中国科学院地理科学与资源研究所

导师介绍

张镱锂

研究员、博士生导师，土地科学与生物地理研究室主任；中国科学院大学岗位教授。兼任中国青藏高原研究会第七届理事会常务理事、秘书长，中国地理学会第二届监事会监事，《地理科学》副主编、《地理学报》和《全球变化数据学报》编委等。

从事植物地理学、生物地理学和自然地理学综合研究工作。2000年以来，先后主持国家973计划和中国科学院战略性先导科技专项的课题及重点基金项目等30余项。在青藏高原土地利用与土地覆被变化及其生态效应、高原区域适应等方面的研究取得了重要进展；相关科研成果陆续被国家采用，为青藏高原的国家生态安全屏障保护和建设及区域发展做出了重要贡献。发表论著300余篇部(其中高质量论著150余篇部)，参与撰写《白皮书》2部等。获省部级科技进步奖与自然科学奖、（首届）中国科技期刊年度优秀论文奖、全国优秀科技工作者等奖励，为尼泊尔地理学会终身荣誉会员、爱思唯尔中国高被引学者和中国知网高被引学者。

2015年以来部分论著

[1] 阎建忠,蓝勇,张镱锂,等. 2024. 环喜马拉雅地区贸易通道的历史形成与变迁. 北京:科学出版社,2024年9月.

[2] 陈发虎,张镱锂,候居峙,等. 2023. 人类活动对青藏高原生态环境影响的科学评估(2022). 北京:气象出版社,2023年5月.

[3] 张镱锂,刘林山等. 2022. 阿里及邻近地区土地利用变化与生态保护. 北京:科学出版社,2022年9月.

[4] Paudel Basanta,Zhang Yili,Rai Mohan Kumar,et al. 2025. Farmland Abandonment—Migration—Wildlife Encroachment Nexus: Insights of Smallholders of the Karnali Basin,Nepal. Environmental and Sustainability Indicators, https://doi.org/10.1016/j.indic.2025.100625.

[5] Wei Bo,Zhang Yili,Liu Linshan,et al. 2025. Upper Elevational Limit of Vegetation in the Himalayas Identified from Landsat Images. Remote Sens,17,78.

[6] Nepal Pashupati,Paudel Basanta,Zhang Yili,et al. 2025. Governance on provision of ecosystem and its services in Nepal: Lessons from appraisal of policy,legislation,and institution. Geography and Sustainability,doi: https://doi.org/10.1016/j.geosus.2025.100263

[7] Hu Xiaoyang,Wang Zhaofeng,Zhang Yili,et al. 2025. Effectiveness of conservation measures based on the assessment of grazing intensity in the Yellow River source region. Land,14,813.

[8] 谷昌军,张镱锂,刘林山,等. 2025. 2000—2020年三江源草地绿度变化及其对气候变化的响应. 地理科学,45(1):1-13.

[9] Nepal Pashupati,Paudel Basanta,Zhang Yili,et al. 2024. Integration of climate change adaptation into agricultural policies in Nepal: A diagnostic assessment. Environmental Development,https://doi.org/10.1016/j.envdev.2024.101085.

[10] Zhang Yihao,Zhang Yili,…,Yan Jianzhong. 2024. Policy measures mitigate the adoption of crop diversification strategies by farmers: insights from the Tibetan Plateau. Environment,Development and Sustainability. https://doi.org/10.1007/s10668-024-05093-4

[11] Zhang Binghua,Liu Linshan,Zhang Yili,et al. 2024. Spatial Consistency and Accuracy Analysis of Multi-Source Land Cover Products on the Southeastern Tibetan Plateau,China. Remote Sens,16,3219.

[12] 李维肖,王兆锋,张镱锂,等. 2024. 西藏阿里地区耕地的时空分异特征及其影响因素. 农业工程学报,40(15):233-244.

[13] 吴仕海,阎建忠,张镱锂,张茜茜. 2024. 西藏边境贸易市场的演变过程、分布特征及影响因素研究. 地理科学,44 (7):1153-1165.

[14] Wei Bo,Zhang Yili,Liu Linshan,et al. 2023. Risk of plant invasions and management planning in the Tibetan Plateau,China. Journal of Biogeography,3,50:147.

