气候变化对鸟类影响的研究进展

doi:10.3724/SP.J.1003.2012.08152

摘要/Abstract

摘要：

气候变化对生物多样性的影响已成为热点问题。本文以鸟类为研究对象, 根据鸟类受气候变化影响的最新研究成果, 综述了气候变化对鸟类的分布、物候和种群等方面的影响。结果表明, 在气候变化影响下, 鸟类分布向高纬度或高海拔区移动, 速度比以往加快, 繁殖地和非繁殖地的分布移动变化并不相同, 并且多数分布范围缩小, 物候期发生复杂变化, 种群数量下降明显。文章还讨论了该领域主要的预测和评估方法, 以及进化适应等生物因素对气候变化预测结果的影响, 除了以往单一的相关性模型外, 目前应用最多的是集成模型, 而未来最具发展潜力的是机理模型。进化适应方面的研究近来取得新进展, 证实了生物个体积极应对气候变化影响的事实, 从而对人为模型预测的准确性带来挑战。文章最后进行了总结和展望, 结合国外研究经验和我国实际情况, 提出一些建议: 由于气候变化的影响及其研究是长期性的, 从而对鸟类的历史监测数据提出很高的要求, 当前我国急需建立一套长期、全面和可靠的鸟类数据监测系统; 此外, 人们需要综合评估现有各种预测模型的可靠性, 在此基础上探索新的研究方法。

关键词: 气候变化, 鸟类, 分布, 物候, 种群

Abstract

The impact of climate change on biodiversity has become a hot issue. This paper reviews the effects of climate change on avian distribution, phenology and population dynamics according to the results of the latest research. Due to climate change, bird distributions have shifted towards high-latitude and high-altitude areas, which is changing more quickly than before. However, the breeding area which bird lived was changed different from the non-breedings. In addition, the ranges of many species have decreased, the timing of oviposition and migration have become more variable, and populations of many species have declined. We also summarize the major methods used to forecast the effects of future climate scenarios on birds, and discuss how evolution, biotic interactions and dispersal ability affect the results of predictions. We found that more and more scientists using the integrated models than the single ones nowadays, a new advice using the mechanistic models has been proved well, and evolution has become a big problem for the prediction from the latest researches. The suggestions are as follows: (1) a system of avian protection should be established as soon as possible in China. (2) people should devise and evaluate some models in research work.

Key words: climate change, birds, distribution, phenology, population

吴伟伟, 徐海根, 吴军, 曹铭昌 (2012) 气候变化对鸟类影响的研究进展. 生物多样性, 20, 108-115. DOI: 10.3724/SP.J.1003.2012.08152.

Weiwei Wu, Haigen Xu, Jun Wu, Mingchang Cao (2012) The impact of climate change on birds: a review. Biodiversity Science, 20, 108-115. DOI: 10.3724/SP.J.1003.2012.08152.

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链接本文: https://www.biodiversity-science.net/CN/10.3724/SP.J.1003.2012.08152

