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Research progress on the response processes of vegetation activity to climate change

花匠小妙招
2024-09-17 00:13

[1]Wang Q, Zhang Q P, Zhou W.Grassland coverage changes and analysis of the driving forces in Maqu County.Physics Procedia, 2012, 33: 1292–1297.DOI:10.1016/j.phpro.2012.05.213 [2]Zhu Z C, Piao S L, Myneni R B, Huang M T, Zeng Z Z, Canadell J G, Ciais P, Sitch S, Friedlingstein P, Arneth A, Cao C X, Cheng L, Kato E, Koven C, Li Y, Lian X, Liu Y W, Liu R G, Mao J F, Pan Y Z, Peng S S, Peñuelas J, Poulter B, Pugh T A M, Stocker B D, Viovy N, Wang X H, Wang Y P, Xiao Z Q, Yang H, Zaehle S, Zeng N.Greening of the earth and its drivers.Nature Climate Change, 2016, 6(8): 791–796.DOI:10.1038/nclimate3004 [3]Levine J M.Ecology:a trail map for trait-based studies.Nature, 2015, 529(7585): 163–164. [4]Fang J Y, Tang Y H, Son Y.Why are East Asian ecosystems important for carbon cycle research?.Science China Life Sciences, 2010, 53(7): 753–756.DOI:10.1007/s11427-010-4032-2 [5]Franzke C L E.Warming trends:nonlinear climate change.Nature Climate Change, 2014, 4(6): 423–424.DOI:10.1038/nclimate2245 [6]Ji F, Wu Z H, Huang J P, Chassignet E P.Evolution of land surface air temperature trend.Nature Climate Change, 2014, 4(6): 462–466.DOI:10.1038/nclimate2223 [7]Mahlstein I, Daniel J S, Solomon S.Pace of shifts in climate regions increases with global temperature.Nature Climate Change, 2013, 3(8): 739–743.DOI:10.1038/nclimate1876 [8]Moles A T, Perkins S E, Laffan S W, Flores-Moreno H, Awasthy M, Tindall M L, Sack L, Pitman A, Kattge J, Aarssen L W, Anand M, Bahn M, Blonder B, Cavender-Bares J, Cornelissen J H C, Cornwell W K, Díaz S, Dickie J B, Freschet G T, Griffiths J G, Gutierrez A G, Hemmings F A, Hickler T, Hitchcock T D, Keighery M, Kleyer M, Kurokawa H, Leishman M R, Liu K, Niinemets V, Onipchenko V, Onoda Y, Penuelas J, Pillar V D, Reich P B, Shiodera S, Siefert A, Sosinski E E Jr, Soudzilovskaia N A, Swaine E K, Swenson N G, Van Bodegom P M, Warman L, Weiher E, Wright I J, Zhang H X, Zobel M, Bonser S P.Which is a better predictor of plant traits:temperature or precipitation?.Journal of Vegetation Science, 2014, 25(5): 1167–1180.DOI:10.1111/jvs.2014.25.issue-5 [9]Chang N B, Vasquez M V, Chen C F, Imen S, Mullon L.Global nonlinear and nonstationary climate change effects on regional precipitation and forest phenology in Panama, Central America.Hydrological Processes, 2015, 29(3): 339–355.DOI:10.1002/hyp.v29.3 [10]Dong B W, Sutton R.Dominant role of greenhouse-gas forcing in the recovery of Sahel rainfall.Nature Climate Change, 2015, 5(8): 757–760.DOI:10.1038/nclimate2664 [11]Krishnaswamy J, John R, Joseph S.Consistent response of vegetation dynamics to recent climate change in tropical mountain regions.Global Change Biology, 2014, 20(1): 203–215.DOI:10.1111/gcb.2013.20.issue-1 [12] IPCC. Climate