气候变化下大兴安岭地区鹤类潜在分布及优先保护区
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摘要
为了解气候变化对大兴安岭地区鹤类潜在分布的影响,促进其有效保护,本文以大兴安岭地区6种鹤为研究对象,基于Pearson相关性分析和Jackknife分析,筛选气候、地形和植被类型等关键环境因子,采用MaxEnt模型模拟了当前和未来两种气候变化情景(RCP4.5和8.5)下6种鹤的潜在分布区域,通过Zonation和ArcGIS软件确定了其优先保护区域并分析了目标优先保护区域.结果表明:当前气候条件下,6种鹤的潜在适宜生境集中分布于大兴安岭中部和西北部;RCP4.5和RCP8.5气候情景下,6种鹤的高适宜生境将缩减.白头鹤、丹顶鹤、白枕鹤、灰鹤和蓑羽鹤的潜在适宜生境整体呈缩减趋势,而白鹤的潜在适宜生境将比当前扩张5.4%~6.3%;当前及未来气候条件下,6种鹤的优先保护区域主要分布于大兴安岭的西北部、东南部以及中部偏西地区,目标优先保护区域的保护率达20.1%~23.8%,保护空缺主要分布于漠河县西部、额尔古纳市中部偏北地区、根河市中东部、牙克石市东北部和鄂伦春自治旗南部,建议适当增加保护地面积,为鹤类的有效保护提供保障.
To clarify the impacts of climate change on the potential distribution of six crane species in the Great Xing'an Mountains region, and promote the effective protection of these species, we selected key environmental variables such as climate, topography, and vegetation type based on Pearson correlation and Jackknife analysis, and modeled the potential distribution of six crane species in the Great Xing'an Mountains using MaxEnt with the current and the future climate change scenarios(RCP4.5 and RCP8.5). We identified the priority protection areas(PPAs) and the target PPAs by zonation and ArcGIS. The results showed that with the current climate condition, the sui-table habitats of these species were mainly distributed in the central and the northwest part of the Great Xing'an Mountains. With RCP4.5 and RCP8.5 scenarios, the suitable habitats of Grus monacha, Grus japonensis, Grus vipio, Grus grus and Anthropoides virgo would decrease, while that of Grus leucogeranus would expand by 5.4%-6.3%. With current and the future climate change scenarios, the PPAs of these species were mainly distributed in the northwest, southeast and west-central parts of the Great Xing'an Mountains. The protect rate could reach about 20.1%-23.8% of the target PPAs conserved by protected areas(PAs). The protection gaps were mainly distributed in the west of Mohe County, the north-central of Ergun, the central and east of Genhe, the northeast of Yakeshi, and the south of Oroqen Autonomous Banner. We proposed to expand PAs to provide a strong guarantee for the effective protection of cranes species.
To clarify the impacts of climate change on the potential distribution of six crane species in the Great Xing'an Mountains region, and promote the effective protection of these species, we selected key environmental variables such as climate, topography, and vegetation type based on Pearson correlation and Jackknife analysis, and modeled the potential distribution of six crane species in the Great Xing'an Mountains using MaxEnt with the current and the future climate change scenarios(RCP4.5 and RCP8.5). We identified the priority protection areas(PPAs) and the target PPAs by zonation and ArcGIS. The results showed that with the current climate condition, the sui-table habitats of these species were mainly distributed in the central and the northwest part of the Great Xing'an Mountains. With RCP4.5 and RCP8.5 scenarios, the suitable habitats of Grus monacha, Grus japonensis, Grus vipio, Grus grus and Anthropoides virgo would decrease, while that of Grus leucogeranus would expand by 5.4%-6.3%. With current and the future climate change scenarios, the PPAs of these species were mainly distributed in the northwest, southeast and west-central parts of the Great Xing'an Mountains. The protect rate could reach about 20.1%-23.8% of the target PPAs conserved by protected areas(PAs). The protection gaps were mainly distributed in the west of Mohe County, the north-central of Ergun, the central and east of Genhe, the northeast of Yakeshi, and the south of Oroqen Autonomous Banner. We proposed to expand PAs to provide a strong guarantee for the effective protection of cranes species.
