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- Title
BioMove – an integrated platform simulating the dynamic response of species to environmental change.
- Authors
Midgley, Guy F.; Davies, Ian D.; Albert, Cécile H.; Altwegg, Res; Hannah, Lee; Hughes, Gregory O.; O'Halloran, Lydia R.; Seo, Changwan; Thorne, James H.; Thuiller, Wilfried
- Abstract
BioMove simulates plant species' geographic range shifts in response to climate, habitat structure and disturbance, at annual time steps. This spatially explicit approach integrates species' bioclimatic suitability and population-level demographic rates with simulation of landscape-level processes (dispersal, disturbance, species' response to dynamic dominant vegetation structure). Species population dynamics are simulated through matrix modelling that includes scaling demographic rates by climatic suitability. Dispersal functions simulate population spread. User-specified plant functional types (PFTs) provide vegetation structure that determines resource competition and disturbance. PFTs respond annually through dispersal, inter-PFT competition and demographic shifts. BioMove provides a rich framework for dynamic range simulations.
- Subjects
GLOBAL environmental change; PLANT species; AGRICULTURAL climatology; CLIMATOLOGY; HABITATS
- Publication
Ecography, 2010, Vol 33, Issue 3, p612
- ISSN
0906-7590
- Publication type
Article
- DOI
10.1111/j.1600-0587.2009.06000.x