Change 2013:the Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, UK:Cambridge University Press,2013. [13]Del Grosso S, Parton W, Stohlgren T, Zheng D L, Bachelet D, Prince S, Hibbard K, Olson R.Global potential net primary production predicted from vegetation class, precipitation, and temperature.Ecology, 2008, 89(8): 2117–2126.DOI:10.1890/07-0850.1 [14]Lucht W, Prentice I C, Myneni R B, Sitch S, Friedlingstein P, Cramer W, Bousquet P, Buermann W, Smith B.Climatic control of the high-latitude vegetation greening trend and Pinatubo effect.Science, 2002, 296(5573): 1687–1689.DOI:10.1126/science.1071828 [15] 徐振锋, 胡庭兴, 张力, 张远彬, 鲜骏仁, 王开运.青藏高原东缘林线交错带糙皮桦幼苗光合特性对模拟增温的短期响应.植物生态学报, 2010, 34(3): 263–270. [16]Peñuelas J, Gordon C, Llorens L, Nielsen T, Tietema A, Beier C, Bruna P, Emmett B, Estiarte M, Gorissen A.Nonintrusive field experiments show different plant responses to warming and drought among sites, seasons, and species in a North-South European gradient.Ecosystems, 2004, 7(6): 598–612. [17]Piao S L, Ciais P, Friedlingstein P, Peylin P, Reichstein M, Luyssaert S, Margolis H, Fang J Y, Barr A, Chen A P, Grelle A, Hollinger D Y, Laurila T, Lindroth A, Richardson A D, Vesala T.Net carbon dioxide losses of northern ecosystems in response to autumn warming.Nature, 2008, 451(7174): 49–52.DOI:10.1038/nature06444 [18]Peng S S, Piao S L, Ciais P, Myneni R B, Chen A P, Chevallier F, Dolman A J, Janssens I A, Peñuelas J, Zhang G X, Vicca S, Wan S Q, Wang S P, Zeng H.Asymmetric effects of daytime and night-time warming on northern Hemisphere vegetation.Nature, 2013, 501(7465): 88–92.DOI:10.1038/nature12434 [19]Zhang K, Kimball J S, Nemani R R, Running S W, Hong Y, Gourley J J, Yu Z B.Vegetation greening and climate change promote multidecadal rises of global land evapotranspiration.Scientific Reports, 2015, 5: 15956.DOI:10.1038/srep15956 [20]Wu S H, Yin Y H, Zhao D S, Huang M, Shao X M, Dai E F.Impact of future climate change on terrestrial ecosystems in China.International Journal of Climatology, 2010, 30(6): 866–873. [21] 王根绪, 胡宏昌, 王一博, 陈琳.青藏高原多年冻土区典型高寒草地生物量对气候变化的响应.冰川冻土, 2007, 29(5): 671–679. [22] 苗茜, 黄玫, 李仁强.长江流域植被净初级生产力对未来气候变化的响应.自然资源学报, 2010, 25(8): 1296–1305. [23] 程肖侠, 延晓冬.气候变化对中国东北主要森林类型的影响.生态学报, 2008, 28(2): 534–543. [24]Gourdji S M, Sibley A M, Lobell D B.Global crop exposure to critical high temperatures in the reproductive period:historical trends and future projections.Environmental Research Letters, 2013, 8(2): 024041.DOI:10.1088/1748-9326/8/2/024041 [25]Ukkola A M, Prentice I C, Keenan T F, Van Dijk A I J M, Viney N R, Myneni R B, Bi J.Reduced streamflow in water-stressed climates consistent with CO2 effects on vegetation.Nature Climate Change, 2015, 6(1): 75–78. [26]Piao S L, Nan H J, Huntingford C, Ciais P, Friedlingstein P, Sitch S, Peng S S, Ahlström A, Canadell J G, Cong N, Levis S, Levy P E, Liu L L, Lomas M R, Mao J F, Myneni