引文
[1] IPCC.Climate Change 2014:Synthesis Report.Contribution of Working Groups Ⅰ,Ⅱ and Ⅲ to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change.Cambridge:Cambridge University Press,2014
[2] Root TL,Price JT,Hall KR,et al.Fingerprints of glo-bal warming on wild animals and plants.Nature,2003,421:57-60
[3] Wan JZ,Wang CJ,Qu H,et al.Vulnerability of forest vegetation to anthropogenic climate change in China.Science of the Total Environment,2018,621:1633-1641
[4] Massimino D,Johnston A,Gillings S,et al.Projected reductions in climatic suitability for vulnerable British birds.Climatic Change,2017,145:117-130
[5] Carroll MJ,Heinemeyer A,Pearce-Higgins JW,et al.Hydrologically driven ecosystem processes determine the distribution and persistence of ecosystem-specialist pre-dators under climate change.Nature Communications,2015,6:7851
[6] Gaudreau J,Perez L,Harati S.Towards modelling future trends of Quebec’s Boreal birds’ species distribution under climate change.ISPRS International Journal of Geo-Information,2018,7:335,doi:10.3390/ijgi7090335
[7] Borger L,Nudds TD.Fire,humans,and climate:Mode-ling distribution dynamics of boreal forest waterbirds.Ecological Applications,2014,24:121-141
[8] Wu J,Shi Y.Attribution index for changes in migratory bird distributions:The role of climate change over the past 50 years in China.Ecological Informatics,2016,31:147-155
[9] Wu JG,Zhang GB.Can changes in the distributions of resident birds in China over the past 50 years be attributed to climate change?Ecology and Evolution,2015,5:2215-2233
[10] Wang XD,Kuang FL,Tan K,et al.Population trends,threats,and conservation recommendations for waterbirds in China.Avian Research,2018,9:14,doi:10.1186/s40657-018-0106-9
[11] McIntyre NE,Wright CK,Swain S,et al.Climate for-cing of wetland landscape connectivity in the Great Plains.Frontiers in Ecology and the Environment,2014,12:59-64
[12] Erwin KL.Wetlands and global climate change:The role of wetland restoration in a changing world.Wetlands Ecology and Management,2009,17:71-84
[13] Poysa H,Elmberg J,Gunnarsson G,et al.Habitat associations and habitat change:Seeking explanation for population decline in breeding Eurasian wigeon Anas penelope.Hydrobiologia,2017,785:207-217
[14] Harris J,Mirande C.A global overview of cranes:Status,threats and conservation priorities.Chinese Birds,2013,4:189-209
[15] Zhou H-T (周海涛),Na X-D (那晓东),Zang S-Y (臧淑英).Dynamic change of red-crowned crane habitat suitability in the west Songnen Plain during the past 30 years.Chinese Journal of Ecology (生态学杂志),2016,35(4):1009-1018 (in Chinese)
[16] Liu L (刘伶),Liu H-Y (刘红玉),Li Y-F (李玉凤),et al.Dynamic changes in population size and habitat distribution of wintering red-crowned crane in northern Jiangsu Province.Acta Ecologica Sinica (生态学报),2018,38(3):926-933 (in Chinese)
[17] Wu W-W (吴伟伟),Gu S-S (顾莎莎),Wu J (吴军),et al.Impact of climate change on distribution of breeding sites of red-crowned crane in China.Journal of Ecology and Rural Environment (生态与农村环境学报),2012,28(3):243-248 (in Chinese)
[18] Sun L (孙立),Xu H-G (徐海根),Wu J (吴军),et al.Impact of climate change on distribution of breeding places of white-naped crane in China.Journal of Ecology and Rural Environment (生态与农村环境学报),2014,30(5):595-600 (in Chinese)
[19] Su H-L (苏化龙),Lin Y-H (林英华),Li D-Q (李迪强),et al.Status of Chinese cranes and their conservation strategies.Biodiversity Science (生物多样性),2000,8(2):180-191 (in Chinese)
[20] Li Y-K (李言阔),Qian F-W (钱法文),Shan J-H (单继红),et al.The effect of climate change on the population fluctuation of the Siberian crane in Poyang Lake.Acta Ecologica Sinica (生态学报),2014,34(10):2645-2653 (in Chinese)
[21] Chinese Green Network (中国绿网).Overview of the Great Xing’an Mountains in Inner Mongolia [EB/OL].(2011-06-09) [2019-03-09].http://www.imfic.com.cn/olddata/datacontent/2011-06-09/15838.html(in Chinese)
[22] The Great Xing’an Mountains,Heilongjiang Province,China (中国黑龙江大兴安岭).Overview of the Great Xing’an Mountains in Heilongjiang Province [EB/OL].(2011-06-09) [2015-10-01].http://www.dxal.gov.cn/rw-xa/content_9178 (in Chinese)
[23] Huang T (黄婷),Fan W-Y (范文义),Mao X-G (毛学刚),et al.Foliage clumping index of main vegetation types in Daxing’an Mountains,Northeast China.Chinese Journal of Applied Ecolog (应用生态学报),2017,28(3):757-762 (in Chinese)
[24] Wang X-L (王晓莉),Chang Y (常禹),Chen H-W (陈宏伟),et al.Spatial pattern of forest biomass and its influencing factors in the Great Xing’an Mountains,Heilongjiang Province,China.Chinese Journal of Applied Ecolog (应用生态学报),2014,25(4):974-982 (in Chinese)
[25] Li Y-H (李月辉),Hu Z-B (胡志斌),Leng W-F (冷文芳),et al.Habitat pattern change of Martes zibellina and the impact of timber harvest in Huzhong Area in Greater Hing’an Mountains,Northeast China.Biodiversity Science (生物多样性),2007,15(3):232-240 (in Chinese)
[26] Zan ST,Zhou LZ,Jiang H,et al.Genetic structure of the oriental white stork (Ciconia boyciana):Implications for a breeding colony in a non-breeding area.Integrative Zoology,2008,3:235-244
[27] IUCN 2019.The IUCN Red List of Threatened Species.Version 2019-1 [EB/OL].(2019-01) [2019-03-09].http://www.iucnredlist.org
