Effects of climate change on species distribution, community structure, and conservation of birds in protected areas in Colombia

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• 作者：Jorge Velásquez-Tibatá (1)
  Paul Salaman (2)
  Catherine H. Graham (1)
  
• 关键词：Conservation ; Species distribution modeling ; Tropical Andes hotspot ; Tumbes ; Choco ; Magdalena hotspot
• 刊名：Regional Environmental Change
• 出版年：2013
• 出版时间：April 2013
• 年：2013
• 卷：13
• 期：2
• 页码：235-248
• 全文大小：822 KB
• 参考文献：1. Ak?akaya HR, Butchart SHM, Mace GM, Stuart SN, Hilton-Taylor C (2006) Use and misuse of the IUCN Red List Criteria in projecting climate change impacts on biodiversity. Global Chang Biol 12(11):2037-043 CrossRef
  2. Anci?es M, Peterson AT (2006) Climate change effects on Neotropical manakin diversity based on ecological niche modeling. Condor 108(4):778-91 CrossRef
  3. Anderson RP, Peterson AT, Gómez-Laverde M (2002) Using niche-based GIS modeling to test geographic predictions of competitive exclusion and competitive release in South American pocket mice. Oikos 98(1):3-6 CrossRef
  4. Araújo MB, Luoto M (2007) The importance of biotic interactions for modelling species distributions under climate change. Glob Ecol Biogeogr 16(6):743-53 CrossRef
  5. Araújo MB, Cabeza M, Thuiller W, Hannah L, Williams PH (2004) Would climate change drive species out of reserves? An assessment of existing reserve-selection methods. Global Chang Biol 10(9):1618-626 CrossRef
  6. Araújo MB, Whittaker RJ, Ladle RJ, Erhard M (2005) Reducing uncertainty in projections of extinction risk from climate change. Glob Ecol Biogeogr 14(6):529-38 CrossRef
  7. Araújo MB, Alagador D, Cabeza M, Nogués-Bravo D, Thuiller W (2011) Climate change threatens European conservation areas. Ecol Lett 14(5):484-92 CrossRef
  8. Balanya J, Oller JM, Huey RB, Gilchrist GW, Serra L (2006) Global genetic change tracks global climate warming in Drosophila subobscura. Science 313(5794):1773-775 CrossRef
  9. Beaumont LJ, Pitman AJ, Poulsen M, Hughes L (2007) Where will species go? Incorporating new advances in climate modelling into projections of species distributions. Glob Chang Biol 13(7):1368-385 CrossRef
  10. BirdLife International (2008) The BirdLife checklist of the birds of the world, with conservation status and taxonomic sources. Version 1. BirdLife International. http://www.birdlife.org/datazone/species/downloads/BirdLife_Checklist_Version_1.zip. Accessed 2 August 2008
  11. Brommer JE, Rattiste K, Wilson AJ (2008) Exploring plasticity in the wild: laying date-temperature reaction norms in the common gull Larus canus. Proc R Soc B Biol Sci 275(1635):687-93 CrossRef
  12. Brooks T, De Silva N, Foster M, Hoffmann M, Knox D, Langhammer P, Pilgrim J, Ratledge N, Sweeting A (2009) Biodiversity Hotspots. Conservation International. http://www.biodiversityhotspots.org. Accessed 3 March 2009
  13. Byars SG, Papst W, Hoffmann AA (2007) Local adaptation and cogradient selection in the alpine plant, Poa hiemata, along a narrow altitudinal gradient. Evolution 61(12):2925-941 CrossRef
  14. Cadena CD, Loiselle BA (2007) Limits to elevational distributions in two species of emberizine finches: disentangling the role of interspecific competition, autoecology, and geographic variation in the environment. Ecography 30(4):491-04
  15. Chen I-C, Shiu H-J, Benedick S, Holloway JD, Chey VK, Barlow HS, Hill JK, Thomas CD (2009) Elevation increases in moth assemblages over 42?years on a tropical mountain. Proc Nat Acad Sci. doi:10.1073/pnas.0809320106
  16. Chen I-C, Hill JK, Ohlemüller R, Roy DB, Thomas CD (2011) Rapid range shifts of species associated with high levels of climate warming. Science 333(6045):1024-026 CrossRef