https://www.biodiversity-science.net/CN/Y2012/V20/I1/108

参考文献 96

[1]	Araújo MB, New M (2006) Ensemble forecasting of species distributions. Trends in Ecology and Evolution, 22,42-47. DOI URL PMID
[2]	Araújo MB, Rahbek C (2006) How does climate change affect biodiversity? Science, 313,1396-1397. URL PMID
[3]	Araújo MB, Luoto M (2007) The importance of biotic interac- tions for modelling species distributions under climate change. Global Ecology and Biogeography, 16,743-753.
[4]	Araújo MB, Thuiller W, Yoccoz NG (2009) Reopening the climate envelope reveals macroscale associations with climate in European birds. Proceedings of the National Academy of Sciences, USA, 106,E45-E46.
[5]	Araújo MB, Whittaker RJ, Ladle RJ (2005) Reducing uncertainty in projections of extinction risk from climate change. Global Ecology and Biogeography, 14,529-538.
[6]	Austin GE, Rehfisch MM (2005) Shifting nonbreeding distributions of migratory fauna in relation to climatic change. Global Change Biology, 11,31-38.
[7]	Beale CM, Lennon JJ, Gimona A (2008) Opening the climate envelope reveals no macroscale associations with climate in European birds. Proceedings of the National Academy of Sciences, USA, 105,14908-14912.
[8]	Benning TL, LaPointe D, Atkinson CT, Vitousek PM (2002) Interactions of climate change with biological invasions and land use in the Hawaiian Islands: modeling the fate of endemic birds using a geographic information system. Proceedings of the National Academy of Sciences, USA, 99,14246-14249.
[9]	Both C, Visser ME (2001) Adjustment to climate change is constrained by arrival date in a long-distance migrant bird. Nature, 411,296-298. URL PMID
[10]	Both C, Artemyev AV, Blaauw B, Cowie RJ, Dekhuijzen AJ (2004) Large-scale geographical variation confirms that climate change causes birds to lay earlier. Proceedings of the Royal Society of London, 271,1657-1662.
[11]	Both C, Bouwhis S, Lessells CM, Visser ME (2006) Climate change and population declines in a long-distance migratory bird. Nature, 441,81-83. URL PMID
[12]	Both C, van Turnhout CAM, Bijlsma RG, Siepel H, van Strien AJ, Foppen R (2009) Avian population consequences of climate change are most severe for long-distance migrants in seasonal habitats. Proceedings of the Royal Society B: Biological Sciences, 277,1259-1266. DOI URL PMID
[13]	Brommer JE (2004) The range margins of northern birds shift polewards. Annales Zoologici Fennici, 41,391-397.
[14]	Brooker RW, Travis JMJ, Clark EJ, Dytham C (2007) Modelling species’ range shifts in a changing climate: the impacts of biotic interactions, dispersal distance and the rate of climate change. Journal of Theoretical Biology, 245,59-65. URL PMID
[15]	Brown JL, Li SH, Bhagabati N (1999) Long-tem trend toward earlier breeding in an American bird: a response to global warming? Proceedings of the National Academy of Sciences, USA, 96,5565-5569.
[16]	Buermann W, Chaves J, Dudley R, Mcguire JA, Smith T, Altshuler DL (2011) Projected changes in elevational distribution and flight performance of montane Neotropical hummingbirds in response to climate change. Global Change Biology, 17,1671-1680.
[17]	Butler CJ (2003) The disproportionate effect of global warming on the arrival dates of short-distance migratory birds in North America. Ibis, 145,484-495.
[18]	Charmantier A, McCleery RH, Cole L, Perrins CM, Kruuk LEB, Sheldon BC (2008) Adaptive phenotypic plasticity in response to climate change in a wild bird population. Science, 320,800-803.
[19]	Chen IC, Hill JK, Ohlemüller R, Roy DB, Thomas CD (2011) Rapid range shifts of species associated with high levels of climate warming. Science, 333,1024-1026.
[20]	Coetzee BWT, Robertson MP, Erasmus BFN, van Rensburg BJ, Thuiller W (2009) Ensemble models predict important bird areas in southern Africa will become less effective for conserving endemic birds under climate change. Global Ecology and Biogeography, 18,701-710. DOI URL
[21]	Cotton PA (2003) Avian migration phenology and global climate change. Proceedings of the National Academy of Sciences, USA, 100,12219-12222. DOI URL
[22]	Crick HQP (2004) The impact of climate change on birds. Ibis, 146(Suppl.1),S48-S56.
[23]	Crick HQP, Dudley C, Glue DE (1997) UK birds are laying eggs earlier. Nature, 388,526.
