基本信息
李韧男博导中国科学院西北生态环境资源研究院
电子邮件： liren@lzb.ac.cn
通信地址： 甘肃省兰州市城关区东岗西路320号
邮政编码：

研究领域

招生信息
招生专业070602-大气物理学与大气环境
070501-自然地理学
070503-地图学与地理信息系统

招生方向大气物理与大气环境,寒区陆面过程
冻土变化，土壤热参数
冻土分布制图，遥感，GIS


教育背景2005-09--2009-04中国科学院寒区旱区环境与工程研究所自然地理学博士后
2002-09--2005-05中国科学院寒区旱区环境与工程研究所大气物理学与大气环境博士
1999-09--2002-05中国科学院寒区旱区环境与工程研究所气象学硕士

学历
学位

工作经历
工作简历2013-12~2014-12,日本国立环境研究所,访问
2013-01~现在,中国科学院大寒区旱区环境与工程研究所,创新研究员
2004-12~2012-12,中国科学院寒区旱区环境与工程研究所,创新副研究员
2000-04~2004-11,中国科学院寒区旱区环境与工程研究所,创新助理研究员
1996-06~2000-03,中国科学院兰州高原大气物理研究所,研究实习员

社会兼职

教授课程

专利与奖励
奖励信息
专利成果

出版信息








1. Li R, Zhao L, Wu TH, Ding YJ, Wang QX, Yao JM, Wu XD, Hu GJ, Xiao Y, Du YZ, Zhu XF, Qin YH, Yang SH, Bai R, Du EJ, Liu GY, Zou DF, Qiao YP, Shi JZ. Soil thermal conductivity and its influencing factors at the Tanggula permafrost region on the Qinghai–Tibet Plateau. Agricultural and Forest Meteorology, 2019, 264:235-246.
2. Li R，Zhao L，Wu TH，et al. 2016. The impacts of net long-wave radiation on the surface soil thermal regimes over the Qinghai–Tibetan Plateau, China，Environ Earth Sci，75：271-282.
3. Li R, Wu TH, Zhao L, Xie CW, Xiao Y, Hu GJ, Du YZ. 2015. Investigation on the soil thermal conductivity of different land surface patterns in the northern Qinghai-Tibetan Plateau,China. GEO Quebec, NO548.
4. Li R, Zhao L, Wu TH, Ding YJ, Xiao Y, Hu GJ, Zou DF, Li WP, Yu WJ, Jiao YL, Qin YH. 2014.The impact of surface energy exchange on the thawing process of active layer over the northern Qinghai-Xizang Plateau,China. Environ Earth Sci, 72(6):2091-2099.DOI 10.1007/s12665-014-3117-9.
5. Li R, Zhao L, Wu TH, Ding YJ, Xiao Y, Jiao YL, Qin YH, Xin YF, Du EJ, Liu GY.2014. Investigating soil thermodynamic parameters of the active layer on the northern Qinghai-Tibetan Plateau. Environ Earth Sci, 71(2): 709-722.DOI 10.1007/s12665-013-2473-1
6. Li R, Zhao L, Ding Y J, et al. 2012. Temporal and spatial variations of the active layer along the Qinghai-Tibet Highway in a permafrost region. Chin Sci Bull, 57(35): 4609-4616. doi: 10.1007/s11434-012-5323-8
7. Li R, Zhao L, Ding Y J, et al. 2010. Monthly ratios of PAR to global solar radiation measured at northern Tibetan Plateau,China. Sol. Energy, 84(6):964-973. doi:10.1016/j.solener.2010.03.005
8. Li R, Zhao L, Wu TH, et al. 2013. Temporal and spatial variations of global solar radiation over the Qinghai–Tibetan Plateau during the past 40 years. Theor Appl Climatol, 113: 573–583. DOI 10.1007/s00704-012-0809-5
9. Li R, Zhao L, Ding Y J, et al. 2010. A study on soil thermodynamic characteristics of avtive layer in northern Tibetan Plateau. Chinese Journal of Geophysics, 53(5):1060-1072
10. Li R, Zhao L, Ding Y J. 2008. The effect of the Global Radiation Budget on Seasonal Frozen Depth in the Tibetan Plateau. NiNth InterNatioNal CoNfereNCe oN Permafrost, P1061-1065.
11. Wu TH, Zhao L, Li R, et al. 2013. Recent Ground Surface Warming and Its Effects on Permafrost on the Central Qinghai-Tibet Plateau. Int. J. Climatol.，33: 920-930. DOI: 10.1002/joc.3479
12. Li R, Zhao L, Wu TH, et al. 2013. A study on thermodynamic characteristics at different underlying surface in northern Tibetan Plateau. Acta Energiae Solaris Sinica, 34(6):1076-1084
13. Li R, Zhao L, Wu TH, et al. 2013. Soil thermal regime of active layer in Wudaoliang region of the Yangzi River source. Arid Land Geography, 36(2):277-284
