首页 > 分享 > 气候变化背景下土壤微生物与植物物种多样性关联分析

气候变化背景下土壤微生物与植物物种多样性关联分析

花匠小妙招
2024-11-09 05:49

参考文献

[1] RT Brooks.Potential impacts of global climate change on the hydrology and ecology of ephemeral freshwater systems of the forest of the northeastern United States[J].Climatic Change,2009,95(3):469-483.
[2] PN Halpin.Global Climate Change and Natural-Area Protection:Management Responses and Research Directions[J].Ecological Applications,2008,7(7):828-843.
[3]Xiongwen Chen,Bai-Lian Li.Tree diversity change in remaining primary mixed-broadleaved Korean pine forest under climate change and human activities[J]. Biodiversity and Conservation, 2004,13(3):563–577.
[4]苏京志,温敏,丁一汇等.全球变暖趋缓研究进展[J].大气科学,2016,40 (6): 1143-1153.
[5] Lv, Fenglian Wang,Guoliang Zhang,et al.Nitrogen addition shifts the microbial community in the rhizosphere of Pinus tabuliformis in Northwestern China[J].2017,12(2):508-510.
[6] M Bakkenes,A Jrm,F Ihle,et al.Assessing effects of forecasted climate change on the diversity and distribution of European higher plants for 2050[J].Global Change Biology,S2002,S8(4):390-407.
[7] Alba Anadon-Rosell,Josep,Ninot,et al. Four years of experimental warming don’t modify the interaction between subalpine shrub species[J].Oecologia ,2017,183(4):1167–1181.
[8]Cascales-Mi?ana.Apparent changes in the Ordovician–Mississippian plant diversity[J]. Review of Palaeobotany Palynology,2016, 227:19-27.
[9] C Reche,X Querol, A Alastuey, et al. New considerations for PM, Black Carbon and particle number concentration for air quality monitoring across different European cities[J].Atmospheric Chemistry Physics Discussions,2011,11(13):6207-6227.
[10] Y Li,M Shao.The change of plant diversity during natural recovery process of vegetation in Ziwuling area[J]. Acta Ecologica Sinica,2004,93(3):35-50.
[11]Irina Venevskaia,Sergey Venevsky,Chris D. Thomas.Projected latitudinal and regional changes in vascular plant diversity through climate change: short-term gainsand longer-term losses[J].Biodivers Conserv,2013, 22(6):1467–1483.
[12] SA Harris.Diversity of Vascular Plant Species in the Montane Boreal Forest of Western Canada in Response to Climatic Changes during the Last 25 KA,Fire,and Land UseS[J]. Erdkunde,2008,62(1):59-73.
[13] Jean-PaulSHettelingh,Carly J.SStevens,MaximilianSPosch,et al.Assessing the Impacts of Nitrogen Deposition on Plant Species Richness in Europe[J]. Environmental Pollution,2015,4(25): 573-586.
[14] Isabelle Boulangeat,Damien Georges, Cédric Dentant,et al.Anticipating the spatio-temporal response of plant diversity and vegetation structure to climate and land use change in a protected area[J].Ecography,2014,37(12): 1230–1239.
[15]Zhong YQW,Yan WM,Shangguan ZP. Impact of long-term N additions upon coupling between soil microbial community structure and activity, and nutrient-use efficiencies[J]. Soil Biol. Biochem.2015,91: 151–159.
[16]K Li,X Liu,L Song,et al.Response of alpine grassland to elevated nitrogen deposition and water supply in China[J].Oecologia,2015,177(1):65-72.
[17] Blue JD,Souza L,Classen AT,et al. The variable effects of soil nitrogen availability and insect herbivory on aboveground and belowground plant biomass in an old-field ecosystem[J]. Oecologia, 2011, 167(3): 771–780.
[18]郑华平,陈子萱,王生荣等.施肥对玛曲高寒沙化草地植物物种多样性和生产力的影响[J].草业学报,2007,16(5):34-39.
