Impacts of climate change on the world’s most exceptional ecoregions
The current rate of warming due to increases in greenhouse gas (GHG) emissions is very likely unprecedented over the last 10,000 y. Although the majority of countries have adopted the view that global warming must be limited to <2 °C, current GHG emission rates and nonagreement at Copenhagen in December 2009 increase the likelihood of this limit being exceeded by 2100. Extensive evi- dence has linked major changes in biological systems to 20th century warming. The “Global 200” comprises 238 ecoregions of exceptional biodiversity [Olson DM, Dinerstein E (2002) Ann Mo Bot Gard 89:199–224]. We assess the likelihood that, by 2070, these iconic ecoregions will regularly experience monthly climatic conditions that were extreme in 1961–1990. Using >600 realizations from climate model ensembles, we show that up to 86% of terres- trial and 83% of freshwater ecoregions will be exposed to average monthly temperature patterns >2 SDs (2σ) of the 1961–1990 base- line, including 82% of critically endangered ecoregions. The entire range of 89 ecoregions will experience extreme monthly temper- atures with a local warming of <2 °C. Tropical and subtropical ecor- egions, and mangroves, face extreme conditions earliest, some with <1 °C warming. In contrast, few ecoregions within Boreal Forests and Tundra biomes will experience such extremes this cen- tury. On average, precipitation regimes do not exceed 2σ of the baseline period, although considerable variability exists across the climate realizations. Further, the strength of the correlation between seasonal temperature and precipitation changes over nu- merous ecoregions. These results suggest many Global 200 ecore- gions may be under substantial climatic stress by 2100.
climate impacts | climate model ensemble | conservation extreme
Credits: www.pnas.org/cgi/doi/10.1073/pnas.1007217108 PNAS Early Edition
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