14. Li R, Zhao L, Ding Y J, et al. 2011. Impact of surface energy variation on thawing processes within active layer of permafrost. Journal of Glaciology and Geocryology, 33(6): 1235-1242 (in Chinese with English abstract)
15. Li R, Zhao L, Ding Y J, et al. 2011. Variations of surface effective radiation and its effect on superficial ground temperatures on Tibetan Plateau. Journal of Glaciology and Geocryology, 33(5): 1022-1032 (in Chinese with English abstract)
16. Li R, Zhao L, Ding Y J, Xiao Y. 2011. A Study of the Effect of Global Radiation and other factors on Seasonal Maximum Frozen Depth in the Tibetan Plateau. 978-1-4244-9689-1/11/$26.00 ?2011 IEEE.
17. Li R, Zhao L, Ding YJ, et al. 2012. Variation characteristics of global radiation over the Tibetan Plateau during the past 40 years. Journal of Glaciology and Geocryology, 34(6):1319-1327.
18. Li R, Zhao L, Ding Y J, et al. 2009. The Climatic Characteristics of the Maximum Seasonal Frozen Depth in the Tibetan Plateau. Journal of Glaciology and Geocryology, 31(6):1050-1056.
19. Li R, Zhao L, Ding Y J, et al. 2009. The condition of atmospheric quality over Wudaoliang. Journal of mountain Science, 27(4)411-417.
20. Li R, Zhao L, Ding Y J, et al. 2009. The effect of global radiation budget on seasonal frozen depth in the Tibetan Plateau. Journal of Glaciology and Geocryology, 31(3):422-430.
21. Li R, Zhao L, Ding Y J, et al. 2007. The features of each components in the surface heat balance equation over Wudaoliang Northern Tibetan Plateau. Journal of Mountain Science, 25(6): 664－670 (in Chinese with English abstract).
22. Li R, Ji G L, Yang W, Zhao L. 2007. The observation study on PAR coefficient over northern part of Tibetan Plateau, Acta Energiae Solaris Sinica, 28(3):241-247 (in Chinese with English abstract)
23. Li R, Ji G L, Yang W, Zhao L. 2007. Calculate the ultraviolet radiation over Wudaoliang with temperature and water vapor departures. ACT ENERGIA SOLARIS SINICA, 28(2):113-118 (in Chinese with English abstract)
24. Li R, Ji G L, Yang W, et al. 2006. Parameterization of effective radiation over the Qinghai-Tibet Plateau. Acta Energiae Solaris sinica, 27(3):274-278 (in Chinese with English abstract)
25. Li R, Yang W, Ji GL, Zhao L. 2005. The 40a variational characteristics of surface heating field over Wudaoliang the northern Tibetan Plateau. Acta Energiae Solaris Sinica, 26(6):868-873 (in Chinese with English abstract)
26. Li R, Ji GL, Li SX, et al. 2005. Soil heat condition discussion of Wudaoliang region. Acta Energiae Solaris Sinica, 26(3):299-304 (in Chinese with English abstract)
27. Li R, Ji GL, Yang W. 2005. Retrieve aerosol optical information from atmospheric broad-band transmittance on clear sky. Acta Energiae Solaris Sinica，26(2): 150-156 (in Chinese with English abstract)
28. Li R, Ji GL. 2004. The radiative effect of aerosol in Dunhuang area. Acta Energiae Solaris Sinica, 25(3): 320-324 (in Chinese with English abstract)
29. Li R, Ji GL, Yang W. 2005. Inter annual change of global solar radiation over Wudaoliang region. Plateau Meteorology, 24(2):173-177 (in Chinese with English abstract)
30. Li R, Ji GL. 2004. Aerosol features over northern Tibetan Plateau. Plateau Meteorology, 23(4):501-505 (in Chinese with English abstract)