[19] LI Wenjiao, H Liu, J Zhao, et al. Effects of nitrogen and water addition on plant species diversity and biomass of common species in the Stipa baicalensis Steppe,Inner Mongolia,China[J].Acta Ecologica Sinica,2015,35(19):6460~6469.
[20]Jiang Xiaolei.The influence of disturbance on community structure and plant diversity of alpine meadow[J]. Acta Botanica Borealioccidentalia Sinica,2003, 23(9):1479-1485.
[21]沈芳芳,袁颖红,樊后保等.氮沉降对杉木人工林土壤有机碳矿化和土壤酶活性的影响[J].生态学报,2012,32(2):517-527.
[22]Cody S Sheik,William Howard Beasley,Mostafa S Elshahed, et al. Effect of warming and drought on grassland microbial communities[J]. Isme Journal,2011,S5(10):1692-700.
[23] Jat,Blp,Pcn,et al.Thermodynamics and Structure of Single- and Two-Phase Yttria?Alumina Glasses[J]. Journal of Physical Chemistry B,2004,108(30):10663-10671.
[24]吴建国,周巧富,李艳.中国生物多样性保护适应气候变化的对策[S].中国人口:资源与环境.2011,21(3):435-439.
[25]李峰,周广胜,曹铭昌.兴安落叶松地理分布对气候变化响应的模拟[J].应用生态学报,S2006,S17(12):2255-2260.
[26]延晓冬,赵士洞,于振良中国东北森林生长演替模拟模型及其在全球变化研究中的应用[J].植物生态学报,2000,24(1):1-8.
[27]谢晨,赵萱,王赛等.气候变化对森林和林业的影响及适应性政策选择—基于全球和我国的相关研究进展[J].林业经济,2010,(6):94-104.
[28]吕佳佳.气候变化对我国主要珍稀濒危物种分布影响及其适应对策研究[D].北京:中国环境科学研究院硕士论文,2009.
[29]冯琦胜.基于CSCS模型的全球及区域潜在自然植被时空分布特征研究[D].兰州:兰州大学博士论文S,2012.
[30]肖玲,王开运,杨万勤.升高CO2浓度和温度对针叶林的影响以及在川西亚高山针叶林研究中的展望[J]. 世界科技研究与发展, 2004,26(2):55-63.
[31] Elsa E,Cleland,W. Stanley Harpole. Nitrogen enrichment and plant communities[J]. Annals of the New York Academy of Sciences,2010,1195(1):46–61.
[32] KJL Pierre,MD Smith.Functional trait expression of grassland species shift with short- and long-term nutrient additions[J]. Plant Ecology,2015,216(2):307-318.
[33] AF Talhelm,AJ Burton,KS Pregitzer,et al.Chronic nitrogen deposition reduces the abundance of dominant forest understory and groundcover species[J].Forest Ecology Management,2013,293(293):39-48.
[34] Herberholz.At Sentinel Ranch:Michael Hurd,Peter Hurd and Henriette Wyeth[J].ArtsActivities,2004,135(2):32.
[35] Concilio A L, Loik M E. Elevated nitrogen effects on Bromus tectorum dominance and native plant diversity in an arid montane ecosystem[J]. Applied Vegetation Science,2013,16(4): 598-609.
[36]Gilliam F S,Hockenberry A W,Adams M B.Effects of atmospheric nitrogen deposition on the herbaceous layer of a central Appalachian hardwood forest[J]. Journal of the Torrey Botanical Society,2006,133(2): 240-254.
[37] Xian Kailu,Guo Yizhou.Effects of experimental nitrogen additions on plant diversity in an old-growth tropical forest[J].Global Change Biology ,2010,16(10):2688–2700.
[38]刘玮琦.保护地土壤细菌和古菌群落多样性分析[D].北京:中国农业科学院硕士论文,2008.
[39] Marcin Chodak a,Beata Klimek, Hamed Azarbad,et al.Functional diversity of soil microbial communities under Scots pine,Norway spruce,silver birch and mixed boreal forests[J].Pedobiologia,2015,58(2-3): 81–88.
[40]李禄军,曾德慧,于占源等.氮素添加对科尔沁沙质草地物种多样性和生产力的影响[J].应用生态学报,2009,20(8): 1838-1844.