[28] Chinese Forestry Network (中国林业网).List of National Key Wildlife Conservation in China [EB/OL].(2018-01-04) [2019-03-09].http://www.forestry.gov.cn/main/3954/content-1063883.html (in Chinese)
[29] Ministry of Ecology and Environment,People’s Republic of China (中华人民共和国生态环境部).Redlist of China’s Biodiversity [EB/OL].(2015-05-21) [2019-03-09].http://www.mee.gov.cn/gkml/hbb/bgg/201505/t20150525_302233.htm (in Chinese)
[30] Li X-M (李秀明).Study on the Migration Routes and Stopover Site of Siberian Crane (Grus leucogeranus) by Satellite Tracking.Master Thesis.Beijing:Chinese Academy of Forestry,2016 (in Chinese)
[31] Xing L-L (邢莲莲),Yang G-S (杨贵生),Pan Y-Q (潘艳秋).Study on the cranes in Inner Mongolia.National Congress of the Eighth Bird Society of China Zoological Society and the Sixth Cross-Strait Ornithology Congress,Haikou,2005:92-98 (in Chinese)
[32] Yang G-S (杨贵生),Xing L-L (邢莲莲).The status of endangered birds and conservation measure in Inner Mongolia.The Fourth Cross-Strait Birds Ornithology Congress,Kunming,2000:291-298 (in Chinese)
[33] Li B-G (李宝国).Status of rare and endangered wild bird resources in Wuma Nature Reserve,Inner Mongolia.Inner Mongolia Forestry Ivestigation and Design (内蒙古林业调查设计),2016,39(3):71-73 (in Chinese)
[34] Gu H-L (谷红亮),Lin B-Q (林宝庆),Li L-S (李连山).Migration pause times and habitat choice in spring and autumn of Gruidae leucogeranus of Xianghai conservation area.Journal of Jilin Forestry Science and Technology (吉林林业科技),2018,47(1):14-25 (in Chinese)
[35] He C-G (何春光),Song Y-J (宋榆钧),Lang H-Q (郎惠卿),et al.Migratory dynamics of Siberian crane and environmental conditions at its stop-over site.Biodiversity Science (生物多样性),2002,10(3):286-290 (in Chinese)
[36] National Forestry and Grassland Bureau (国家林业和草原局).The Hooded Crane Was Found in the Daxing’anling Hanma Nature Reserve,Inner Mongolia [EB/OL].(2018-03-08) [2019-01-31].http://www.fores-try.gov.cn/main/443/content-1081449.html (in Chinese)
[37] Huang J (黄建),Guo Y-M (郭玉民).Die of Hoo-ded Crane (Grus monacha) in autumn,Lindian,China.Chinese Journal of Wildlife (野生动物学报),2015,36(1):76-79 (in Chinese)
[38] Xu Q (许青),Li T (李铁),Zhang X-D (张雪丹),et al.Avifauna and summer bird diversity of E’erguna Nature Rsserve,Inner Mongolia.Chinese Journal of Wildlife (野生动物学报),2014,35(2):205-210 (in Chinese)
[39] Han H (韩弘),Li X-M (李晓民),Shi L (石玲).The preliminary study on foraging habitat of red-crowned crane in autumn in Honghe Nature Reserve.Territory and Natural Resources Study (国土与自然资源研究),2007(1):87-88 (in Chinese)
[40] Zou H-F (邹红菲),Wu Q-M (吴庆明).Feeding habi-tat of red-crowned crane and white-napped crane during their courtship period in Zhalong Wetland.Chinese Journal of Applied Ecology (应用生态学报),2006,17(3):3444-3449 (in Chinese)
[41] Yang X-D (杨旭东),Hu J-G (胡金贵),Li Y (李晔),et al.Survey of birds in Hanma National Nature Reserve of Inner Mongolia.Sichuan Journal of Zoology (四川动物),2014,33(6):931-937 (in Chinese)
[42] Li R-K (李荣魁),Zhang W-H (张卫华),Wang S-B (王守波),et al.Preliminary investigation on rare and endangered wildlife in Inner Mongolia Hanma National Nature Reserve.Inner Mongolia Forestry Ivestigation and Design (内蒙古林业调查设计),2015,38(4):83-86 (in Chinese)
[43] Tao R (陶蕊).Research on Stopover Sites Distribution of Five Cranes during Migration in Songnen Plain.Master Thesis.Harbin:Northeast Forestry University,2017 (in Chinese)
[44] Xu R-G (旭日干).Inner Mongolia Animal Records.Huhhot:Inner Mongolia University Press,2013 (in Chinese)
[45] Ward DF.Modelling the potential geographic distribution of invasive ant species in New Zealand.Biological Invasions,2007,9:723-735
[46] Zhang Z,He JS,Li J,et al.Distribution and conservation of threatened plants in China.Biological Conservation,2015,192:454-460
[47] Trivino M,Kujala H,Araujo MB,et al.Planning for the future:Identifying conservation priority areas for Iberian birds under climate change.Landscape Ecology,2018,33:659-673
[48] Huang J (黄建),Huettmann F,Guo Y-M (郭玉民).Distribution modeling of breeding hooded crane in Heilongjiang basin.Journal of Beijing Forestry University (北京林业大学学报),2015,37(8):40-47 (in Chinese)
[49] Tan C,Ma MG,Kuang HH.Spatial-temporal characte-ristics and climatic responses of water level fluctuations of global major lakes from 2002 to 2010.Remote Sen-sing,2017,9(2):150,doi:10.3390/rs9020150
[50] Zwiener VP,Padial AA,Marques MCM,et al.Planning for conservation and restoration under climate and land use change in the Brazilian Atlantic Forest.Diver-sity and Distributions,2017,23:955-966
[51] Gould SF,Beeton NJ,Harris RMB,et al.A tool for simulating and communicating uncertainty when modelling species distributions under future climates.Ecology and Evolution,2014,4:4798-4811
[52] Wu J-D (吴建东),Li F-S (李凤山),Burnham J.Numerical distribution of Siberian cranes and their relation to food and water depth in Sha Hu at Poyang Lake,China.Wetland Science (湿地科学),2013,11(3):305-312 (in Chinese)