31. Li R, Ji G L, Yang W. 2004. The statistical characters of influencing factors of diffuse irradiance on the clear sky days in Dunhuang region. Plateau Meteorology, 23(1):116-122 (in Chinese with English abstract)
32. Li R, Ji GL. 2003. The Seasonal Variation of Aerosol Optical Depth in Dunhuang Area. Plateau Meteorology, 22(1):84-87 (in Chinese with English abstract)
33. Xiao Y, Zhao L, Dai YJ, Li R, Pang QQ, Yao JM. 2013. Representing permafrost properties in CoLM for the Qinghai-Xizang (Tibetan) Plateau. Cold Regions Science and Technology, 87(1):68-77
34. Du EJ, Zhao L, Li R. 2009. The Application of ground penetration radar to permafrost investigation in Qilian Mountains. Journal of Glaciology and Geocryology, 31(2):364-371 (in Chinese with English abstract)
35. Zhao L, Li R, Ding Y J. 2008. Simulation on the soil water-thermal characteristics of the active layer in Tanggula Range. Journal of Glaciology and Geocryology, 30(6):930-937(in Chinese with English abstract)
36. Wang YX, Zhao L, Li R, et al. 2011. A study of factors which control variation of permafrost table. Journal of Glaciology and Geocryology, 33(5):1033-1039 (in Chinese with English abstract)
37. Xiao Y, Zhao L, Li R, et al. 2011. Applicability of CoLM Model(Single-point) on Permafrost Regions of the Qinghai-Xizang Plateau. Journal of Mountain Science, (5):633-640 (in Chinese with English abstract)
38. Zhao L, Li R, Ding YJ, et al. 2011. Soil Thermal regime in Qinghai-Tibet Plateau and its adjacent regions during 1977-2006. Advances in Climate Change research, 7(5): 307-316 (in Chinese with English abstract)
39. Shi W, Nan ZT, Li R, et al. 2010. Support vector machine based soil mapping of typical permafrost area in the Qinghai-Tibet Plateau. Acta Pedologica Sinica, 48(3): 461—469 (in Chinese with English abstract)
40. Sun L C, Zhao L, Li R, et al. 2010. Basic characteristics of the photosynthetical active radiation in Xidatan, Qinghai-Xizang Plateau. Journal of Glaciology and Geocryology, 32(6):1136-1143 (in Chinese with English abstract)
41. Sun L C, Zhao L, Li R, et al. 2010. The influence of snow cover on the surface albedo and ground temperature. Journal of Mountain Science, 28(3):266-273 (in Chinese with English abstract).
42. Xiao Y, Zhao L, Li R, et al. 2010. The characteristics of surface albedo in permafrost regions of northern Tibetan Plateau. Journal of Glaciology and Geocryology, 32(3):480-488 (in Chinese with English abstract)
43. Hu GJ, Zhao L, Li R, et al. 2013. The water-thermal characteristics of frozen soil under freeze-thaw based on Coup Model. SCIENTIA GEOGRAPHICA SINICA, 33(3):356-362
44. Liu Y, Zhao L, Li R. 2013. Simulation of the soil water-thermal features within the active layer in Tanggula Region, Tibetan Plateau, by Using SHAW model. Journal of Glaciology and Geocryology, 35(2):280-290
45. Hu GJ, Zhao L, Li R, Wu TH, Pang QQ, Xiao Y, Qiao YP, Shi JZ (2015) Modeling Hydrothermal Transfer Processes in Permafrost Regions of Qinghai-Tibet Plateau in China. Chin. Geogra. Sci. 25(6):713-727. doi: 10.1007/s11769-015-0000-0
46. Hu GJ, Zhao L, Li R, Wu TH, Pang QQ, Wu XD, Jiao YP, Shi JZ (2014) Characteristics of hydro-thermal transfer during freezing and thawing period in permafrost regions. Soils, 46(2)：355-320.