R B, Peylin P, Poulter B, Shi X Y, Yin G D, Viovy N, Wang T, Wang X H, Zaehle S, Zeng N, Zeng Z Z, Chen A P.Evidence for a weakening relationship between interannual temperature variability and northern vegetation activity.Nature Communications, 2014, 5: 5018.DOI:10.1038/ncomms6018 [27]Williams C A, Reichstein M, Buchmann N, Baldocchi D, Beer C, Schwalm C, Wohlfahrt G, Hasler N, Bernhofer C, Foken T, Papale D, Schymanski S, Schaefer K.Climate and vegetation controls on the surface water balance:synthesis of evapotranspiration measured across a global network of flux towers.Water Resources Research, 2012, 48(6): W06523. [28]Clifford M J, Royer P D, Cobb N S, Breshears D D, Ford P L.Precipitation thresholds and drought-induced tree die-off:insights from patterns of Pinus edulis mortality along an environmental stress gradient.New Phytologist, 2013, 200(2): 413–421.DOI:10.1111/nph.12362 [29]Zeppel M J B, Wilks J V, Lewis J D.Impacts of extreme precipitation and seasonal changes in precipitation on plants.Biogeosciences, 2014, 11(11): 3083–3093.DOI:10.5194/bg-11-3083-2014 [30]Hoover D L, Knapp A K, Smith M D.Resistance and resilience of a grassland ecosystem to climate extremes.Ecology, 2014, 95(9): 2646–2656.DOI:10.1890/13-2186.1 [31]Heisler-White J L, Blair J M, Kelly E F, Harmoney K, Knapp A K.Contingent productivity responses to more extreme rainfall regimes across a grassland biome.Global Change Biology, 2009, 15(12): 2894–2904.DOI:10.1111/gcb.2009.15.issue-12 [32]Bates J D, Svejcar T, Miller R F, Angell R A.The effects of precipitation timing on sagebrush steppe vegetation.Journal of Arid Environments, 2006, 64(4): 670–697.DOI:10.1016/j.jaridenv.2005.06.026 [33]Misson L, Degueldre D, Collin C, Rodriguez R, Rocheteau A, Ourcival J M, Rambal S.Phenological responses to extreme droughts in a Mediterranean forest.Global Change Biology, 2011, 17(2): 1036–1048.DOI:10.1111/gcb.2010.17.issue-2 [34]Chimner R A, Welker J M, Morgan J, LeCain D, Reeder J.Experimental manipulations of winter snow and summer rain influence ecosystem carbon cycling in a mixed-grass prairie, Wyoming, USA.Ecohydrology, 2010, 3(3): 284–293.DOI:10.1002/eco.v3:3 [35]Morecroft M D, Masters G J, Brown V K, Clarke I P, Taylor M E, Whitehouse A T.Changing precipitation patterns alter plant community dynamics and succession in an ex-arable grassland.Functional Ecology, 2004, 18(5): 648–655.DOI:10.1111/fec.2004.18.issue-5 [36]Brando P M, Balch J K, Nepstad D C, Morton D C, Putz F E, Coe M T, Silvério D, Macedo M N, Davidson E A, Nóbrega C C, Alencar A, Soares-Filho B S.Abrupt increases in Amazonian tree mortality due to drought-fire interactions.Proceedings of the National Academy of Sciences of the United States of America, 2014, 111(17): 6347–6352.DOI:10.1073/pnas.1305499111 [37]Fay P A, Blair J M, Smith M D, Nippert J B, Carlisle J D, Knapp A K.Relative effects of precipitation