by immigration. Using a Bayesian state-space approach, we characterized the local-scale births, deaths, and dispersal effects together with measurement and process uncertainty in the metapopulation. Some form of an Allee effect influenced almost three-quarters of these local populations. Our joint analysis of the deterministic and stochastic dynamics suggests that a conservation priority for this species would be to increase resource availability in currently occupied and, more importantly, in unoccupied sites
108-120
Bonsall, Michael
d368b593-034e-4ac6-b2e7-ad5123303f3b
Dooley, Claire
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Kasparson, Anna
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Brereton, Tom
a01849a2-842c-442b-bd4a-6206e969bfc7
Roy, David
336a02e3-8098-4222-8f4b-c40fd3e97afd
Thomas, Jeremy
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January 2014
Bonsall, Michael
d368b593-034e-4ac6-b2e7-ad5123303f3b
Dooley, Claire
8caf4d90-5b57-4f92-a6e6-ff2399114af1
Kasparson, Anna
8939f692-8990-4cc8-a31b-962d5291b795
Brereton, Tom
a01849a2-842c-442b-bd4a-6206e969bfc7
Roy, David
336a02e3-8098-4222-8f4b-c40fd3e97afd
Thomas, Jeremy
f5014f00-233c-4f95-8ffd-222ab4fbc965
Bonsall, Michael, Dooley, Claire, Kasparson, Anna, Brereton, Tom, Roy, David and Thomas, Jeremy
(2014)
Allee effects and the spatial dynamics of a locally-endangered butterfly, the High Brown Fritillary (Argynnis adippe).
Ecological Applications, 24 (1), .
(doi:10.1890/13-0155.1).
(PMID:24640538)
Abstract
Conservation of endangered species necessitates a full appreciation of the ecological processes affecting the regulation, limitation, and persistence of populations. These processes are influenced by birth, death, and dispersal events, and characterizing them requires careful accounting of both the deterministic and stochastic processes operating at both local and regional population levels. We combined ecological theory and observations on Allee effects by linking mathematical analysis and the spatial and temporal population dynamics patterns of a highly endangered butterfly, the high brown fritillary, Argynnis adippe. Our theoretical analysis showed that the role of density-dependent feedbacks in the presence of local immigration can influence the strength of Allee effects. Linking this theory to the analysis of the population data revealed strong evidence for both negative density dependence and Allee effects at the landscape or regional scale. These regional dynamics are predicted to be highly influenced by immigration. Using a Bayesian state-space approach, we characterized the local-scale births, deaths, and dispersal effects together with measurement and process uncertainty in the metapopulation. Some form of an Allee effect influenced almost three-quarters of these local populations. Our joint analysis of the deterministic and stochastic dynamics suggests that a conservation priority for this species would be to increase resource availability in currently occupied and, more importantly, in unoccupied sites
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Published date: January 2014
Organisations:
Environmental
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Local EPrints ID: 372100
URI: http://eprints.soton.ac.uk/id/eprint/372100
ISSN: 1051-0761
PURE UUID: 8ed433a8-bfa3-4925-b651-2ecb34171b5e
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Date deposited: 28 Nov 2014 15:46
Last modified: 14 Mar 2024 18:31
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Author:
Michael Bonsall
Author:
Claire Dooley
Author:
Anna Kasparson
Author:
Tom Brereton
Author:
David Roy
Author:
Jeremy Thomas
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