[15] Cui Bohao,Zhang Yili,Liu Linshan,et al. 2023. Spatial-temporal dynamics of transboundary forest disturbance-recovery and its influencing factors in the central Himalayas. Geocarto International,10.1080/10106049.2023.222826

[16] Rai Raju,Zhang Yili,Paudel Basanta,et al. 2023. Analysis of farmers'perceptions of climate changes and adaptation strategies in the transboundary Gandaki River Basin. Land,12,2054.

[17] Gu Changjun,Liu Linshan,Zhang Yili,et al. 2023. Understanding the spatial heterogeneity of grazing pressure in the Three-River-Source Region on the Tibetan Plateau. J Geogr Sci,33(8):1660-1680.

[18] Liu Qionghuan,Liu Linshan,Zhang Yili,et al. 2023. Seasonal fluctuations of marsh wetlands in the headwaters of the Brahmaputra,Ganges,and Indus Rivers,Tibetan Plateau based on the adapted LandTrendr model. Ecological Indicators,152,110360.

[19] Rai Mohan K,Paudel Basanta,Zhang Yili,et al. 2023. Appraisal of Empirical Studies on Land-Use and Land-Cover Changes and Their Impact on Ecosystem Services in Nepal Himalaya. Sustainability,15,7134.

[20] 张炳华,张镱锂,谷昌军,魏博. 2023. 基于随机森林与特征选择的藏东南土地覆被分类方法及精度评价. 地理科学,43(3):388-397.

[21] 谷昌军,张镱锂,刘林山,等. 2023. 四套NDVI数据集在青海三江源地区的一致性评估. 地理研究,42(5):1378-1392.

[22] 李兰晖,黄聪聪,张镱锂,等．基于地理加权随机森林的青藏地区放牧强度时空格局模拟．地理科学,43(3):398-410.

[23] 宫殿清,王兆锋,张镱锂,等．2023. 拉萨河谷设施农地土壤质量变化及空间分异特征．土壤学报,60(6):1582-1594.

[24] Cui Bohao,Zhang Yili,Wang Zhaofeng,et al. 2022. Ecological risk assessment of transboundary region based on land cover change: A case study of Gandaki river basin,Himalayas. Land,11,638.

[25] Rai Raju,Zhang Yili,Wang Zhaofeng,et al. 2022. Use of the MaxEnt model to predict changes in sloth bear (Melursus ursinus) habitats in the Gandaki River Basin,Nepal. Journal of Mountain Science,19(7):1988-1997.

[26] Wu Shihai,Zhang Yili,Yan Jianzhong. 2022. Comprehensive Assessment of Geopolitical Risk in the Himalayan Region Based on the Grid Scale. Sustainability,14,9743.

[27] Liu Qionghuan,Wang Xiuhong,ZhangYili,Li Shicheng. 2022. Complex ecosystem impact of rapid expansion of industrial and mining land on the Tibetan Plateau. Remote Sens,14,872.

[28] Wu Shihai,Yan Jianzhong,Zhang Yili,et al. 2022. Evolutionary process and development implications of traditional trade routes in the Himalayan region. J Geogr Sci,32(9):1847-1865.

[29] 胡晓阳, 王兆锋, 张镱锂, 宫殿清. 2022. 青藏高原放牧强度空间化方法与应用. 地理学报,77(3):547-558.

[30] 魏博, 刘林山, 谷昌军, 于海彬, 张镱锂, 等. 2022. 紫茎泽兰在中国的气候生态位稳定且其分布范围仍有进一步扩展的趋势. 生物多样性,30 (8):88-99.

[31] 张镱锂, 李炳元, 刘林山, 郑度. 2021. 再论青藏高原范围. 地理研究, 40(6):1543-1553.

[32] 张镱锂, 刘林山, 李炳元, 郑度. 2021. 青藏高原范围数据集2021年版及其与2014年版的比较. 全球变化数据学报,5(4):32-42.

[33] 张镱锂, 李炳元, 刘林山, 郑度. 2021. 青藏高原界线2021年版数据集. 全球变化数据仓储电子杂志. https://doi.org/10.3974/geodb.2021.07.10.V1.

[34] Cui Bohao,Zhang Yili,Liu Linshan,et al. 2021. Spatiotemporal variation of rainfall erosivity and correlation with the ENSO on the Tibetan Plateau since 1971. Int J Environ Res Public Health,18,11054.

[35] Gu Changjun,Zhang Yili,Liu Linshan,et al. 2021. Qualifying Land Use and Land Cover Dynamics and its impacts on Ecosystem Service in Central Himalaya Transboundary Landscape Based on Google Earth Engine. Land,10,506.