variability and warming on tallgrass prairie ecosystem function.Biogeosciences, 2011, 8(10): 3053–3068.DOI:10.5194/bg-8-3053-2011 [38]Michaletz S T, Cheng D L, Kerkhoff A J, Enquist B J.Convergence of terrestrial plant production across global climate gradients.Nature, 2014, 512(7512): 39–43.DOI:10.1038/nature13470 [39]Brohan P, Kennedy J J, Harris I, Tett S F B, Jones P D.Uncertainty estimates in regional and global observed temperature changes:a new data set from 1850.Journal of Geophysical Research-Atmospheres, 2006, 111(D12): D12106.DOI:10.1029/2005JD006548 [40] 吴杨周, 陈健, 胡正华, 谢燕, 陈书涛, 张雪松, 申双和, 陈曦.水分减少与增温处理对冬小麦生物量和土壤呼吸的影响.环境科学, 2016, 37(1): 280–287. [41]Fridley J D, Lynn J S, Grime J P, Askew A P.Longer growing seasons shift grassland vegetation towards more-productive species.Nature Climate Change, 2016, 6(9): 865–868.DOI:10.1038/nclimate3032 [42] 胡光成, 金晓媚, 万力, 蔡晓雨.祁连山区植被生长与水热组合关系研究.干旱区资源与环境, 2009, 23(2): 17–20. [43]Wang Y H, Zhou G S, Wang Y H.Modeling responses of the meadow steppe dominated by Leymus chinensis to climate change.Climatic Change, 2007, 82(3/4): 437–452. [44] 李强, 张翀, 任志远.近15年黄土高原植被物候时空变化特征分析.中国农业科学, 2016, 49(22): 4352–4365. [45] 陈圣宾, 欧阳志云, 方瑜, 李振基.中国种子植物特有属的地理分布格局.生物多样性, 2011, 19(4): 414–423. [46]Bai W M, Wan S Q, Niu S L, Liu W X, Chen Q S, Wang Q B, Zhang W H, Han X G, Li L H.Increased temperature and precipitation interact to affect root production, mortality, and turnover in a temperate steppe:implications for ecosystem C cycling.Global Change Biology, 2010, 16(4): 1306–1316.DOI:10.1111/gcb.2010.16.issue-4 [47] 陈卓奇, 邵全琴, 刘纪远, 王军邦.基于MODIS的青藏高原植被净初级生产力研究.中国科学:地球科学, 2012, 42(3): 402–410. [48] 盛文萍, 李玉娥, 高清竹, 万运帆, 于贵瑞.内蒙古未来气候变化及其对温性草原分布的影响.资源科学, 2010, 32(6): 1111–1119. [49]Eiserhardt W L, Svenning J C, Kissling W D, Balslev H.Geographical ecology of the palms (Arecaceae):determinants of diversity and distributions across spatial scales.Annals of Botany, 2011, 108(8): 1391–1416.DOI:10.1093/aob/mcr146 [50]Seddon A W R, Macias-Fauria M, Long P R, Benz D, Willis K J.Sensitivity of global terrestrial ecosystems to climate variability.Nature, 2016, 531(7593): 229–232.DOI:10.1038/nature16986 [51] 朱文泉, 潘耀忠, 阳小琼, 宋国宝.气候变化对中国陆地植被净初级生产力的影响分析.科学通报, 2007, 52(21): 2535–2541. [52] IPCC. Climate Change 2014:Impacts, Adaptation, and Vulnerability. Part A:Global and Sectoral Aspects. Contribution of Working Group Ⅱ to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, UK, New York, NY:Cambridge University Press,2014. [53] 丁一汇, 任国玉. 中国气候变化科学概论. 