  17. Coope GR (2004) Several million years of stability among insect species because of, or in spite of, Ice Age climatic instability? Philos Trans R Soc Lond Ser B Biol Sci 359(1442):209-14 CrossRef
  18. Cordellier M, Pfenninger M (2009) Inferring the past to predict the future: climate modelling predictions and phylogeography for the freshwater gastropod Radix balthica (Pulmonata, Basommatophora). Mol Ecol 18(3):534-44 CrossRef
  19. Dávalos LM, Bejarano AC, Hall MA, Correa HL, Corthals A, Espejo OJ (2011) Forests and drugs: coca-driven deforestation in tropical biodiversity hotspots. Environ Sci Technol 45(4):1219-227 CrossRef
  20. Davis AJ, Jenkinson LS, Lawton JH, Shorrocks B, Wood S (1998) Making mistakes when predicting shifts in species range in response to global warming. Nature 391(6669):783-86 CrossRef
  21. Dudley N (2008) Guidelines for applying protected area management categories. Gland, Switzerland CrossRef
  22. Elith J, Graham CH, Anderson RP, Dudik M, Ferrier S, Guisan A, Hijmans RJ, Huettmann F, Leathwick JR, Lehmann A, Li J, Lohmann LG, Loiselle BA, Manion G, Moritz C, Nakamura M, Nakazawa Y, Overton JM, Peterson AT, Phillips SJ, Richardson K, Scachetti-Pereira R, Schapire RE, Soberon J, Williams S, Wisz MS, Zimmermann NE (2006) Novel methods improve prediction of species-distributions from occurrence data. Ecography 29(2):129-51 CrossRef
  23. Elith J, Kearney M, Phillips S (2010) The art of modelling range-shifting species. Methods Ecol Evol 1(4):330-42 CrossRef
  24. Elith J, Phillips SJ, Hastie T, Dudík M, Chee YE, Yates CJ (2011) A statistical explanation of MaxEnt for ecologists. Divers Distrib 17(1):43-7 CrossRef
  25. Eva HD, de Miranda EE, Di Bella CM, Gond V, Huber O, Sgrenzaroli M, Jones S, Coutinho A, Dorado A, Guimar?es M, Elvidge C, Achard F, Belward AS, Bartholomé E, Baraldi A, De Grandi G, Vogt P, Fritz S, Hartley A (2002) A vegetation map of South America. Publications of the European Commission, Luxembourg
  26. Forero-Medina G, Joppa L, Pimm SL (2011) Constraints to species-elevational range shifts as climate changes. Conserv Biol 25(1):163-71 CrossRef
  27. Franco P, Saavedra-Rodriguez CA, Kattan GH (2007) Bird species diversity captured by protected areas in the Andes of Colombia: a gap analysis. Oryx 41(1):57-3 CrossRef
  28. Gaston KJ (1994) Rarity. Chapman and Hall, London CrossRef
  29. Ghalambor CK, McKay JK, Carroll SP, Reznick DN (2007) Adaptive versus non-adaptive phenotypic plasticity and the potential for contemporary adaptation in new environments. Funct Ecol 21(3):394-07 CrossRef
  30. Graham CH, Silva N, Velásquez-Tibatá J (2010) Evaluating the potential causes of range limits of Andean birds. J Biogeogr 37(10):1863-875
  31. Graham CH, Loiselle BA, Velásquez-Tibatá J, Cuesta F (2011) Species distribution modeling and the challenge of predicting future distributions. In: Herzog SK, Martínez R, J?rgensen PM, Tiessen H (eds) Climate change and biodiversity in the tropical Andes. IAI-SCOPE, S?o José dos Campos, Brazil, pp 295-10
  32. Green RE, Collingham YC, Willis SG, Gregory RD, Smith KW, Huntley B (2008) Performance of climate envelope models in retrodicting recent changes in bird population size from observed climatic change. Biol Lett 4(5):599-02 CrossRef
  33. Guisan A, Zimmermann NE (2000) Predictive habitat distribution models in ecology. Ecol Model 135(2-):147-86 CrossRef
  34. Hannah L, Midgley G, Andelman S, Araújo M, Hughes G, Martinez-Meyer E, Pearson R, Williams P (2007) Protected area needs in a changing climate. Front Ecol Environ 5(3):131-38 CrossRef
  35. Heikkinen RK, Luoto M, Araújo MB, Virkkala R, Thuiller W, Sykes MT (2006) Methods and uncertainties in bioclimatic envelope modelling under climate change. Prog Phys Geogr 30(6):751-77 CrossRef