[36] Jin Cheng,Zhang Yili,Yang Xuchao,et al. 2021. Mapping China's electronic power consumption using points of interest and remote sensing data. Remote Sensing,13(6),1058.

[37] Liu Qionghuan,Zhang Yili,Liu Linshan,et al. 2021. A novel Landsat-based automated mapping of marsh wetland in the headwaters of the Brahmaputra,Ganges and Indus Rivers,southwestern Tibetan Plateau. International Journal of Applied Earth Observations and Geoinformation,103,102481.

[38] Zhang Binghua,Zhang Yili,Wang Zhaofeng,et al. 2021. Factors Driving Changes in Vegetation in Mt. Qomolangma (Everest):Implications for the Management of Protected Areas. Remote Sensing,13,4725.

[39] Chen Fahu,Wu Shaohong,Cui Peng,Cai Yunlong,Zhang Yili,et al. 2021. Progress and prospects of applied research on physical geography and the living environment in China over the past 70 years (1949–2019). J Geogr Sci,31(1):3-45.

[40] Gu Changjun,Tu Yanli,Liu Linshan,Wei Bo,Zhang Yili,et al. 2021. Predicting the potential global distribution of Ageratina adenophora under current and future climate change scenarios. Ecology and Evolution,00,1–22. https://doi.org/10.1002/ece3.7974.

[41] Liu Qionghuan,Liu Linshan,Zhang Yili,et al. 2021. Driving Forces for Differentiated Patterns of Vegetation Change in the Headwater Source Region of Brahmaputra and Indus,Southwestern Tibetan Plateau. Ecological Indicators,125,107604.

[42] Paudel Basanta,Wang Zhaofeng,Zhang Yili,et al. 2021. Climate Change and Its Impacts on Farmer’s Livelihood in Different Physiographic Regions of the Trans-Boundary Koshi River Basin,Central Himalayas. Int J Environ Res Public Health,18,7142.

[43] Wu Xue,Basanta Paudel,Zhang Yili,et al. 2021. Vertical distribution changes in land cover between 1990 and 2015 within the Koshi River Basin,Central Himalayas. J Geogr Sci,31(10):1419-1436.

[44] Yu Haibin,Deane C David,Zhang Yili,et al. 2021. Integrating multiple indices of geobiodiversity reveals a series of regional species-rich areas worthy of conservation in the region of the Qinghai-Tibet Plateau. Biological Conservation,261,109238.

[45] Xie Fangdi,Wu Xue,Liu Linshan,Zhang Yili,et al. 2021. Land use and land cover change within the Koshi River Basin of the central Himalayas since 1990. Journal of Mountain Science,18(01):159-177.

[46] Zhang Yili,Wu Xue,Zheng Du. 2020. Vertical differentiation of land cover in the central Himalayas. J Geogr Sci,30(6):969-987.

[47] Li Lanhui,Zhang Yili,Liu Linshan,et al. 2020. Mapping changing Population Distribution on the Qinghai–Tibet Plateau since 2000 with Multi-temporal Remote Sensing and Point-of-interest Data. Remote Sens,12,4059.

[48] Paudel Basanta,Zhang Yili,Yan Jianzhong,et al. 2020. Farmers’understanding of climate change in Nepal Himalayas: important determinants and implications for developing adaptation strategies. Climatic Change,158:485–502.

[49] Paudel Basanta,Wu Xue,Zhang Yili,et al. 2020. Farmland abandonment and its determinants in the different ecological villages of the Koshi River Basin,Central Himalayas: Synergy of high-resolution remote sensing and social surveys. Environmental Research. https://doi.org/10.1016/j.envres.2020.109711.

[50] Khanal R Narendra,Nepal Pashupati,Zhang Yili,et al. 2020. Policy provisions for agricultural development in Nepal: A review. Journal of Cleaner Production,121241.

[51] Nepal Pashupati,Khanal Raj Narendra,Zhang Yili,et al. 2020. Land use policies in Nepal: An Overview. Land Degradation and Development,1–10. https://doi.org/10.1002/ldr.3621.

[52] Wang Zhaofeng,Gong Dianqing,Zhang Yili. 2020. Investigating the Effects of Greenhouse Vegetable Cultivation on Soil Fertility in Lhasa,Tibetan Plateau. Chinese Geographical Science,30(03):456-465.