北京:气象出版社,2008. [54]Burrows M T, Schoeman D S, Richardson A J, Molinos J G, Hoffmann A, Buckley L B, Moore P J, Brown C J, Bruno J F, Duarte C M, Halpern B S, Hoegh-Guldberg O, Kappel C V, Kiessling W, O'Connor M I, Pandolfi J M, Parmesan C, Sydeman W J, Ferrier S, Williams K J, Poloczanska E S.Geographical limits to species-range shifts are suggested by climate velocity.Nature, 2014, 507(7493): 492–495.DOI:10.1038/nature12976 [55]Friend A D, Lucht W, Rademacher T T, Keribin R, Betts R, Cadule P, Ciais P, Clark D B, Dankers R, Falloon P D, Ito A, Kahana R, Kleidon A, Lomas M R, Nishina K, Ostberg S, Pavlick R, Peylin P, Schaphoff S, Vuichard N, Warszawski L, Wiltshire A, Woodwardj F I.Carbon residence time dominates uncertainty in terrestrial vegetation responses to future climate and atmospheric CO2.Proceedings of the National Academy of Sciences of the United States of America, 2014, 111(9): 3280–3285.DOI:10.1073/pnas.1222477110 [56]De Jong R, Schaepman M E, Furrer R, De Bruin S, Verburg P H.Spatial relationship between climatologies and changes in global vegetation activity.Global Change Biology, 2013, 19(6): 1953–1964.DOI:10.1111/gcb.12193 [57]Wang Q, Zhao P, Ren H, Kakubari Y.Spatiotemporal dynamics of forest net primary production in China over the past two decades.Global and Planetary Change, 2008, 61(3/4): 267–274. [58] 张学珍, 戴君虎, 葛全胜.1982-2006年中国东部春季植被变化的区域差异.地理学报, 2012, 67(1): 53–61.DOI:10.11821/xb201201006 [59] 王筝, 赵天保, 侯美亭, 延晓冬.21世纪初中国北方地区植被变化特征分析.气候与环境研究, 2013, 18(2): 156–164. [60] 王敏, 周才平, 吴良, 徐兴良, 欧阳华.近10a青藏高原干湿状况及其与植被变化的关系研究.干旱区地理, 2013, 36(1): 49–56. [61]Duo A, Zhao W J, Qu X Y, Jing R, Xiong K.Spatio-temporal variation of vegetation coverage and its response to climate change in North China plain in the last 33 years.International Journal of Applied Earth Observation and Geoinformation, 2016, 53: 103–117.DOI:10.1016/j.jag.2016.08.008 [62]Feng X M, Fu B J, Piao S L, Wang S, Ciais P, Zeng Z Z, Lü Y H, Zeng Y, Li Y, Jiang X H, Wu B F.Revegetation in China's Loess Plateau is approaching sustainable water resource limits.Nature Climate Change, 2016, 6(11): 1019–1022.DOI:10.1038/nclimate3092 [63] 方精云, 朴世龙, 贺金生, 马文红.近20年来中国植被活动在增强.中国科学(C辑), 2003, 33(6): 554–565. [64]Wang C Z, Guo H D, Zhang L, Liu S Y, Qiu Y B, Sun Z C.Assessing phenological change and climatic control of alpine grasslands in the Tibetan Plateau with MODIS time series.International Journal of Biometeorology, 2015, 59(1): 11–23.DOI:10.1007/s00484-014-0817-5 [65]Xu H J, Wang X P.Effects of altered precipitation regimes on plant productivity in the arid region of northern China.Ecological Informatics, 2016, 31: 137–146.DOI:10.1016/j.ecoinf.2015.12.003 [66] 周广胜, 何奇瑾.生态系统响应全球变化的陆地样带研究.地球科学进展, 2012, 27(5): 563–572. [67]Wilson R J, Gutiérrez D, Gutiérrez J, Martínez D, Agudo R, Monserrat V J.Changes to the elevational limits and extent of species ranges associated with climate change.Ecology Letters, 2005, 8(11): 1138–1146.DOI:10.1111/j.1461-0248.2005.00824.x [68]Wang H, Ni J, Prentice I C.Sensitivity of potential natural vegetation in China to projected changes in temperature, precipitation and atmospheric CO2.Regional Environmental Change, 2011, 11(3): 715–727.DOI:10.1007/s10113-011-0204-2 [69]Ni J.Impacts of climate change on Chinese ecosystems:key vulnerable regions and potential thresholds.Regional Environmental Change, 2011, 11(S1): 49–64.DOI:10.1007/s10113-010-0170-0 [70] 贾庆宇, 王笑影, 吕国红, 谢艳兵.