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Wiley InterScience | ||||||||||||||||||||||||||||||
  Conservation BiologyVolume 22 Issue 1, Pages 140 - 150 Published Online: 7 Dec 2007 ©2010, Society for Conservation Biology Published on behalf of the Society for Conservation Biology
Abstract | References | Full Text: HTML, PDF (Size: 331K) | Supporting Information | Related Articles | Citation Tracking 
Contributed Paper
Climate Change, Elevational Range Shifts, and Bird Extinctions Copyright 2008 Society for Conservation Biology KEYWORDS biodiversity • avian biogeography • extinction likelihood • GIS • global warming • lapse rates • macroecology • mountain endemics • ornithology • tropical forests KEYWORDS biogeografía • bosques tropicales • calentamiento global • endémicos de montaña • SIG • tasas de abatimiento ABSTRACTAbstract: Limitations imposed on species ranges by the climatic, ecological, and physiological effects of elevation are important determinants of extinction risk. We modeled the effects of elevational limits on the extinction risk of landbirds, 87% of all bird species. Elevational limitation of range size explained 97% of the variation in the probability of being in a World Conservation Union category of extinction risk. Our model that combined elevational ranges, four Millennium Assessment habitat-loss scenarios, and an intermediate estimate of surface warming of 2.8° C, projected a best guess of 400–550 landbird extinctions, and that approximately 2150 additional species would be at risk of extinction by 2100. For Western Hemisphere landbirds, intermediate extinction estimates based on climate-induced changes in actual distributions ranged from 1.3% (1.1° C warming) to 30.0% (6.4° C warming) of these species. Worldwide, every degree of warming projected a nonlinear increase in bird extinctions of about 100–500 species. Only 21% of the species predicted to become extinct in our scenarios are currently considered threatened with extinction. Different habitat-loss and surface-warming scenarios predicted substantially different futures for landbird species. To improve the precision of climate-induced extinction estimates, there is an urgent need for high-resolution measurements of shifts in the elevational ranges of species. Given the accelerating influence of climate change on species distributions and conservation, using elevational limits in a tested, standardized, and robust manner can improve conservation assessments of terrestrial species and will help identify species that are most vulnerable to global climate change. Our climate-induced extinction estimates are broadly similar to those of bird species at risk from other factors, but these estimates largely involve different sets of species. ABSTRACTResumen: Las limitaciones en la distribución de especies impuestas por los efectos climáticos, ecológicos y fisiológicos de la altitud son determinantes importantes del riesgo de extinción. Modelamos los efectos de los límites altitudinales sobre el riesgo de extinción de aves terrestres, 87% del total de especies de aves. La limitación altitudinal del rango de distribución explicó 97% de la variación en la probabilidad de estar en una categoría de riesgo de extinción de la Unión Mundial para la Conservación (IUCN). Mediante un modelo que combinó limitaciones altitudinales, escenarios de pérdida de hábitat de la Evaluación 4 Milenio y una estimación intermedia de calentamiento superficial de 2.8° C, se estimaron entre 400 y 550 extinciones de aves terrestres y que aproximadamente 2500 especies adicionales estarían en riesgo de extinción en 2100. Para aves terrestres del Hemisferio Occidental, las estimaciones de extinciones intermedias basadas en cambios inducidos por el clima en las distribuciones actuales variaron entre 1.3% (calentamiento: 1.1° C) y 30.0% (calentamiento: 6.4° C) de estas especies. A nivel mundial, cada grado de calentamiento proyectó un incremento no lineal en las extinciones de 100 a 500 especies. Solo 21% de las especies cuya extinción se pronosticó en nuestros escenarios están consideradas como amenazadas de extinción actualmente. Escenarios diferentes de pérdida de hábitat y de calentamiento superficial pronosticaron futuros sustancialmente diferentes para las especies de aves terrestres. Para mejorar la precisión de las estimaciones de extinciones inducidas por el clima, hay una urgente necesidad de medidas de alta resolución de los desplazamientos de los rangos altitudinales de las especies. Dada la acelerada influencia del cambio climático sobre la distribución y conservación de especies, el uso de límites altitudinales en una forma probada, estandarizada y robusta puede mejorar las evaluaciones de conservación de especies terrestres y ayudará a identificar especies que son más vulnerables al cambio climático global. Nuestras estimaciones de extinciones inducidas por el clima son similares a las de especies en riesgo por otros factores, y principalmente involucran diferentes conjuntos de especies. Paper submitted April 1, 2007; revised manuscript accepted August 20, 2007. | 
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Free Article from Conservation Biology |  |
The article One Hundred Questions of Importance to the Conservation of Global Biological Diversity is now available FREE online. | |
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Conservation Letters |
Conservation Letters is a new, online-only scientific journal publishing empirical and theoretical research with significant implications for the conservation of biological diversity. |
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Conservation |
Conservation is a sophisticated, readable, and utterly practical magazine for people who are serious about conservation. |
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This issue of Journal of Social Issues focuses on human attitudes toward the use of other species, the effects of relationships with companion animals on human health and well-being, and the ethical and policy implications of our interactions with other species. | |