[53] Wu Xue,Sun Xiaomin,Wang Zhaofeng,Zhang Yili,et al. 2020. Vegetation changes and their response to climate change in the Koshi River Basin of central Himalayas since 2000. Sustainability,12,6644.

[54] Zhao Zhiliong,Liu Linshan,Wang Zhaofeng,ZhangYili,et al. 2020. Dynamic Changes of Plateau Wetlands in the Damqu River Basin of the Yangtze River Source Region,China,1988-2015. Wetlands,DOI: 10.1007/s13157-020-01271-y.

[55] Gu Changjun,Zhao Pei,…,Zhang Yili. 2020. Forest Cover Change and the Effectiveness of Protected Areas in the Himalaya since 1998. Sustainability,12,6123.

[56] 陈琼, 张镱锂, 刘峰贵, 等. 2020. 黄河流域河源区土地利用变化及其影响研究综述. 资源科学,42(3):446-459.

[57] 宫殿清, 王兆锋, 张镱锂. 2020. 2008－2018 年拉萨市温室蔬菜地时空变化特征. 农业工程学报,36(13):233-241.

[58] 张镱锂,刘林山,王兆锋,等. 2019. 青藏高原土地利用与覆被变化的时空特征. 科学通报,64(27):2865-2875.

[59] Li Lanhui,Zhang Yili,Qi Wei,et al. 2019. No significant shift of warming trend over the last two decades on the roof of the world. Atmosphere,10,416.

[60] Li Lanhui,Zhang Yili,Wu Jianshuang,et al. 2019. Increasing sensitivity of alpine grasslands to climate variability along an elevational gradient on the Qinghai-Tibet Plateau. Science of the Total Environment,DOI information: 10.1016/j.scitotenv.2019.04.399.

[61] Li Lanhui,Zhang Yili,Liu Qionghuan,et al. 2019. Regional differences in shifts of temperature trends across China between 1980 and 2017. International Journal of Climatology,DOI: 10.1002/joc.5868.

[62] Liu Qionghuan,Zhang Yili,Liu Linshan,et al. 2019. The Spatial Local Accuracy Analysis of Land Cover Datasets in Qiangtang Plateau,High Asia. J Geogr Sci,29(11):1841-1858.

[63] Paudel Basanta,Zhang Yili,Yan Jianzhong,et al. 2019. Farmers'perceptions of agricultural land use changes in Nepal and their major drivers. Journal of Environmental Management,235:432-441.

[64] Rai Raju,Zhang Yili,Paudel Basanta and Khanal Raj Narendra. 2019. Status of Farmland Abandonment and Its Determinants in the Transboundary Gandaki River Basin. Sustainability,11,5267.

[65] Wang Xiuhong and Zhang Yili. 2019. Carbon footprint of agricultural sector in Qinghai province,China. Appl Sci,9,2047.

[66] Wang Xiuhong and Zhang Yili. 2019. Emergy-based evaluation of changes in agrochemical residues on the Qinghai-Tibet Plateau,China. Sustainability,11,3652.

[67] Liu Qionghuan,Wang Xiuhong,Zhang Yili,et al. 2019. Vegetation Degradation and Its Driving Factors in the Farming–Pastoral Ecotone over the Silk Road Economic Belt. Sustainability,11,1590.

[68] Rai K Mohan,Paudel Basanta,Zhang Yili,et al. 2019. Vegetables Farming and Farmers’Livelihood: Insights from Kathmandu Valley,Nepal. Sustainability,11,889.

[69] Chen Qiong,Liu Fenggui,…,Zhang Yili,et al. 2019. Trends and risk evolution of drought disasters in Tibet Autonomous Region,China. J Geogr Sci,29(11):1859-1876.

[70] 陈发虎,傅伯杰,夏军,吴铎,吴绍洪,张镱锂,等. 2019. 近70年来中国自然地理与生存环境基础研究的重要进展与展望. 中国科学(D),49(11):1659-1696.

[71] Paudel Basanta,Zhang Yili,Li Shicheng,Liu Linshan. 2018. Spatiotemporal changes in agricultural land cover in Nepal over the last 100 years. J Geogr Sci,28(10):1519-1537.

[72] Paudel Basanta,Zhang Yili,Wu Xue,Li Shicheng. 2018. Spatiotemporal changes in Nepal over the last 100 years. J Geogr Sci,28(10):1519-1537.

