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Incorporating habitat suitability into community projections: Ant responses to climate change in the Australian Wet Tropics
Version 2 2023-01-11, 06:35Version 2 2023-01-11, 06:35
Version 1 2021-01-17, 13:35Version 1 2021-01-17, 13:35
journal contribution
posted on 2023-01-11, 06:35 authored by S Nowrouzi, A Bush, T Harwood, KM Staunton, Simon RobsonSimon Robson, AN AndersenAim: Studies of climate change impacts on animal distributions typically consider only the direct impacts of a changing climate, under the assumption that future areas of suitable climate will otherwise remain ecologically suitable. Here we assess both the direct and indirect impacts of climate change on rain forest ant communities, where substantial shifts are projected to occur for both climate and habitat types. Location: Australian Wet Tropics (AWT). Methods: Generalized Dissimilarity Modelling was used to model turnover in the composition of ~300 rain forest ant species sampled at 150 sites across six mountains spanning five degrees of latitude. Ants were sampled within the leaf litter, on the litter surface and on tree trunks. By modelling the rate of turnover among sites, we determined the current effective area of similar ecological environments (SEE) for ant communities and consequently the expected change in species persistence when habitat shifts under two climate projections for the years 2035, 2055 and 2085. We compared results when SEE considered only the direct effects of a changing climate, with those when changes in habitat were also included. Results: The rain forest ant communities modelled will lose a substantial proportion of SEE under both climate change scenarios. Under combined direct (changes in climate) and indirect (changes in rain forest habitat) impacts of climate change, >90% of the communities in the region were predicted to lose up to half their similar habitats compared with 50%–60% when only considering direct climate change impacts. The highest risk of reduction in area of SEE is projected in drier inland areas of the AWT, where profound compositional turnover is linked to dramatic changes in rain forest vegetation, including extensive conversion into savanna. Main conclusions: Our findings emphasize the importance of incorporating habitat suitability into future projections of species turnover under a changing climate, particularly for habitats where vegetation structure is projected to undergo profound change. © 2019 The Authors. Diversity and Distributions Published by John Wiley & Sons Ltd
Funding
Category 2 - Other Public Sector Grants Category
History
Volume
25Issue
8Start Page
1273End Page
1288Number of Pages
16eISSN
1472-4642ISSN
1366-9516Publisher
Wiley-BlackwellPublisher DOI
Additional Rights
CC BY 4.0Peer Reviewed
- Yes
Open Access
- Yes
Acceptance Date
2019-04-15External Author Affiliations
CSIRO Land and Water; James Cook UniversityEra Eligible
- Yes
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