[24]	Doswald N, Willis SG, Collingham YC, Pain DJ, Green RE, Huntley B (2009) Potential impacts of climatic change on the breeding and non-breeding ranges and migration distance of European Sylvia warblers. Journal of Biogeography, 36,1194-1208. DOI URL
[25]	Du Y (杜寅), Zhou F (周放), Shu XL (舒晓莲), Li YL (李一琳) (2009) The impact of global warming on China avifauna. Acta Zootaxonomica Sinica (动物分类学报), 34,664-674. (in Chinese with English abstract)
[26]	Erasmus BFN, Vanjaarsveld AS, Chown SL, Kshatriya M, Wessels KJ (2002) Vulnerability of South African animal taxa to climate change. Global Change Biology, 8,679-693. DOI URL
[27]	Gage GS, Brooke MD, Symonds MRE, Wege D (2004) Ecological correlates of the threat of extinction in Neotropical bird species. Animal Conservation, 7,161-168. DOI URL
[28]	Garamszegi LZ (2011) Climate change increases the risk of malaria in birds. Global Change Biology, 17,1751-1759. DOI URL
[29]	Gasner MR, Jankowski JE, Ciecka AL, Kyle KO, Rabenold KN (2010) Projecting the local impacts of climate change on a Central American montane avian community. Biology Conservation, 143,1250-1258. DOI URL
[30]	Gordo O, Brotons L, Ferrer X, Comas P (2005) Do changes in climate patterns in wintering areas affect the timing of the spring arrival of trans-Saharan migrant birds? Global Change Biology, 11,12-21. DOI URL
[31]	Hampe A (2004) Bioclimate envelope models: what they detect and what they hide. Global Ecology and Biogeography, 13,469-471. DOI URL
[32]	Helmuth B (2009) From cells to coastlines: how can we use physiology to forecast the impacts of climate change? The Journal of Experimental Biology, 212,753-760. DOI URL PMID
[33]	Hickling R, Roy DB, Hill JK, Fox R, Thomas CD (2006) The distributions of a wide range of taxonomic groups are expanding polewards. Global Change Biology, 12,450-455.
[34]	Hijmans RJ, Graham CH (2006) The ability of climate enve- lope models to predict the effect of climate change on spe- cies distributions. Global Change Biology, 12,2272-2281. DOI URL
[35]	Hitch AT, Leberg PL (2007) Breeding distributions of North American bird species moving north as a result of climate change. Conservation Biology, 21,534-539. URL PMID
[36]	Hu J, Hu H, Jiang Z (2010) The impacts of climate change on the wintering distribution of an endangered migratory bird. Oecologia, 164,555-565. URL PMID
[37]	Hubálek Z, Čapek M (2008) Migration distance and the effect of North Atlantic Oscillation on the spring arrival of birds in Central Europe. Folia Zoologica, 57,212-220.
[38]	Hubálek Z (2004) Global weather variability affects avian phenology: a long-term analysis, 1881-2001. Folia Zoologica, 53,227-236.
[39]	Hughes L (2000) Biological consequences of global warming: is the signal already. Trends in Ecology and Evolution, 15,56-61. DOI URL PMID
[40]	Huntley B, Collingham YC, Green RE, Hilton GM, Rahbek C, Willis SG (2006) Potential impacts of climatic change upon geographical distributions of birds. Ibis, 148(Suppl.1),8-28. DOI URL
[41]	Hüppop O, Hüppop K (2003) North Atlantic Oscillation and timing of spring migration in birds. Proceedings of the Royal Society of London, Series B, 270,233-240.
[42]	IPCC Intergovernmental Panel on Climate Change (2007) Climate Change 2007: Impacts, Adaptation and Vulnerability: Fourth Assessment Report of Working Group II. Cambridge University Press, Cambridge, United Kingdom.
[43]	Jenni L, Ké ry M (2003) Timing of autumn bird migration under climate change advances in long-distance migrants, delays in short-distance migrants. Proceedings of the Royal Society of London, Series B, 270,1467-1471.
[44]	Jiménez-Valverde A, Barve N, Lira-Noriega A, Maher SP, Nakazawa Y, Papes M, Sobéron J (2010) Dominant climate influences on North American bird distributions. Global Ecology and Biogeography, 20,114-118.
[45]	Jonzén N, Lindèn A, Ergon T, Knudsen E (2006) Rapid advance of spring arrival dates in long-distance migratory birds. Science, 312,1959-1961. DOI URL PMID
[46]	Karell P, Ahola K, Karstinen T, Valkama J, Brommer JE (2011) Climate change drives microevolution in a wild bird. Nature Communications, 2,208. URL PMID
[47]	Kearney M, Porter W (2009) Mechanistic niche modelling: combining physiological and spatial data to predict species’ ranges. Ecology Letters, 12,334-350. DOI URL PMID