47. Sun LC, Zhao L, Li R, Yao JM, Liu Y, Qiao YP, Jiao KQ (2014) Effects of precipitation on the permafrost ground surface energy fluxes. Journal of Lpngdong University, 25(1):41-46.
48. Du YZ, Li R, Wu TH, Xi Y, Hu GJ. 2015. Study of soil thermal conductivity: research status and advances. Journal of Glaciology and Geocryology, 37(4): 1067-1074.
49. Hu GJ, Zhao L, Wu XD, Li R, Wu TH, Xie CW, Pang QQ, Xiao Y, Li WP, Qiao YP, Shi JZ. 2015. Modeling permafrost properties in the Qinghai-Xizang (Tibet) Plateau. ScienceChina: Earth Sciences, 58(12): 2309–2326, doi: 10.1007/s11430-015-5197-0
50. Hu Guojie, Zhao Lin, Wu Xiaodong, Li Ren, Wu Tonghua, Xie Changwei, Qiao Yongping, Shi Jianzong, Cheng Guodong. 2015. An analytical model for estimating soil temperature profiles on the Qinghai-Tibet Plateau of China. Journal of Arid Land, doi: 10.1007/s40333-015-0058-4.
51. Liu GY, Zhao L, Li R, Wu TH, Jiao KQ, Ping CL.2015. Permafrost Warming in the Context of Step-wise Climate Change in the Tien Shan Mountains,China. Permafrost and Periglac. Process., DOI: 10.1002/ppp.1885
52. Hu GJ, Zhao L, Wu XD, Li R, Wu TH, Xie CW, Qiao YP, Shi JZ, Cheng GD. 2015. New Fourier-series-based analytical solution to the conduction-convection equation to calculate soil temperature, determine soil thermal properties, or estimate water flux. International Journal of Heat and Mass Transfer. DOI：10.1016/j.ijheatmasstransfer.2015.11.078
53. Du EJ, Zhao L, Wu TH, Li R, Yue GY, Wu XD, Li WP, JiaoYL, Hu GJ, Qiao YP, Wang ZW, Zou DF, Liu GY. The relationship between the ground surface layer permittivity and active-layer thawing depth in a Qinghai–Tibetan Plateau permafrost area. Cold Regions Science and Technology，2016， 126 ： 55–60
54. Wu XD, Fang HB, Zhao L, Wu TH, Li R, Ren ZW, Pang QQ, Ding YJ.2014. Mineralisation and changes in the fractions of soil organic matter in soils of the permafrost region, Qinghai-Tibet Plateau,China. Permafrost and Periglac. Process., 25:35-44. DOI: 10.1002/ppp.1796
55. Qin YH, Wu TH, Li R, Xie CW, Qiao YP, Chen H, Zou DF, Zhao LL. Application of ERA Product of Land Surface Temperature in Permafrost Regions of Qinghai－Xizang Plateau. Plateau Meteorology, 2015, 34(3):666-675.
56. Qin YH，Wu TH，Li R，Xie CW, Zou DF, Zhang LL, Wang TY, Yu WJ, Wang WH． The applicability of ERA-Interim land surface temperature dataset to map the permafrost distribution over the Tibetan Plateau． Journal of Glaciology and Geocryology，2015，37( 6) : 1534－1543．
57. Hu GJ, Zhao L, Li R, Wu XD, Wu TH, Xie CW, Zhu XF, Su YJ.2019. Variations in soil temperature from 1980 to 2015 in permafrost regions on the Qinghai-Tibetan Plateau based on observed and reanalysis products. Geoderma, 2019, 337:893-905.
58. Hu GJ, Zhao L, Li R, Wu XD, Wu TH, Zhu XF, Pang QQ, Liu GY, Du EJ, Zou DF, Hao JM, Li WP.2019. Simulation of land surface heat fluxes in permafrost regions on the Qinghai-Tibetan Plateau using CMIP5 models. Atmospheric Research 220 (2019) 155-168.
59. Hu GJ, Zhao L, Li R, Wu XD，Wu TH, Xie CW, Zhu XF, Hao JM (2019) Thermal properties of active layer in permafrost regions with different vegetation types on the Qinghai-Tibetan Plateau. Theoretical and Applied Climatology, https://doi.org/10.1007/s00704-019-03008-2.
60. Yuan LM, Zhao L, Li R, Hu GJ, Du EJ, