生态系统安全阈值最新研究进展(4),生态学论文

　　[57]Cavanaugh K C,Kellner J R,Forde A J,et al.Poleward expansion of mangroves is a threshold response to decreased fre-quencyof extreme cold events.PNAS,2014,111（2）：723-727.
　　[58]Su J Q,WangY X,YangZ F.Lake eutrophication modelingin consideringclimatic factors change:A review.Chinese Jour-nal of Applied Ecology,2012,23（11）：3119-3201.苏洁琼，王摇烜，杨志峰。考虑气候因子变化的湖泊富营养化模型研究进展。应用生态学报，2012,23（11）：3119-3201.[59]Baker A C,Glynn P W,Riegl B.Climate change and coral reef bleaching:An ecological assessment of long-term impacts,re-coverytrends and future outlook.Estuarine,Coastal and Shelf Science,2008,80:435-471.
　　[60]Li X R,He M Z,Zerbe S,et al.Micro-geomorphologydetermines communitystructure of biological soil crusts at smallscales.Earth Surface Processes and Landforms,2010,35:932-940.
　　[61]Li F,Zhao W,Liu H.The response of aboveground net primary1of desert vegetation to rainfall pulse in the tem-perate desert region of Northwest China.PLoS ONE,2013,8（9）：e73003.doi:10.1371/journal.pone.0073003.
　　[62]Phillips O L,Arago L E O C,Lewis S L,et al.Drought sensitivityof the Amazon Rainforest.Science,2009,323:1344.
　　[63]WangX Z,Yin W Q,Shan Y H,et al.Nitrogen and phosphorus input from wet deposition in Taihu Lake region:a casestudyin Changshu Agro-ecological Experimental Station.Chinese Journal of Applied Ecology,2009,20（10）：2487-2492.
　　[64]Tilman D,Lehman C.Human-caused environmental change:Impacts on plant diversityand evolution.Pnas,2001,98（10）：5433-5440.
　　[65]Li X R,ZhangZ S,HuangL,et al.The artificial vegetation economic in desert of China-studyon hydrological process andmutual feedback model.Chinese Science Bulletin,2013,58:397-410.李新荣，张志山，黄磊，等。我国沙区人工植被系统生态-水文过程和互馈机理研究评述。科学通报，2013,58:397-410.
　　[66]Cui B S,He Q,Zhao X S.Ecological thresholds of Suaeda salsato the environmental gradients of water table depth and soilsalinity.Acta Ecologica Sinica,2008,28（4）：1408-1418.崔保山，贺强，赵欣胜。水盐环境梯度下翅碱蓬（Suaeda salsa）的生态阈值。生态学报，2008,28（4）：1408-1418.
　　[67]WangB,Han J B,Zhou Z C,et al.Ecological thresholds of Suadea heteroptera under gradients of soil salinityand moisturein DalingRiver estuarine wetland.Chinese Journal of Ecology,2014,33（1）：71-75.王摆，韩家波，周遵春，等。大凌河口湿地水盐梯度下翅碱蓬的生态阈值。生态学杂志，2014,33（1）：71-75.
　　[68]ZhangH B,Liu H Y,LI Y F,et al.The studyingof keyecological factors and threshold of landscape evolution in YanchengCoastal wetland.Acta Ecologica Sinica,2013,33（21）：6975-6983.张华兵，刘红玉，李玉凤，等。盐城海滨湿地景观演变关键土壤生态因子与阈值研究。生态学报，2013,33（21）：6975-6983.
　　[69]Taub D R,Seemann J R,Coleman J S,et al.Growth in elevated CO2protects photosyn thesis against high temperature dam-age.Plant,Cell and Environment,2000,23:649-656.
　　[70]Dupre C,Stevens C J,Ranke T,et al.Changes in species richness and composition in European acidic grasslands over thepast 70years:the contribution of cumulative atmospheric nitrogen deposition.Global Change Biology,2010,16:344-357.
　　[71]SongL,Bao X,Liu X,et al.Nitrogen enrichment enhances the dominance of grasses over forbs in a temperate steppe eco-system.Biogeosciences,2011,8:2341-2350.
　　[72]Emmett B A,Reynolds B.The role of models in addressingcritical N loadingto ecosystems[M]//Canham C D,Cole J J,Lauenroth W K.Models in Ecosystem Science.Princeton（NJ）：Princeton UniversityPress,2003:308-326.
　　[73]Payne R J,Dise N B,Stevens C J,et al.Impact of nitrogen deposition at the species level:implications for pollution policy.Pnas,2013,110（3）：984-987.
　　[74]Clark C M,Tilman D.Loss of plant species after chronic low-level nitrogen deposition to prairie grasslands.Nature,2008,451:712-715.
　　[75]Bai Y F,Wu J G,Clark C M,et al.Tradeoffs and thresholds in the effects of nitrogen addition on biodiversityand ecosystemfunctioning:evidence from Inner Mongolia grasslands.Global Change Biology,2010,16:358-372.