[41] Qiu E F,Chen Z M,Zhen Y S,et al. Dynamicsoflitterfallanditsdecompositionand nutrientreturnofshoot-usedDendrocalamuslatiflorusinMountainousareasofFujian Province[J]. Chinese Journal of Applied Ecology,2005,16(5): 811-814.
[42]Wang S,Ruan H,Wang B.Effects of soil microarthropods onplant litter decomposition across an elevation gradient in the Wuyi Mountains[J].Soil BiologyBiochemistry,2009,41(5) : 891-897.
[43] Christopher W. Fernandez.Ectomycorrhizal fungal response to warming is linked to poor host performance at the boreal-temperate ecotone[D].Primary Research Articles,2016,23(4):1-12.
[44] Deforest,Zakad,Pregitzerc,et al.Atmosphericnitrate deposition and the microbial degradation of cellobiose and vanillinin a northern hardwood forest [J]. Soil Biology Biochemistry,2004,36: 965－971.#$NL
[45] Waldropm,Zakad,Sinsabaugh.Microbial community response to nitrogen deposition in northern forest ecosystems[J].Soil Biology Biochemistry, 2004,36:1443－1451.
[46] Frey,Knoor,Parrent,et al.Chronic nitrogen enrichment affects the structure and function of the soil microbial community in temperate hardwood and pine forests[J]. Forest Ecology and Management, 2004, 196: 159－171.
[47] Carreiro,Sinsabaugh,Repert,et al. Microbial enzyme shifts explain litter decay responses to simulated nitrogen deposition [J]. Ecology, 2000, 81(9): 2359－2365.
[48] Deforset,Zakd,Pregitzer,et al. Atmosphericnitrate deposition, microbial commnunity composition, and enzyme activity in Northern Hardwood forests [J]. Soil Science Society America, 2004b, 68: 132－138.
[49] Treseder.Nitrogen additions and microbial biomass: a meta-analysis of ecosystem studies[J].Ecology Letters,2008,11(10):1111-20.
[50]薛璟花,莫江明,李炯.氮沉降增加对土壤微生物的影响[J].生态环境,2005,14(5): 777-782.
[51]苏延桂等.水氮添加对古尔班通古特沙漠土壤细菌多样性的影响[J].许昌学院学报,2016(5):102-109.
[52]隋心,张荣涛,杨立宾等.模拟氮沉降对三江平原小叶章湿地土壤细菌多样性的影响[J].草业科学,2015,33(4):589-598.
[53]李骁,王迎春.土壤微生物多样性与植物物种多样性[J].内蒙古大学学报(自然科学版) 2006,37(6):22-22.
[54]贺金生,王政权,方精云.全球变化下的地下生态学:问题与展望[J].科学通报,S2004,49(13):1226-1233.
[55]卢慧.三江源典型高寒草甸不同海拔梯度土壤微生物研究[D].西宁:青海师范大学硕士论文,2013.
[56] L.SMassacces,R.SD.SBardgett,A. Agnelli,et al.Impact of plant species evenness,dominant species identity and spatial arrangement on the structure and functioning of soil microbial communities in a model grassland[J].2015,5(177):747-759.
[57] K Regan,B Stempfhuber,M Schloter,et al.Spatial and temporal dynamics of nitrogen fixing, nitrifying and denitrifying microbes in an unfertilized grassland soil[J].Soil Biology Biochemistry,2016,6(109):214-226.
[58] Kow alchuk G A,Buma D S,Boer W D, et al. Effects of above-ground plant species composition and diversity on the diversity of soil-borne microorganisms [J].Antonie van Leeuwenhoek,2002, 81(1): 509-520.
[59] F Heidrun,M Rebecca,H Keith,et al.Global warming and eutrophication:effects on water chemistry and autotrophic communities in experimental hypertrophic shallow lake mesocosms[J].Journal of Applied Ecology,2009,46(3):713–723.
[60]杜玮超,袁霞,曲同宝.土壤微生物多样性与地上植被类型关系的研究进展[J].当代生态业,2011(1):14-18.