期刊
NATUREZA & CONSERVACAO
卷 10, 期 2, 页码 152-159出版社
ASSOC BRASILEIRA CIENCIA ECOLOGICA E CONSERVACAO
DOI: 10.4322/natcon.2012.025
关键词
Climate Change; Climatically Stable Areas; Ensemble Forecasting; Ecological Niche Models; Systematic Conservation Planning
资金
- CAPES
- CNPq
- FAPEG [564717/2010-0, 563727/2010-1, 563624/2010-8]
- BBVA foundation
- MCT/CNPq in the Rede Clima research network
- MBA
- FG
- JAFD-F
- TFR [PTDC/AAC-AMB/98163/2008]
Recognizing the location of climatically stable areas in the future is subjected to uncertainties from ecological niche models, climatic models, variation in species ranges responses, and from the climatic variation through time. Here, we proposed an approach based on hierarchical ANOVA to reduce uncertainties and to identify climatically stable areas, working with Cerrado tree species as a model organism. Ecological niche models were generated for 18 Cerrado tree species and their potential distributions were projected into past and future. Analyses of the sources of uncertainties in ensembles hindcasts/forecasts revealed that the time component was the most important source of variation, whereas the climatic models had the smallest effect. The species responses to climate changes do not showed marked differences within each time period. By comparing past and future predictions, a single continuous climatically stable area was identified, which should be considered as a potential improvement for spatial prioritization for conservation.
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