[73] Kang Cholhyok,Zhang Yili,Paudel Basanta,et al. 2018. Exploring the Factors Driving Changes in Farmland within the Tumen (Tuman) River Basin. ISPRS International Journal of Geo-Information,7,352.

[74] Li Lanhui,Zhang Yili,Liu Linshan,et al. 2018. Current Challenges in Distinguishing Climatic and Anthropogenic Contributions to Alpine Grassland Variation on the Tibetan Plateau. Ecology and Evolution, DOI: 10.1002/ece3.4099.

[75] Li Lanhui,Zhang Yili,Liu Linshan,et al. 2018. Spatiotemporal Patterns of Vegetation Greenness Change and Associated Climatic and Anthropogenic Drivers on the Tibetan Plateau during 2000–2015. Remote Sensing,10,1525.

[76] Li Shicheng,Zhang Yili,Wang Zhaofeng,Li Lanhui. 2018. Mapping human influence intensity in the Tibetan Plateau for conservation of ecological service functions. Ecosystem Services,30:276-286.

[77] Mondal Protim Partho and Zhang Yili. 2018. Research Progress on Changes in Land Use and Land Cover in the Western Himalayas (India) and Effects on Ecosystem Services. Sustainability,10,4504

[78] Rai Raju,Zhang Yili,Paudel Basanta,et al. 2018. Land Use and Land Cover Dynamics and Assessing the Value of Ecosystem Services in the Trans-boundary Gandaki River Basin,Central Himalayas. Sustainability,10,3052.

[79] Zhao Zhilong,Zhang Yili,Liu Linshan,Hu Zengzeng. 2018. The Impact of Drought Variability on Vegetation Conditions within the Damqu River Basin,Yangtze River Source Region,China. Plos One,13(8):e0202966.

[80] 于海彬,张镱锂,刘林山,等. 2018. 青藏高原特有种子植物区系特征及多样性分布格局.生物多样性,26 (2):130–137.

[81] 张镱锂,李兰晖,丁明军,郑度. 2017. 新世纪以来青藏高原绿度变化及动因. 自然杂志,39(3):173-179.

[82] Basanta Paudel,Zhang Yili,Li Shicheng,Wu Xue. 2017. Spatiotemporal reconstruction of cropland cover in Nepal from 1970 to 2010. Regional Environmental Change. DOI 10.1007/s10113-017-1164-y

[83] Kang Cholhyok,Zhang Yili,Wang Zhaofeng,et al. 2017. The Driving Force Analysis of NDVI Dynamics in the Trans-Boundary Tumen River Basin between 2000 and 2015. Sustainability,9,2350.

[84] Rai Raju,Zhang Yili,Paudel Basanta,et al. 2017. A Synthesis of Studies on Land Use and Land Cover Dynamics during 1930-2015 in Bangladesh. Sustainability,2017.

[85] Yu Haibin,Zhang Yili,Wang Zhaofeng,et al. 2017. Diverse range dynamics and dispersal routes of plants on the Tibetan Plateau during the late Quaternary. Plos One,12(5):e0177101.

[86] Li Shicheng,Wang Zhaofeng,Zhang Yili. 2017. Crop cover reconstruction and its effects on sediment retention in the Tibetan Plateau for 1900–20000. J Geogr Sci,27(7):786-800.

[87] Liu Linshan,Zhao Zhilong,Zhang Yili,Wu Xue. 2017. Using MaxEnt Model to Predict Suitable Habitat Changes for Key Protected Species in Koshi Basin,Central Himalayas. Journal of Resources and Ecology,8(1):77-87.

[88] Wu Xue,Gao Jungang,Zhang Yili,et al. 2017. Land cover status in Koshi River Basin,Central Himalayas. Journal of Resources and Ecology,8(1):10–19.

[89] Hua Xiaobo,Yan Jianzhong,Zhang Yili. 2017. Evaluating the role of livelihood assets in suitable livelihood strategies: Protocol for anti-poverty policy in the Eastern Tibetan Plateau,China. Ecological Indicators,78:62–74.

[90] Zhao Zhilong,Liu Fenggui,Zhang Yili,et al. 2017.The dynamic response of lakes in the Tuohepingco Basin of the Tibetan Plateau. Environmental Earth Science. DOI:10.1007/s12665-017-6446-7.

[91] 祁威,张镱锂,刘林山,等. 2017.羌塘高原核心区2013-2014年土壤温度变化特征. 地理研究,36(11):2075-2087.