[53] Hao X-N (郝雪娜),Wu Y-L (吴艳兰).Prediction of suitable habitat for overwintering hooded cranes (Grus monacha) based on Maxent modeling.Journal of Anhui Agricultural University (安徽农业大学学报),2017,44(4):591-597 (in Chinese)
[54] Zhang B-L (张佰莲),Wang J (王健),Liu Q-X (刘群秀),et al.Habitat quality evaluation of hooded crane in Dazhanhe Nature Reserve of Heilongjiang Pro-vince,China.Journal of Northeast Forestry University (东北林业大学学报),2011,39(5):92-94 (in Chinese)
[55] Peng L-T (彭丽潭),Wu J (吴军),Tang X-Q (唐旭清).Impact of climate change on stay of red-crowned cranes in their breeding habitat.Journal of Ecology and Rural Environment (生态与农村环境学报),2014,30(3):280-288 (in Chinese)
[56] Wu H-F (吴海峰),Jin J-F (金杰锋),Batbayar N,et al.Wintering home range variation of white-naped cranes grus vipio and its correlation with water level and temperature in Poyang Lake.Chinese Journal of Zoology (动物学杂志),2018,53(4):497-506 (in Chinese)
[57] Gilbert M,Buuveibaatar B,Fine AE,et al.Declining breeding populations of white-naped cranes in eastern Mongolia,a ten-year update.Bird Conservation International,2016,1:1-15
[58] Filippi-Codaccioni O,Moussus JP,Urcun JP,et al.Advanced autumn migration of the common crane Grus grus over Western Pyrenean Passes.Acta Ornithologica,2011,46:37-45
[59] Leito A,Bunce RGH,Kulvik M,et al.The potential impacts of changes in ecological networks,land use and climate on the Eurasian crane population in Estonia.Landscape Ecology,2015,30:887-904
[60] Lozier JD,Aniello P,Hickerson MJ.Predicting the distribution of Sasquatch in western North America:Anything goes with ecological niche modelling.Journal of Biogeography,2009,36:1623-1627
[61] Phillips SJ,Anderson RP,Schapire RE.Maximum entropy modeling of species geographic distributions.Ecological Modelling,2006,190:231-259
[62] Morueta-Holme N,Flojgaard C,Svenning JC.Climate change risks and conservation implications for a threa-tened small-range mammal species.PLoS One,2010,5(4):e10360
[63] Merow C,Smith MJ,Silander JA.A practical guide to MaxEnt for modeling species’ distributions:What it does,and why inputs and settings matter.Ecography,2013,36:1058-1069
[64] Lessmann J,Munoz J,Bonaccorso E.Maximizing species conservation in continental Ecuador:A case of systematic conservation planning for biodiverse regions.Ecology and Evolution,2014,4:2410-2422
[65] Arriaga-Flores JC,Rodriguez-Moreno A,Correa-Sandoval A,et al.Spatial and environmental variation in phyllostomid bat (Chiroptera,Phyllostomidae) distribution in Mexico.Animal Biodiversity and Conservation,2018,41:141-159
[66] Liang J,Xing WL,Zeng GM,et al.Where will threa-tened migratory birds go under climate change?Implications for China’s national nature reserves.Science of the Total Environment,2018,645:1040-1047
[67] Morán-Ordóňez A,Briscoe NJ,Wintle BA.Modelling species responses to extreme weather provides new insights into constraints on range and likely climate change impacts for Australian mammals.Ecography,2018,41:308-320
[68] Duan RY,Kong XQ,Huang MY,et al.The potential effects of climate change on amphibian distribution,range fragmentation and turnover in China.PeerJ,2016,4(10):e2185
[69] Hernandez PA,Graham CH,Master LL,et al.The effect of sample size and species characteristics on performance of different species distribution modeling met-hods.Ecography,2006,29:773-785
[70] Pearson RG,Raxworthy CJ,Nakamura M,et al.Predicting species distributions from small numbers of occurrence records:A test case using cryptic geckos in Madagascar.Journal of Biogeography,2006,34:102-117
[71] Zhang W (张微),Jiang Z (姜哲),Gong H-Z (巩虎忠),et al.Effects of climate change on the potential habitat of Alces alces cameloides,an endangered species in Northeastern China.Acta Ecologica Sinica (生态学报),2016,36(7):1815-1823 (in Chinese)
[72] Bateman BL,Pidgeon AM,Radeloff VC,et al.The pace of past climate change vs.potential bird distributions and land use in the United States.Global Change Biology,2016,22:1130-114
[73] Swets JA.Measuring the accuracy of diagnostic systems.Science,1988,240:1285-1293
[74] Nori J,Torres R,Lescano JN,et al.Protected areas and spatial conservation priorities for endemic vertebrates of the Gran Chaco,one of the most threatened ecoregions of the world.Diversity and Distributions,2016,22:1212-1219
[75] Convention on Biological Diversity.Strategic Plan for Biodiversity 2011-2020 [EB/OL].(2010) [2019-01-30].https://www.cbd.int/doc/strategic-plan/2011-2020/Aichi-Targets-EN.pdf
[76] Zhao HY,Gong LJ,Qu HH,et al.The climate change variations in the northern Greater Khingan Mountains during the past centuries.Journal of Geographical Sciences,2016,26:585-602
[77] Sun J (孙菊),Li X-Z (李秀珍),Hu Y-M (胡远满),et al.Classification,species diversity,and species distribution gradient of permafrost wetland plant communities in Great Xing’an Mountains of Northeast China.Chinese Journal of Applied Ecolog (应用生态学报),2009,20(9):2049-2056 (in Chinese)
[78] Guo J-T (郭金停),Han F-L (韩风林),Hu Y-M (胡远满),et al.Ecological characteristics of vegetation and their responses to permafrost degradation in the north slope of Great Khingan Mountain valley of northeast China.Acta Ecologica Sinica (生态学报),2017,37(19):6552-6561 (in Chinese)