气候变化对植被带影响研究进展.安徽农业科学, 2010, 38(21): 11305–11307. [71] 吕佳佳, 吴建国.气候变化对植物及植被分布的影响研究进展.环境科学与技术, 2009, 32(6): 85–95. [72]Zhao D S, Wu S H.Responses of vegetation distribution to climate change in China.Theoretical and Applied Climatology, 2014, 117(1/2): 15–28. [73] 郭笑怡, 张洪岩.生态地理分区框架下的大兴安岭植被动态研究.地理科学, 2013, 33(2): 181–188. [74] 苏力德, 杨劼, 万志强, 谷蕊, 闫玉龙, 高青竹.内蒙古地区草地类型分布格局变化及气候原因分析.中国农业气象, 2015, 36(2): 139–148. [75]Ni J, Herzschuh U.Simulating biome distribution on the Tibetan Plateau using a modified global vegetation model.Arctic, Antarctic, and Alpine Research, 2011, 43(3): 429–441.DOI:10.1657/1938-4246-43.3.429 [76]Zhu Q A, Jiang H, Peng C H, Liu J X, Fang X Q, Wei X H, Liu S R, Zhou G M.Effects of future climate change, CO2 enrichment, and vegetation structure variation on hydrological processes in China.Global and Planetary Change, 2012, 80-81: 123–135.DOI:10.1016/j.gloplacha.2011.10.010 [77]Mackey K R M, Paytan A, Caldeira K, Grossman A R, Moran D, Mcilvin M, Saito M A.Effect of temperature on photosynthesis and growth in marine Synechococcus spp.Plant Physiology, 2013, 163(2): 815–829.DOI:10.1104/pp.113.221937 [78]Pierangelini M, Stojkovic S, Orr P T, Beardall J.Photosynthetic characteristics of two Cylindrospermopsis raciborskii strains differing in their toxicity.Journal of Phycology, 2014, 50(2): 292–302.DOI:10.1111/jpy.12157 [79] 赵娜, 李富荣.温度升高对不同生活型植物光合生理特性的影响.生态环境学报, 2016, 25(1): 60–66. [80] 刘晓, 丛静, 卢慧, 蒋军, 李广良, 宿秀江, 王秀磊, 李迪强, 张于光.典型阔叶林的物种多样性分布和环境解释.生态科学, 2016, 35(4): 125–133. [81]Merunková K, Chytrý M.Environmental control of species richness and composition in upland grasslands of the southern Czech Republic.Plant Ecology, 2012, 213(4): 591–602.DOI:10.1007/s11258-012-0024-6 [82] 高江波, 焦珂伟, 吴绍洪, 郭灵辉.气候变化影响与风险研究的理论范式和方法体系.生态学报, 2017, 37(7): 2169–2178. [83]Zhao D S, Wu S H, Yin Y H.Responses of terrestrial ecosystems' net primary productivity to future regional climate change in China.PLoS One, 2013, 8(4): e60849.DOI:10.1371/journal.pone.0060849 [84]Keenan T F, Gray J, Friedl M A, Toomey M, Bohrer G, Hollinger D Y, Munger J W, O'Keefe J, Schmid H P, Wing I S, Yang B, Richardson A D.Net carbon uptake has increased through warming-induced changes in temperate forest phenology.Nature Climate Change, 2014, 4(7): 598–604.DOI:10.1038/nclimate2253 [85] 周广胜, 何奇瑾, 殷晓洁. 中国植被/陆地生态系统对气候变化的适应性与脆弱性. 北京:气象出版社,2015. [86]Wan S Q, Norby R J, Ledford J, Weltzin J F.Responses of soil respiration to elevated CO2, air warming, and changing soil water availability in a model old-field grassland.Global Change Biology, 2007, 13(11): 2411–2424.DOI:10.1111/gcb.2007.13.issue-11 [87] 国际地圈生物圈计划秘书处, 国际地圈生物圈计划——科学计划与实施战略. 曲建升, 林海, 译. 北京: 气象出版社, 2006. [88] 吴绍洪, 赵艳, 汤秋鸿, 郑景云, 高江波, 梁涛, 葛全胜.面向"未来地球"计划的陆地表层格局研究.地理科学进展, 2015, 34(1): 10–17.