[92] 王兆锋,张镱锂,刘林山,等. 2017. 羌塘高原高寒湖盆区土壤属性分异特征研究——以查日那足山麓至湖滨地区为例. 地理研究,36(11):2088-2100.

[93] 徐增让,张镱锂,成升魁,郑度. 2017. 青藏高原区域可持续发展战略思考. 科技导报,35(6):108-114.

[94] 李兰晖,刘林山,张镱锂,等. 2017. 青藏高原高寒草地物候沿海拔梯度变化的差异分析. 地理研究,36(1):26-36.

[95] 李兰晖,刘琼欢,张镱锂,等. 2017. 羌塘高原降水空间分布及其变化特征. 地理研究,36(11):2047-2060.

[96] Zhang Yili,Hu Zhongjun,Qi Wei,et al. 2016. Assessment of effectiveness of nature reserves on the Tibetan Plateau based on net primary production and the large sample comparison method. J Geogr Sci,26(1):27-44.

[97] Paudel Basanta,Zhang Yili,Li Shicheng,et al. 2016. Review of studies on land use and land cover change in Nepal. Journal of Mountain Science,13(4):643-660.

[98] Yan Jianzhong,Zhang Yili,Hua Xiaobo,Yang Liang. 2016. An explanation of labor migration and grain output growth: Findings of a case study in eastern Tibetan Plateau. J Geogr Sci, 26(4):484-500.

[99] Zhang Hua,Zhang Yili,Wang Zhaofeng,et al. 2016. Traffic-related metal (loid) status and uptake by dominant plants growing naturally in roadside soils in the Tibetan plateau,China. Science of the Total Environment, 573:915-923.

[100] Li Shichang,Wang Zhaofeng,Zhang Yili,et al. 2016. Comparison of Socioeconomic Factors between Surrounding and Non-Surrounding Areas of the Qinghai–Tibet Railway before and after Its Construction. Sustainability,8(776):1-17.

[101] Paudel Basanta,Gao Jungang,Zhang Yili,et al. 2016. Changes in Cropland Status and Their Driving Factors in the Koshi River Basin of the Central Himalayas,Nepal. Sustainability,8,933.

[102] Ding Mingjun,Li Lanhui,…,Zhang Yili. 2016. Spatio-Temporal Variation of Spring Phenology in Tibetan Plateau and its Linkage to Climate Change from 1982 to 2012. Journal of Mountain Science,13(1):83-94.

[103] Wang Zhaofeng,Alfred E Hartemink,Zhang Yili,et al. 2016. Major Elements in Soils Along a 2.8-km Altitudinal Gradient on the Tibetan Plateau,China. Pedosphere,26(6):895-903.

[104] 高俊刚,吴雪,张镱锂,等. 2016. 基于等级层次分析法的金沙江下游地区生态功能分区. 生态学报,36(1):134-147.

[105] 巩玉玲,王兆锋,张镱锂,冯永军. 2016. 拉萨灌丛草甸区土壤温度变化特征. 土壤学报,53(02):411-420.

[106] 祁威,摆万奇,张镱锂,等. 2016. 生态工程实施对羌塘和三江源国家级自然保护区植被净初级生产力的影响. 生物多样性,(02):127-135.

[107] 吴致蕾,刘峰贵,张镱锂,等. 2016. 清代青藏高原东北部河湟谷地林草地覆盖变化. 地理科学进展,35(06):768-778.

[108] 张镱锂,吴雪,祁威,等. 2015. 青藏高原自然保护区特征与保护成效简析. 资源科学,37(7):1455-1464.

[109] Zhao Zhilong,Zhang Yili,Liu Linshan,et al. 2015. Recent changes in Wetland on the Tibetan Plateau: a review. J Geogr Sci,25(7):879-896.

[110] Yu Haibin,Zhang Yili,Liu Linshan,et al. 2015. Combining the least cost path method with population genetic data and species distribution models to identify landscape connectivity during the late Quaternary in Himalayan hemlock. Ecology and Evolution,5(24):5781-5791.

[111] Ding Mingjun,Li Lanhui,Zhang Yili,et al. 2015. Start of vegetation growing season on the Tibetan Plateau inferred from multiple methods based on GIMMS and SPOT NDVI data. J Geogr Sci,25(2):131-148.

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招生专业：自然地理学

招生方向：生物地理学、植物地理学、土地变化科学

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