[79] Ash JD,Givnish TJ,Waller DM.Tracking lags in historical plant species’ shifts in relation to regional climate change.Global Change Biology,2017,23:1305-1315
[80] Steen VA,Skagen SK,Melcher CP.Implications of climate change for wetland-dependent birds in the Prairie Pothole Region.Wetlands,2016,36:S445-S459
[81] Avalos VD,Hernandez J.Projected distribution shifts and protected area coverage of range-restricted Andean birds under climate change.Global Ecology and Conservation,2015,4:459-469
[82] Li XY,Clinton N,Si YL,et al.Projected impacts of climate change on protected birds and nature reserves in China.Science Bulletin,2015,60:1644-1653
[83] Li M-Y (李明阳),Zhang C-Y (张称意),Wu J (吴军),et al.Vegetation dynamics analysis in northeastern breeding habitat of Grus japonensis under scenaries of climate warming.Journal of Central South University of Forestry and Technology (中南林业科技大学学报),2012,32(8):58-70 (in Chinese)
[84] Sun G-Q (孙工棋),Qu Y (曲艺),Tang M-Q (唐美庆),et al.Priority conservation plans of ecological function areas for terrestrial endangered mammals in China.Biodiversity Science (生物多样性),2013,21(1):47-53 (in Chinese)
[85] Luan X-F (栾晓峰),Huang W-N (黄维妮),Wang X-L (王秀磊),et al.Identification of hotspots and gaps for biodiversity conservation in Northeast China based on a systematic conservation planning methodo-logy.Acta Ecologica Sinica (生态学报),2009,29(1):144-150 (in Chinese)
[86] Runge CA,Watson JEM,Butchart SHM,et al.Protected areas and global conservation of migratory birds.Science,2015,350:1255-1258
[87] Xu W,Xiao Y,Zhang J,et al.Strengthening protected areas for biodiversity and ecosystem services in China.Proceedings of the National Academy of Sciences of the United States of America,2017,114:1601-1606
[88] Stegner MA,Karp DS,Rominger AJ,et al.Can protected areas really maintain mammalian diversity?Insights from a nestedness analysis of the Colorado Plateau.Biological Conservation,2017,209:546-553
[89] Kanai Y,Ueta M,Germogenov N,et al.Migration routes and important resting areas of Siberian cranes (Grus leucogeranus) between northeastern Siberia and China as revealed by satellite tracking.Biological Conservation,2002,106:339-346
[90] Xu F,Liu GH,Si YL.Local temperature and El Nino Southern Oscillation influence migration phenology of East Asian migratory waterbirds wintering in Poyang,China.Integrative Zoology,2017,12:303-317
[91] Wang J (王筠),Na X-D (那晓东),Zang S-Y (臧淑英).Suitability of red-crowned crane habitat for 4 periods in Songnen Plain under disturbance of human activities.Wetland Science (湿地科学),2018,16(3):438-444 (in Chinese)
[2] Root TL,Price JT,Hall KR,et al.Fingerprints of glo-bal warming on wild animals and plants.Nature,2003,421:57-60
[3] Wan JZ,Wang CJ,Qu H,et al.Vulnerability of forest vegetation to anthropogenic climate change in China.Science of the Total Environment,2018,621:1633-1641
[4] Massimino D,Johnston A,Gillings S,et al.Projected reductions in climatic suitability for vulnerable British birds.Climatic Change,2017,145:117-130
[5] Carroll MJ,Heinemeyer A,Pearce-Higgins JW,et al.Hydrologically driven ecosystem processes determine the distribution and persistence of ecosystem-specialist pre-dators under climate change.Nature Communications,2015,6:7851
[6] Gaudreau J,Perez L,Harati S.Towards modelling future trends of Quebec’s Boreal birds’ species distribution under climate change.ISPRS International Journal of Geo-Information,2018,7:335,doi:10.3390/ijgi7090335
[7] Borger L,Nudds TD.Fire,humans,and climate:Mode-ling distribution dynamics of boreal forest waterbirds.Ecological Applications,2014,24:121-141
[8] Wu J,Shi Y.Attribution index for changes in migratory bird distributions:The role of climate change over the past 50 years in China.Ecological Informatics,2016,31:147-155
[9] Wu JG,Zhang GB.Can changes in the distributions of resident birds in China over the past 50 years be attributed to climate change?Ecology and Evolution,2015,5:2215-2233
[10] Wang XD,Kuang FL,Tan K,et al.Population trends,threats,and conservation recommendations for waterbirds in China.Avian Research,2018,9:14,doi:10.1186/s40657-018-0106-9
[11] McIntyre NE,Wright CK,Swain S,et al.Climate for-cing of wetland landscape connectivity in the Great Plains.Frontiers in Ecology and the Environment,2014,12:59-64
[12] Erwin KL.Wetlands and global climate change:The role of wetland restoration in a changing world.Wetlands Ecology and Management,2009,17:71-84
[13] Poysa H,Elmberg J,Gunnarsson G,et al.Habitat associations and habitat change:Seeking explanation for population decline in breeding Eurasian wigeon Anas penelope.Hydrobiologia,2017,785:207-217
[14] Harris J,Mirande C.A global overview of cranes:Status,threats and conservation priorities.Chinese Birds,2013,4:189-209
[15] Zhou H-T (周海涛),Na X-D (那晓东),Zang S-Y (臧淑英).Dynamic change of red-crowned crane habitat suitability in the west Songnen Plain during the past 30 years.Chinese Journal of Ecology (生态学杂志),2016,35(4):1009-1018 (in Chinese)