  36. Hijmans RJ, Cameron SE, Parra JL, Jones PG, Jarvis A (2005) Very high resolution interpolated climate surfaces for global land areas. Int J Climatol 25(15):1965-978 CrossRef
  37. Hilty SL, Brown B (1986) A guide to the birds of Colombia. Princeton University Press, Princeton, NJ
  38. Hilty SL, Meyer de Schauensee R (2003) Birds of Venezuela, 2nd edn. Princeton University Press, Princeton
  39. Hoffmann D, Oetting I, Alberto-Arnillas C, Ulloa R (2011) Climate change and protected areas in the tropical Andes. In: Herzog SK, Martínez R, J?rgensen PM, Tiessen H (eds) Climate change and biodiversity in the tropical Andes. IAI-SCOPE, S?o José dos Campos, Brazil, pp 311-25
  40. Houghton JT, Ding Y, Griggs DJ, Noguer M, van der Linden PJ, Dai X, Maskell K, Johnson CA (eds) (2001) Climate change 2001: the scientific basis. Contribution of working group I to the third assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge, UK
  41. Huntley B, Webb T III (1989) Migration: species-response to climatic variation cased by changes in the earth’s orbit. J Biogeogr 16(1):5-9 CrossRef
  42. IDEAM (2010) Informe Anual sobre el Estado del Medio Ambiente y los Recursos Naturales Renovables en Colombia—Bosques 2009. Instituto de Hidrologia, Meteorología y Estudios Ambientales, Bogotá DC
  43. IUCN (2001) IUCN red list categories and criteria, 3.1 edn. IUCN–The World Conservation Union, Gland, Switzerland
  44. IUCN SPSC (2010) Guidelines for using the IUCN red list categories and criteria. Version 8.1
  45. Iverson LR, Prasad AM, Matthews SN, Peters M (2008) Estimating potential habitat for 134 eastern US tree species under six climate scenarios. For Ecol Manag 254(3):390-06 CrossRef
  46. Kearney M, Porter W (2009) Mechanistic niche modelling: combining physiological and spatial data to predict species-ranges. Ecol Lett 12(4):334-50 CrossRef
  47. Keith DA, Akcakaya HR, Thuiller W, Midgley GF, Pearson RG, Phillips SJ, Regan HM, Araújo MB, Rebelo TG (2008) Predicting extinction risks under climate change: coupling stochastic population models with dynamic bioclimatic habitat models. Biol Lett 4(5):560-63 CrossRef
  48. Klein C, Wilson K, Watts M, Stein J, Berry S, Carwardine J, Smith MS, Mackey B, Possingham H (2009) Incorporating ecological and evolutionary processes into continental-scale conservation planning. Ecol Appl 19(1):206-17 CrossRef
  49. Latimer AM, Banerjee S, Sang H, Mosher ES, Silander JA (2009) Hierarchical models facilitate spatial analysis of large data sets: a case study on invasive plant species in the northeastern United States. Ecol Lett 12(2):144-54 CrossRef
  50. Loarie SR, Carter BE, Hayhoe K, McMahon S, Moe R, Knight CA, Ackerly DD (2008) Climate change and the future of California’s endemic flora. PLoS One 3(6):e2502 CrossRef
  51. Loiselle BA, Graham CH, Goerck JM, Ribeiro MC (2010) Assessing the impact of deforestation and climate change on the range size and environmental nice of bird species in the Atlantic forests, Brazil. J Biogeogr 37(7):1288-301 CrossRef
  52. Malcolm JR, Liu CR, Neilson RP, Hansen L, Hannah L (2006) Global warming and extinctions of endemic species from biodiversity hotspots. Conserv Biol 20(2):538-48 CrossRef
  53. Manne LL, Pimm SL (2001) Beyond eight forms of rarity: which species are threatened and which will be next? Anim Conserv 4:221-29 CrossRef
  54. McGarigal K, Cushman SA, Neel MC, Ene E (2002) FRAGSTATS: spatial pattern analysis program for categorical maps. University of Massachusetts, Amherst
  55. Myers N, Mittermeier RA, Mittermeier CG, da Fonseca GAB, Kent J (2000) Biodiversity hotspots for conservation priorities. Nature 403(6772):853-58 CrossRef