　　[76]Li A F,Tao G C,ZhangM K.Accumulation and threshold values leachingof phosphorus in vegetable soils in major tea pro-ducingareas of Zhejiangprovince.Journal of ZhejiangAgricultural Sciences,2014,（1）：31-33.李艾芬，陶国才，章明奎。浙江省茶叶主产区土壤磷的积累与淋失阈值研究。浙江农业科学，2014,（1）：31-33.
　　[77]Chapin F S,Robards M D,Huntington H P,et al.Directional changes in ecological communities and social-ecological sys-tems:a framework for prediction based on Alaskan examples.American Naturalist,2006,168（Suppl 6）：36-49.
　　[78]Liu J G,Dietz T,Carpenter S R,et al.Complexityof coupled human and natural systems.Science,2007,317:1513-1516.
　　[79]Reid W.The state of the planet.Nature,2002,417:112-113.
　　[80]Noy-Meir I.Stabilityof grazingsystems:an application of predator-preygraphs.Journal of Ecology,1975,63（2）：459-481.
　　[81]SchwinningS,Parsons A J.The stabilityof grazingsystems revisited:spatial models and the role of heterogeneity.Func-tional Ecology,1999,13:737-747.
　　[82]Westman W E.Ecology,Impact Assessment,and Environmental Planning[M].New York:John Wileyand Sons,1985:532.
　　[83]Newman M C,OwnbyD,Mezin L C A,et al.Applyingspecies-sensitivitydistributions in ecological risk assessment:As-sumptions of distribution type and sufficient numbers of species.Environmental Toxicologyand Chemistry,2000,19:508-515.
　　[84]Hose G C,Vandenbrink P J.Confirmingthe species-sensitivitydistribution concept for Endosulfan usinglaboratory,mescom,andfield data.Archives of Environmental Contamination and Toxicology,2004,47:511-520.
　　[85]Hughes T P,Rodrigues M J,Bellwood D R,et al.Phase shifts,herbivory,and the resilience of coral reefs to climatechange.Current Biology,2007,17:360-365.
　　[86]Horan R D,Fenichel E P,DruryK L S,et al.Managingecological thresholds in coupled environmental-human systems.Pnas,2011,108（18）：7333-7338.
　　[87]Ciais P,Reichstein M,ViovyN.Europe-wide reduction in primaryproductivitycaused bythe heat and drought in 2003.Na-ture,2005,437:1
　　[88]Groffman P M,HardyJ P,Driscoll C T,et al.Snow depth,soil freezing,and fluxes of carbon dioxide,nitrous oxide andmethane in a northern hardwood forest.Global Change Biology,2006,12:1748-1760.
　　[89]Crutzen P J,Mosier A R,Smith K A,et al.N2O release from agro-biofuel production negates global warmingreduction byreplacingfossil fuels.Atmospheric Chemistryand Physics,2007,7（4）：11191-11205.
　　[90]LiangM Z,Hu B Q,Liao C M,et al.Studyon relation between evolution and its stress factors of karst rockydesertificationand its stress threshold value model-Takingdu'an of Guangxi as an example.Research of Agricultural Modernization,2011,32（4）：492-497.梁铭忠，胡宝清，廖赤眉，等。喀斯特石漠化演变胁迫变化关系及胁迫阈值模型研究---以广西都安为例。农业现代化研究，2011,32（4）：492-497.
　　[91]Liu J,Taylor W W.IntegratingLandscape Ecologyinto Natural Resource Management[M].UK:Cambridge UniversityPress,2002:23-67.
　　[92]Drinnan I N.The search for fragmentation thresholds in a southern Sydneysuburb.Biological Conservation,2005,124:339-349.
　　[93]SudingK N,Hobbs R J.Threshold models in restoration and conservation:a developingframework.Trends in EcologyandEvolution,2009,24（5）：271-277.
　　[94]Samhouri J F,Levin P S,Ainsworth C H.Identifyingthresholds for ecosystem-based management.PLoS ONE,2010,5（1）：doi:10.1371/journal.pone.0008907.
　　[95]Zhao H X,Wu S H,JiangL G.Review on recent advances in ecological threshold research.Acta Ecologica Sinica,2007,27（1）：338-345.赵慧霞，吴绍洪，姜鲁光。生态阈值研究进展。生态学报，2007,27（1）：338-345.
　　[96]WangY J,ZhangX P.Pilot studyof the theoryof ecological threshold.Chinese Agricultural Science Bulletin,2010,26（12）：282-286.王永杰，张雪萍。生态阈值理论的初步探究。中国农学通报，2010,26（12）：282-286.
　　[97]Fragoso C R,Marques D M L,Ferreira T F,et al.Potential effects of climate change and eutrophication on a large subtropi-cal shallow lake.Environmental Modelling& Software,2011,26:1337-1348.
　　[98]Afshar A,Saadatpour M,Marino M A.Development of a complex system dynamic eutrophication model:application toKarkheh Reservoir.Environmental EngineeringScience,2012,29:373-385.