[16] Liu L (刘伶),Liu H-Y (刘红玉),Li Y-F (李玉凤),et al.Dynamic changes in population size and habitat distribution of wintering red-crowned crane in northern Jiangsu Province.Acta Ecologica Sinica (生态学报),2018,38(3):926-933 (in Chinese)
[17] Wu W-W (吴伟伟),Gu S-S (顾莎莎),Wu J (吴军),et al.Impact of climate change on distribution of breeding sites of red-crowned crane in China.Journal of Ecology and Rural Environment (生态与农村环境学报),2012,28(3):243-248 (in Chinese)
[18] Sun L (孙立),Xu H-G (徐海根),Wu J (吴军),et al.Impact of climate change on distribution of breeding places of white-naped crane in China.Journal of Ecology and Rural Environment (生态与农村环境学报),2014,30(5):595-600 (in Chinese)
[19] Su H-L (苏化龙),Lin Y-H (林英华),Li D-Q (李迪强),et al.Status of Chinese cranes and their conservation strategies.Biodiversity Science (生物多样性),2000,8(2):180-191 (in Chinese)
[20] Li Y-K (李言阔),Qian F-W (钱法文),Shan J-H (单继红),et al.The effect of climate change on the population fluctuation of the Siberian crane in Poyang Lake.Acta Ecologica Sinica (生态学报),2014,34(10):2645-2653 (in Chinese)
[21] Chinese Green Network (中国绿网).Overview of the Great Xing’an Mountains in Inner Mongolia [EB/OL].(2011-06-09) [2019-03-09].http://www.imfic.com.cn/olddata/datacontent/2011-06-09/15838.html(in Chinese)
[22] The Great Xing’an Mountains,Heilongjiang Province,China (中国黑龙江大兴安岭).Overview of the Great Xing’an Mountains in Heilongjiang Province [EB/OL].(2011-06-09) [2015-10-01].http://www.dxal.gov.cn/rw-xa/content_9178 (in Chinese)
[23] Huang T (黄婷),Fan W-Y (范文义),Mao X-G (毛学刚),et al.Foliage clumping index of main vegetation types in Daxing’an Mountains,Northeast China.Chinese Journal of Applied Ecolog (应用生态学报),2017,28(3):757-762 (in Chinese)
[24] Wang X-L (王晓莉),Chang Y (常禹),Chen H-W (陈宏伟),et al.Spatial pattern of forest biomass and its influencing factors in the Great Xing’an Mountains,Heilongjiang Province,China.Chinese Journal of Applied Ecolog (应用生态学报),2014,25(4):974-982 (in Chinese)
[25] Li Y-H (李月辉),Hu Z-B (胡志斌),Leng W-F (冷文芳),et al.Habitat pattern change of Martes zibellina and the impact of timber harvest in Huzhong Area in Greater Hing’an Mountains,Northeast China.Biodiversity Science (生物多样性),2007,15(3):232-240 (in Chinese)
[26] Zan ST,Zhou LZ,Jiang H,et al.Genetic structure of the oriental white stork (Ciconia boyciana):Implications for a breeding colony in a non-breeding area.Integrative Zoology,2008,3:235-244
[27] IUCN 2019.The IUCN Red List of Threatened Species.Version 2019-1 [EB/OL].(2019-01) [2019-03-09].http://www.iucnredlist.org
[28] Chinese Forestry Network (中国林业网).List of National Key Wildlife Conservation in China [EB/OL].(2018-01-04) [2019-03-09].http://www.forestry.gov.cn/main/3954/content-1063883.html (in Chinese)
[29] Ministry of Ecology and Environment,People’s Republic of China (中华人民共和国生态环境部).Redlist of China’s Biodiversity [EB/OL].(2015-05-21) [2019-03-09].http://www.mee.gov.cn/gkml/hbb/bgg/201505/t20150525_302233.htm (in Chinese)
[30] Li X-M (李秀明).Study on the Migration Routes and Stopover Site of Siberian Crane (Grus leucogeranus) by Satellite Tracking.Master Thesis.Beijing:Chinese Academy of Forestry,2016 (in Chinese)
[31] Xing L-L (邢莲莲),Yang G-S (杨贵生),Pan Y-Q (潘艳秋).Study on the cranes in Inner Mongolia.National Congress of the Eighth Bird Society of China Zoological Society and the Sixth Cross-Strait Ornithology Congress,Haikou,2005:92-98 (in Chinese)
[32] Yang G-S (杨贵生),Xing L-L (邢莲莲).The status of endangered birds and conservation measure in Inner Mongolia.The Fourth Cross-Strait Birds Ornithology Congress,Kunming,2000:291-298 (in Chinese)
[33] Li B-G (李宝国).Status of rare and endangered wild bird resources in Wuma Nature Reserve,Inner Mongolia.Inner Mongolia Forestry Ivestigation and Design (内蒙古林业调查设计),2016,39(3):71-73 (in Chinese)
[34] Gu H-L (谷红亮),Lin B-Q (林宝庆),Li L-S (李连山).Migration pause times and habitat choice in spring and autumn of Gruidae leucogeranus of Xianghai conservation area.Journal of Jilin Forestry Science and Technology (吉林林业科技),2018,47(1):14-25 (in Chinese)
[35] He C-G (何春光),Song Y-J (宋榆钧),Lang H-Q (郎惠卿),et al.Migratory dynamics of Siberian crane and environmental conditions at its stop-over site.Biodiversity Science (生物多样性),2002,10(3):286-290 (in Chinese)
[36] National Forestry and Grassland Bureau (国家林业和草原局).The Hooded Crane Was Found in the Daxing’anling Hanma Nature Reserve,Inner Mongolia [EB/OL].(2018-03-08) [2019-01-31].http://www.fores-try.gov.cn/main/443/content-1081449.html (in Chinese)
[37] Huang J (黄建),Guo Y-M (郭玉民).Die of Hoo-ded Crane (Grus monacha) in autumn,Lindian,China.Chinese Journal of Wildlife (野生动物学报),2015,36(1):76-79 (in Chinese)
[38] Xu Q (许青),Li T (李铁),Zhang X-D (张雪丹),et al.Avifauna and summer bird diversity of E’erguna Nature Rsserve,Inner Mongolia.Chinese Journal of Wildlife (野生动物学报),2014,35(2):205-210 (in Chinese)
[39] Han H (韩弘),Li X-M (李晓民),Shi L (石玲).The preliminary study on foraging habitat of red-crowned crane in autumn in Honghe Nature Reserve.Territory and Natural Resources Study (国土与自然资源研究),2007(1):87-88 (in Chinese)
