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Article Title | Environmental stratification to model climate change impactson biodiversity and rubber production in Xishuangbanna, Yunnan, China | Author | Robert J. Zomer, Antonio Trabucco, Mingcheng Wang, Rong Lang, Chen Huafang, Marc J. Metzger, Alex Smajgl, Philip Beckschäfer and Xu Jianchu | Year | 2014 | Journal Title | Biological Conservation | Institution | Elsevier Ltd | Volume | 170 | Pages | 264–273 | Call Number | JA0561-14 | Keywords | Climate change, Bioclimatic stratification, Biodiversity conservation, Himalaya | |
Abstract: |
An analysis and multi-model approach, based on a statistically derived Global Environmental Stratification
(GEnS) and using a downscaled ensemble (n = 63) of CIMP5 Earth System Models applied across four
representative concentration pathways (RCP), has been used to project the impact of climate change on
spatial distribution of bioclimatic zones and ecosystems within the biodiverse rich Xishuangbanna
Prefecture, Yunnan Province, by the year 2050. Four bioclimatic zones and 9 strata were identified,
overlaid with protected areas, and associated with on-going landuse change, i.e. a rapid increase in
rubber plantation from 8% to 22% of total area between 2002 and 2010. Significant changes in the areal
extent and distribution of all zones and strata are projected, with an averaged mean annual temperature
increase ranging from 1.6 C to 2.4 C. By 2050, there are significant geographical shifts in all identified
strata, with an average upward shift of 309 m of elevation for all strata. On average, more than 75% of
Xishuangbanna is predicted to shift to a different zone, with 96% shifting to a different stratum. The area
conducive to rubber plantations, currently limited by climatic conditions, expands to nearly 75% of the
total area. Climatic change potentially removes the bioclimatic barriers to further expansion of rubber
plantations within the area and increases pressure on remaining biodiversity both within and outside of
protected areas. The analysis provides the basis for understanding potential impacts of changing bioclimatic
conditions on managed and unmanaged ecosystems and landuse change trends, within the context
of ongoing rapid change and agricultural expansion in the area. Current efforts to conserve forests, biodiversity
and traditional landuse systems require an improved understanding of both the projected climatic
changes and the responses of biodiversity and traditional agricultural systems to changing conditions. |
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