[48]	La Sorte FA, Jetz W (2010) Avian distributions under climate change: towards improved projections. The Journal of Experimental Biology, 213,862-869. DOI URL PMID
[49]	Leech DI, Crick HQP (2007) Influence of climate change on the abundance, distribution and phenology of woodland bird species in temperate regions. Ibis, 149 (Suppl. 2),128-145.
[50]	Lemoine N, Bauer H-G, Peintinger M, Böhning-Gaese K (2007a) Impact of land-use and global climate change on species abundance in a Central European bird community. Conservation Biology, 21,495-503. URL PMID
[51]	Lemoine N, Schaefer H-C, Böhning-Gaese K (2007b) Species richness of migratory birds is influenced by global climate change. Global Ecology and Biogeography, 16,55-64.
[52]	Maggini R, Lehmann A, Kery M, Schmid H, Beniston M, Jenni L, Zbinden N (2011) Are Swiss birds tracking climate change? Detecting elevation shifts using response curve shapes. Ecological Modeling, 222,21-32.
[53]	Marra PP, Francis CM, Mulvihill RS, Moore FR (2005) The influence of climate on the timing and rate of spring bird migration. Oecologia, 142,307-315.
[54]	McKechnie AE, Wolf BO (2010) Climate change increases the likelihood of catastrophic avian mortality events during extreme heat waves. Biology Letters, 6,253-256. URL PMID
[55]	McLaughlin JF, Hellmann JJ, Boggs CL, Ehrlich PR (2002) Climate change hastens population extinctions. Proceedings of the National Academy of Sciences, USA, 99,6070-6074.
[56]	Miller-Rushing AJ, Lloyd-Evans TL, Primack RB, Satzinger P (2008) Bird migration times, climate change and changing population sizes. Global Change Biology, 14,1959-1972.
[57]	Mills AM (2005) Changes in the timing of spring and autumn migration in North American migrant passerines during a period of global warming. Ibis, 147,259-269.
[58]	Møller AP, Rubolini D, Lehikoinen E (2008) Populations of migratory bird species that did not show a phenological response to climate change are declining. Proceedings of the National Academy of Sciences, USA, 105,16195-16200.
[59]	Moore RP, Robinson WD, Lovette IJ, Robinson TR (2008) Experimental evidence for extreme dispersal limitation in tropical forest birds. Ecology Letters, 11,960-968. DOI URL PMID
[60]	Morin X, Viner D, Chuine I (2008) Tree species range shifts at a continental scale: new predictive insights from a process-based model. Journal of Ecology, 96,784-794.
[61]	Parmesan C, Yohe G (2003) A globally coherent fingerprint of climate change impacts across natural systems. Nature, 421,37-42. URL PMID
[62]	Parmesan C (2006) Ecological and evolutionary responses to recent climate change. Annual Review of Ecology, Evolution and Systematics, 37,637-669.
[63]	Pearson RG, Dawson TP (2003) Predicting the impacts of climate change on the distribution of species: are bioclimate envelope models useful? Global Ecology and Biogeography, 12,361-371.
[64]	Peh KSH (2007) Potential effects of climate change on elevational distributions of tropical birds in Southeast Asia. Condor, 109,437-441.
[65]	Peterson AT (2003) Projected climate change effects on Rocky Mountain and Great Plains birds: generalities of biodiversity consequences. Global Change Biology, 9,647-655. DOI URL
[66]	Pimm S, Raven P, Peterson A, Sekercioglu CH, Ehrlich PR (2006) Human impacts on the rates of recent, present, and future bird extinctions. Proceedings of the National Academy of Sciences, USA, 103,10941-10946.
[67]	Pounds JA, Fogden MPL, Campbell JH (1999) Biological response to climate change on a tropical mountain. Nature, 398,611-615.
[68]	Preston K, Rotenberry JT, Redak RA, Allen MF (2008) Habitat shifts of endangered species under altered climate conditions: importance of biotic interactions. Global Change Biology, 14,2501-2515.
[69]	Root TL, Price JT, Hall KR, Schneider SH, Rosenzweig C, Pounds JA (2003) Fingerprints of global warming on wild animals and plants. Nature, 421,57-60. DOI URL PMID
[70]	Sanz JJ, Potti J, Moreno J, Merino S, Frias O (2003) Climate change and fitness components of a migratory bird breeding in the Mediterranean region. Global Change Biology, 9,461-472.