[40] Zou H-F (邹红菲),Wu Q-M (吴庆明).Feeding habi-tat of red-crowned crane and white-napped crane during their courtship period in Zhalong Wetland.Chinese Journal of Applied Ecology (应用生态学报),2006,17(3):3444-3449 (in Chinese)
[41] Yang X-D (杨旭东),Hu J-G (胡金贵),Li Y (李晔),et al.Survey of birds in Hanma National Nature Reserve of Inner Mongolia.Sichuan Journal of Zoology (四川动物),2014,33(6):931-937 (in Chinese)
[42] Li R-K (李荣魁),Zhang W-H (张卫华),Wang S-B (王守波),et al.Preliminary investigation on rare and endangered wildlife in Inner Mongolia Hanma National Nature Reserve.Inner Mongolia Forestry Ivestigation and Design (内蒙古林业调查设计),2015,38(4):83-86 (in Chinese)
[43] Tao R (陶蕊).Research on Stopover Sites Distribution of Five Cranes during Migration in Songnen Plain.Master Thesis.Harbin:Northeast Forestry University,2017 (in Chinese)
[44] Xu R-G (旭日干).Inner Mongolia Animal Records.Huhhot:Inner Mongolia University Press,2013 (in Chinese)
[45] Ward DF.Modelling the potential geographic distribution of invasive ant species in New Zealand.Biological Invasions,2007,9:723-735
[46] Zhang Z,He JS,Li J,et al.Distribution and conservation of threatened plants in China.Biological Conservation,2015,192:454-460
[47] Trivino M,Kujala H,Araujo MB,et al.Planning for the future:Identifying conservation priority areas for Iberian birds under climate change.Landscape Ecology,2018,33:659-673
[48] Huang J (黄建),Huettmann F,Guo Y-M (郭玉民).Distribution modeling of breeding hooded crane in Heilongjiang basin.Journal of Beijing Forestry University (北京林业大学学报),2015,37(8):40-47 (in Chinese)
[49] Tan C,Ma MG,Kuang HH.Spatial-temporal characte-ristics and climatic responses of water level fluctuations of global major lakes from 2002 to 2010.Remote Sen-sing,2017,9(2):150,doi:10.3390/rs9020150
[50] Zwiener VP,Padial AA,Marques MCM,et al.Planning for conservation and restoration under climate and land use change in the Brazilian Atlantic Forest.Diver-sity and Distributions,2017,23:955-966
[51] Gould SF,Beeton NJ,Harris RMB,et al.A tool for simulating and communicating uncertainty when modelling species distributions under future climates.Ecology and Evolution,2014,4:4798-4811
[52] Wu J-D (吴建东),Li F-S (李凤山),Burnham J.Numerical distribution of Siberian cranes and their relation to food and water depth in Sha Hu at Poyang Lake,China.Wetland Science (湿地科学),2013,11(3):305-312 (in Chinese)
[53] Hao X-N (郝雪娜),Wu Y-L (吴艳兰).Prediction of suitable habitat for overwintering hooded cranes (Grus monacha) based on Maxent modeling.Journal of Anhui Agricultural University (安徽农业大学学报),2017,44(4):591-597 (in Chinese)
[54] Zhang B-L (张佰莲),Wang J (王健),Liu Q-X (刘群秀),et al.Habitat quality evaluation of hooded crane in Dazhanhe Nature Reserve of Heilongjiang Pro-vince,China.Journal of Northeast Forestry University (东北林业大学学报),2011,39(5):92-94 (in Chinese)
[55] Peng L-T (彭丽潭),Wu J (吴军),Tang X-Q (唐旭清).Impact of climate change on stay of red-crowned cranes in their breeding habitat.Journal of Ecology and Rural Environment (生态与农村环境学报),2014,30(3):280-288 (in Chinese)
[56] Wu H-F (吴海峰),Jin J-F (金杰锋),Batbayar N,et al.Wintering home range variation of white-naped cranes grus vipio and its correlation with water level and temperature in Poyang Lake.Chinese Journal of Zoology (动物学杂志),2018,53(4):497-506 (in Chinese)
[57] Gilbert M,Buuveibaatar B,Fine AE,et al.Declining breeding populations of white-naped cranes in eastern Mongolia,a ten-year update.Bird Conservation International,2016,1:1-15
[58] Filippi-Codaccioni O,Moussus JP,Urcun JP,et al.Advanced autumn migration of the common crane Grus grus over Western Pyrenean Passes.Acta Ornithologica,2011,46:37-45
[59] Leito A,Bunce RGH,Kulvik M,et al.The potential impacts of changes in ecological networks,land use and climate on the Eurasian crane population in Estonia.Landscape Ecology,2015,30:887-904
[60] Lozier JD,Aniello P,Hickerson MJ.Predicting the distribution of Sasquatch in western North America:Anything goes with ecological niche modelling.Journal of Biogeography,2009,36:1623-1627
[61] Phillips SJ,Anderson RP,Schapire RE.Maximum entropy modeling of species geographic distributions.Ecological Modelling,2006,190:231-259
[62] Morueta-Holme N,Flojgaard C,Svenning JC.Climate change risks and conservation implications for a threa-tened small-range mammal species.PLoS One,2010,5(4):e10360
[63] Merow C,Smith MJ,Silander JA.A practical guide to MaxEnt for modeling species’ distributions:What it does,and why inputs and settings matter.Ecography,2013,36:1058-1069
[64] Lessmann J,Munoz J,Bonaccorso E.Maximizing species conservation in continental Ecuador:A case of systematic conservation planning for biodiverse regions.Ecology and Evolution,2014,4:2410-2422
[65] Arriaga-Flores JC,Rodriguez-Moreno A,Correa-Sandoval A,et al.Spatial and environmental variation in phyllostomid bat (Chiroptera,Phyllostomidae) distribution in Mexico.Animal Biodiversity and Conservation,2018,41:141-159
[66] Liang J,Xing WL,Zeng GM,et al.Where will threa-tened migratory birds go under climate change?Implications for China’s national nature reserves.Science of the Total Environment,2018,645:1040-1047
