Diverging responses of tropical Andean biomes under future climate conditions

Observations and projections for mountain regions show a strong tendency towards upslope displacement of their biomes under future climate conditions. Because of their climatic and topographic heterogeneity, a more complex response is expected for biodiversity hotspots such as tropical mountain regi...

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Veröffentlicht in:	PloS one 2013-05, Vol.8 (5), p.e63634
Hauptverfasser:	Tovar, Carolina, Arnillas, Carlos Alberto, Cuesta, Francisco, Buytaert, Wouter
Format:	Artikel
Sprache:	eng
Schlagworte:	Altitude Biodiversity Biodiversity hot spots Biology Biomes Boundaries Climate Change Climate models Climatic conditions Conservation conservation science Displacement Earth Sciences Ecosystem Ecosystems ENVIRONMENTAL SCIENCES Flowers & plants Forests Future climates Global climate Global climate models Global temperature changes Grasslands humidity Ice Land use Land use management Models, Theoretical Mountain regions Mountains paleoclimatology Precipitation Regression analysis Reproducibility of Results South America Target recognition Tropical Climate Uncertainty analysis
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description	Observations and projections for mountain regions show a strong tendency towards upslope displacement of their biomes under future climate conditions. Because of their climatic and topographic heterogeneity, a more complex response is expected for biodiversity hotspots such as tropical mountain regions. This study analyzes potential changes in the distribution of biomes in the Tropical Andes and identifies target areas for conservation. Biome distribution models were developed using logistic regressions. These models were then coupled to an ensemble of 8 global climate models to project future distribution of the Andean biomes and their uncertainties. We analysed projected changes in extent and elevational range and identified regions most prone to change. Our results show a heterogeneous response to climate change. Although the wetter biomes exhibit an upslope displacement of both the upper and the lower boundaries as expected, most dry biomes tend to show downslope expansion. Despite important losses being projected for several biomes, projections suggest that between 74.8% and 83.1% of the current total Tropical Andes will remain stable, depending on the emission scenario and time horizon. Between 3.3% and 7.6% of the study area is projected to change, mostly towards an increase in vertical structure. For the remaining area (13.1%-17.4%), there is no agreement between model projections. These results challenge the common believe that climate change will lead to an upslope displacement of biome boundaries in mountain regions. Instead, our models project diverging responses, including downslope expansion and large areas projected to remain stable. Lastly, a significant part of the area expected to change is already affected by land use changes, which has important implications for management. This, and the inclusion of a comprehensive uncertainty analysis, will help to inform conservation strategies in the Tropical Andes, and to guide similar assessments for other tropical mountains.
doi_str_mv	10.1371/journal.pone.0063634
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Because of their climatic and topographic heterogeneity, a more complex response is expected for biodiversity hotspots such as tropical mountain regions. This study analyzes potential changes in the distribution of biomes in the Tropical Andes and identifies target areas for conservation. Biome distribution models were developed using logistic regressions. These models were then coupled to an ensemble of 8 global climate models to project future distribution of the Andean biomes and their uncertainties. We analysed projected changes in extent and elevational range and identified regions most prone to change. Our results show a heterogeneous response to climate change. Although the wetter biomes exhibit an upslope displacement of both the upper and the lower boundaries as expected, most dry biomes tend to show downslope expansion. Despite important losses being projected for several biomes, projections suggest that between 74.8% and 83.1% of the current total Tropical Andes will remain stable, depending on the emission scenario and time horizon. Between 3.3% and 7.6% of the study area is projected to change, mostly towards an increase in vertical structure. For the remaining area (13.1%-17.4%), there is no agreement between model projections. These results challenge the common believe that climate change will lead to an upslope displacement of biome boundaries in mountain regions. Instead, our models project diverging responses, including downslope expansion and large areas projected to remain stable. Lastly, a significant part of the area expected to change is already affected by land use changes, which has important implications for management. 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(Perú)</aucorp><aucorp>Univ. of Oxford (United Kingdom)</aucorp><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Diverging responses of tropical Andean biomes under future climate conditions</atitle><jtitle>PloS one</jtitle><addtitle>PLoS One</addtitle><date>2013-05-07</date><risdate>2013</risdate><volume>8</volume><issue>5</issue><spage>e63634</spage><pages>e63634-</pages><issn>1932-6203</issn><eissn>1932-6203</eissn><abstract>Observations and projections for mountain regions show a strong tendency towards upslope displacement of their biomes under future climate conditions. 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Despite important losses being projected for several biomes, projections suggest that between 74.8% and 83.1% of the current total Tropical Andes will remain stable, depending on the emission scenario and time horizon. Between 3.3% and 7.6% of the study area is projected to change, mostly towards an increase in vertical structure. For the remaining area (13.1%-17.4%), there is no agreement between model projections. These results challenge the common believe that climate change will lead to an upslope displacement of biome boundaries in mountain regions. Instead, our models project diverging responses, including downslope expansion and large areas projected to remain stable. Lastly, a significant part of the area expected to change is already affected by land use changes, which has important implications for management. This, and the inclusion of a comprehensive uncertainty analysis, will help to inform conservation strategies in the Tropical Andes, and to guide similar assessments for other tropical mountains.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>23667651</pmid><doi>10.1371/journal.pone.0063634</doi><tpages>e63634</tpages><oa>free_for_read</oa></addata></record>
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subjects	Altitude Biodiversity Biodiversity hot spots Biology Biomes Boundaries Climate Change Climate models Climatic conditions Conservation conservation science Displacement Earth Sciences Ecosystem Ecosystems ENVIRONMENTAL SCIENCES Flowers & plants Forests Future climates Global climate Global climate models Global temperature changes Grasslands humidity Ice Land use Land use management Models, Theoretical Mountain regions Mountains paleoclimatology Precipitation Regression analysis Reproducibility of Results South America Target recognition Tropical Climate Uncertainty analysis
title	Diverging responses of tropical Andean biomes under future climate conditions
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