  56. Nakicenovic N, Swart R (eds) (2000) Special report on emissions scenarios: a special report of Working Group III of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge
  57. Olson DM, Dinerstein E (1998) The global 200: A representation approach to conserving the Earth’s most biologically valuable ecoregions. Conserv Biol 12(3):502-15 CrossRef
  58. Paynter RA (1982) Ornithological gazetteer of Venezuela. Museum of Comparative Zoology. Harvard University, Cambridge, MA CrossRef
  59. Paynter RA (1997) Ornithological gazetteer of Colombia. Museum of Comparative Zoology. Harvard University, Cambridge, MA CrossRef
  60. Paynter RA, Traylor MA (1977) Ornithological gazetteer of Ecuador. Museum of Comparative Zoology. Harvard University, Cambridge, MA
  61. Pearson RG, Dawson TP (2003) Predicting the impacts of climate change on the distribution of species: are bioclimate envelope models useful? Glob Ecol Biogeogr 12(5):361-71 CrossRef
  62. Pearson RG, Raxworthy CJ, Nakamura M, Peterson AT (2007) Predicting species distributions from small numbers of occurrence records: a test case using cryptic geckos in Madagascar. J Biogeogr 34(1):102-17 CrossRef
  63. Peh KSH (2007) Potential effects of climate change of elevational distributions of tropical birds in Southeast Asia. Condor 109(2):437-41 CrossRef
  64. Peterson AT, Ortega-Huerta MA, Bartley J, Sanchez-Cordero V, Soberon J, Buddemeier RH, Stockwell DRB (2002) Future projections for Mexican faunas under global climate change scenarios. Nature 416(6881):626-29 CrossRef
  65. Phillips SJ, Dudik M (2008) Modeling of species distributions with Maxent: new extensions and a comprehensive evaluation. Ecography 31(2):161-75 CrossRef
  66. Phillips SJ, Anderson RP, Schapire RE (2006) Maximum entropy modeling of species geographic distributions. Ecol Model 190(3-):231-59 CrossRef
  67. Phillips SJ, Williams P, Midgley G, Archer A (2008) Optimizing dispersal corridors for the cape proteaceae using network flow. Ecol Appl 18(5):1200-211 CrossRef
  68. Raxworthy CJ, Pearson RG, Rabibisoa N, Rakotondrazafy AM, Ramanamanjato JB, Raselimanana AP, Wu S, Nussbaum RA, Stone DA (2008) Extinction vulnerability of tropical montane endemism from warming and upslope displacement: a preliminary appraisal for the highest massif in Madagascar. Global Chang Biol 14(8):1703-720 CrossRef
  69. Remsen JV, Cardiff SW (1990) Patterns of elevational and latitudinal distribution, including a niche switch in some guans (Cracidae) of the Andes. Condor 92(4):970-81 CrossRef
  70. Renjifo LM, Kattan GH, Kattan GH, López-Lánus B (eds) (2002) Libro rojo de aves de Colombia. Instituto de Investigaciones Biologicas Alexander von Humboldt, Bogotá DC
  71. Ridgely RS, Greenfield PJ (2001) The birds of Ecuador. Comstock Pub, Ithaca
  72. Ridgely RS, Tudor G, Brown WL (1989) The birds of South America, vol 1. University of Texas Press, Austin
  73. Ridgely RS, Tudor G, Brown WL (1994) The birds of South America, vol 2. Austin, TX
  74. Seimon TA, Seimon A, Daszak P, Halloy SRP, Schloegel LM, Aguilar CA, Sowell P, Hyatt AD, Konecky B, Simmons EJ (2007) Upward range extension of Andean anurans and chytridiomycosis to extreme elevations in response to tropical deglaciation. Glob Chang Biol 13(1):288-99 CrossRef
  75. Sokal RR, Rohlf FJ (1995) Biometry. W.H. Freeman and Company, New York
  76. Solomon S, Qin D, Manning M, Chen Z, Marquis M, Averyt KB, Tignor M, Miller HL (eds) (2007) Climate change 2007: the physical science basis. Contribution of working group I to the fourth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge, UK
  77. Stattersfield AJ, Crosby MJ, Long AJ, Wege DC (1998) Endemic bird areas of the world: priorities for biodiversity conservation. BirdLife International, Cambridge
  78. Stotz DF, Fitzpatrick JW, Parker TA III, Moskovits DK (1996) Neotropical birds: ecology and conservation. University of Chicago Press, Chicago
  79. Stralberg D, Jongsomjit D, Howell CA, Snyder MA, Alexander JD, Wiens JA, Root TL (2009) Re-shuffling of species with climate disruption: a no-analog future for California birds? PLoS One 4(9):e6825 CrossRef
  80. Terborgh J, Weske JS (1975) Role of competition in distribution of Andean birds. Ecology 56(3):562-76 CrossRef
  81. Thomas CD, Cameron A, Green RE, Bakkenes M, Beaumont LJ, Collingham YC, Erasmus BFN, de Siqueira MF, Grainger A, Hannah L, Hughes L, Huntley B, van Jaarsveld AS, Midgley GF, Miles L, Ortega-Huerta MA, Peterson AT, Phillips OL, Williams SE (2004) Extinction risk from climate change. Nature 427(6970):145-48 CrossRef
  82. Thuiller W, Broennimann O, Hughes G, Alkemade JRM, Midgley GF, Corsi F (2006) Vulnerability of African mammals to anthropogenic climate change under conservative land transformation assumptions. Glob Chang Biol 12(3):424-40 CrossRef
  83. Thuiller W, Albert C, Araújo MB, Berry PM, Cabeza M, Guisan A, Hickler T, Midgely GF, Paterson J, Schurr FM, Sykes MT, Zimmermann NE (2008) Predicting global change impacts on plant species-distributions: future challenges. Perspect Plant Ecol Evol Syst 9(3-):137-52 CrossRef
  84. Vásquez VH, Serrano MA (2009) Las áreas naturales protegidas de Colombia. Conservación Internacional, Bogotá
  85. Williams P, Hannah L, Andelman S, Midgley G, Araújo M, Hughes G, Manne L, Martinez-Meyer E, Pearson R (2005) Planning for climate change: identifying minimum-dispersal corridors for the Cape proteaceae. Conserv Biol 19(4):1063-074 CrossRef
  86. Young BF, Franke I, Hernandez PA, Herzog SK, Paniagua L, Tovar C, Valqui T (2009) Using spatial models to predict areas of endemism and gaps in the protection of Andean slope birds. Auk 126(3):554-65 CrossRef
  
• 作者单位：Jorge Velásquez-Tibatá (1)
  Paul Salaman (2)
  Catherine H. Graham (1)
  
  1. Department of Ecology and Evolution, Stony Brook University, Stony Brook, NY, 11794-5245, USA
  2. World Land Trust-US, 2806 P Street, NW, Washington, DC, 20007, USA
  
• ISSN：1436-378X

文摘

Climate change is expected to cause shifts in species distributions worldwide, threatening their viability due to range reductions and altering their representation in protected areas. Biodiversity hotspots might be particularly vulnerable to climate change because they hold large numbers of species with small ranges which could contract even further as species track their optimal habitat. In this study, we assessed the extent to which climate change could cause distribution shifts in threatened and range-restricted birds in Colombia, a megadiverse region that includes the Tropical Andes and Tumbes-Choco-Magdalena hotspots. To evaluate how climate change might influence species in this region, we developed species distribution models using MAXENT. Species are projected to lose on average between 33 and 43?% of their total range under future climate, and up to 18 species may lose their climatically suitable range completely. Species whose suitable climate is projected to disappear occur in mountainous regions, particularly isolated ranges such as the Sierra Nevada de Santa Marta. Depending on the representation target considered, between 46 and 96?% of the species evaluated may be adequately represented in protected areas. In the future, the fraction of species potentially adequately represented is projected to decline to 30-5?%. Additional protected areas may help to retain representativeness of protected areas, but monitoring of species projected to have the largest potential declines in range size will be necessary to assess the need of implementing active management strategies to counteract the effects of climate change.