[71]	Sekercioglu CH, Schneider SH, Fay JP, Loarie SR (2008) Climate change, elevational range shifts, and bird extinctions. Conservation Biology, 22,140-150. URL PMID
[72]	Shi JB, Li DQ, Xiao WF (2006) A review of impacts of climate change on birds: implications of long-term studies. Zoological Research, 27,637-646.
[73]	Shoo LP, Williams SE, Hero JM (2005) Climate warming and the rainforest birds of the Australian Wet Tropics: using abundance data as a sensitive predictor of change in total population size. Biological Conservation, 125,335-343.
[74]	Si XF (斯幸峰), Ding P (丁平) (2011) History, status of monitoring land birds in Europe and America and countermeasures of China. Biodiversity Science (生物多样性), 19,303-310. (in Chinese with English abstract)
[75]	Sparks TH, Bairlein F, Bojarinova JG (2005) Examining the total arrival distribution of migratory birds. Global Change Biology, 11,22-30.
[76]	Støkke BG, Moller AP, Saether BE, Goetz R, Gutscher H (2005) Weather in the breeding area and during migration affects the demography of a small long distance passerine migrant. The Auk, 122,637-647.
[77]	Sun QH (孙全辉), Zhang ZW (张正旺) (2000) The impact of climate warming on the distribution of Chinese birds. Chinese Journal of Zoology (动物学杂志), 35(6),45-48. (in Chinese with English abstract)
[78]	Thomas CD, Lennon JJ (1999) Birds extend their ranges northwards. Nature, 399,213.
[79]	Thomas CD, Cameron A, Green RE (2004) Extinction risk from climate change. Nature, 427,145-148. URL PMID
[80]	Thuiller W (2004) Patterns and uncertainties of species’ range shifts under climate change. Global Change Biology, 10,2020-2027.
[81]	Thuiller W (2007) Biodiversity: climate change and the ecologist. Nature, 448,550-552. DOI URL PMID
[82]	Tryjanowski P, Kuzniak S, Sparks TH (2005) What affects the magnitude of change in first arrival dates of migrant birds? Journal of Ornithology, 146,200-205.
[83]	Vahatalo AV, Rainio K, Lehikoinen A, Lehikoinen E (2004) Spring arrival of birds depends on the North Atlantic Oscillation. Journal of Avian Biology, 35,210-216.
[84]	Valiela I, Bowen JL (2003) Shifts in winter distributions in birds: effect of global warming and local habitat change. Ambio: A Journal of the Human Environment, 32,476-480.
[85]	Végvári Z, Bókony V, Barta Z, Kovács G (2010) Life history predicts advancement of avian spring migration in response to climate change. Global Change Biology, 16,1-11.
[86]	Virkkala R, Heikkinen RK, Leikola N, Luoto M (2008) Projected large-scale range reductions of northern-boreal land bird species due to climate change. Biological Conservation, 141,1343-1353.
[87]	Visser ME, Both C (2005) Shifts in phenology due to global climate change: the need for a yardstick. Proceedings of the Royal Society of London, Series B, 272,2561-2569.
[88]	Visser ME, Both C, Lambrechts MM (2004) Global climate change leads to mistimed avian reproduction. Advances in Ecological Research, 35,89-110.
[89]	Visser ME, Holleman LJM, Gienapp P (2006) Shifts in caterpillar biomass phenology due to climate change and its impact on the breeding biology of an insectivorous bird. Oecologia, 147,164-172. DOI URL PMID
[90]	Visser ME, Perdeck AC, van Balen JH, Both C (2009) Climate change leads to decreasing bird migration distances. Global Change Biology, 15,1859-1865.
[91]	Walther G-R, Post E, Convey P (2002) Ecological responses to recent climate change. Nature, 416,389-395. DOI URL PMID
[92]	Williams SE, Bolitho EE, Fox S (2003) Climate change in Australian tropical rainforests: an impending environmental catastrophe. Proceedings of the Royal Society B: Biological Sciences, 270,1887-1892. DOI URL PMID
[93]	Willis KJ, Bhagwat SA (2009) Biodiversity and climate change. Science, 326,806-807. URL PMID
[94]	Wormworth J, Mallon K (2006) Bird Species and Climate Change: The Global Status Report. http://wwf.panda.org/about_our_earth/aboutcc/problems/impacts/species/cc_and_birds/. (accessed 2011-8-08)
[95]	Wormworth J, Mallon K (2007) Bird Species and Climate Change: A Summary of The Global Status Report. http://wwf.panda.org/about_our_earth/aboutcc/problems/impacts/species/cc_and_birds/. (accessed 2011-8-08)
[96]	Žalakevicius M, Švažas S (2005) Global climate change and its impact on wetlands and waterbird populations. Acta Zoologica Lituanica, 15,215-217.