[67] Morán-Ordóňez A,Briscoe NJ,Wintle BA.Modelling species responses to extreme weather provides new insights into constraints on range and likely climate change impacts for Australian mammals.Ecography,2018,41:308-320
[68] Duan RY,Kong XQ,Huang MY,et al.The potential effects of climate change on amphibian distribution,range fragmentation and turnover in China.PeerJ,2016,4(10):e2185
[69] Hernandez PA,Graham CH,Master LL,et al.The effect of sample size and species characteristics on performance of different species distribution modeling met-hods.Ecography,2006,29:773-785
[70] Pearson RG,Raxworthy CJ,Nakamura M,et al.Predicting species distributions from small numbers of occurrence records:A test case using cryptic geckos in Madagascar.Journal of Biogeography,2006,34:102-117
[71] Zhang W (张微),Jiang Z (姜哲),Gong H-Z (巩虎忠),et al.Effects of climate change on the potential habitat of Alces alces cameloides,an endangered species in Northeastern China.Acta Ecologica Sinica (生态学报),2016,36(7):1815-1823 (in Chinese)
[72] Bateman BL,Pidgeon AM,Radeloff VC,et al.The pace of past climate change vs.potential bird distributions and land use in the United States.Global Change Biology,2016,22:1130-114
[73] Swets JA.Measuring the accuracy of diagnostic systems.Science,1988,240:1285-1293
[74] Nori J,Torres R,Lescano JN,et al.Protected areas and spatial conservation priorities for endemic vertebrates of the Gran Chaco,one of the most threatened ecoregions of the world.Diversity and Distributions,2016,22:1212-1219
[75] Convention on Biological Diversity.Strategic Plan for Biodiversity 2011-2020 [EB/OL].(2010) [2019-01-30].https://www.cbd.int/doc/strategic-plan/2011-2020/Aichi-Targets-EN.pdf
[76] Zhao HY,Gong LJ,Qu HH,et al.The climate change variations in the northern Greater Khingan Mountains during the past centuries.Journal of Geographical Sciences,2016,26:585-602
[77] Sun J (孙菊),Li X-Z (李秀珍),Hu Y-M (胡远满),et al.Classification,species diversity,and species distribution gradient of permafrost wetland plant communities in Great Xing’an Mountains of Northeast China.Chinese Journal of Applied Ecolog (应用生态学报),2009,20(9):2049-2056 (in Chinese)
[78] Guo J-T (郭金停),Han F-L (韩风林),Hu Y-M (胡远满),et al.Ecological characteristics of vegetation and their responses to permafrost degradation in the north slope of Great Khingan Mountain valley of northeast China.Acta Ecologica Sinica (生态学报),2017,37(19):6552-6561 (in Chinese)
[79] Ash JD,Givnish TJ,Waller DM.Tracking lags in historical plant species’ shifts in relation to regional climate change.Global Change Biology,2017,23:1305-1315
[80] Steen VA,Skagen SK,Melcher CP.Implications of climate change for wetland-dependent birds in the Prairie Pothole Region.Wetlands,2016,36:S445-S459
[81] Avalos VD,Hernandez J.Projected distribution shifts and protected area coverage of range-restricted Andean birds under climate change.Global Ecology and Conservation,2015,4:459-469
[82] Li XY,Clinton N,Si YL,et al.Projected impacts of climate change on protected birds and nature reserves in China.Science Bulletin,2015,60:1644-1653
[83] Li M-Y (李明阳),Zhang C-Y (张称意),Wu J (吴军),et al.Vegetation dynamics analysis in northeastern breeding habitat of Grus japonensis under scenaries of climate warming.Journal of Central South University of Forestry and Technology (中南林业科技大学学报),2012,32(8):58-70 (in Chinese)
[84] Sun G-Q (孙工棋),Qu Y (曲艺),Tang M-Q (唐美庆),et al.Priority conservation plans of ecological function areas for terrestrial endangered mammals in China.Biodiversity Science (生物多样性),2013,21(1):47-53 (in Chinese)
[85] Luan X-F (栾晓峰),Huang W-N (黄维妮),Wang X-L (王秀磊),et al.Identification of hotspots and gaps for biodiversity conservation in Northeast China based on a systematic conservation planning methodo-logy.Acta Ecologica Sinica (生态学报),2009,29(1):144-150 (in Chinese)
[86] Runge CA,Watson JEM,Butchart SHM,et al.Protected areas and global conservation of migratory birds.Science,2015,350:1255-1258
[87] Xu W,Xiao Y,Zhang J,et al.Strengthening protected areas for biodiversity and ecosystem services in China.Proceedings of the National Academy of Sciences of the United States of America,2017,114:1601-1606
[88] Stegner MA,Karp DS,Rominger AJ,et al.Can protected areas really maintain mammalian diversity?Insights from a nestedness analysis of the Colorado Plateau.Biological Conservation,2017,209:546-553
[89] Kanai Y,Ueta M,Germogenov N,et al.Migration routes and important resting areas of Siberian cranes (Grus leucogeranus) between northeastern Siberia and China as revealed by satellite tracking.Biological Conservation,2002,106:339-346
[90] Xu F,Liu GH,Si YL.Local temperature and El Nino Southern Oscillation influence migration phenology of East Asian migratory waterbirds wintering in Poyang,China.Integrative Zoology,2017,12:303-317
[91] Wang J (王筠),Na X-D (那晓东),Zang S-Y (臧淑英).Suitability of red-crowned crane habitat for 4 periods in Songnen Plain under disturbance of human activities.Wetland Science (湿地科学),2018,16(3):438-444 (in Chinese)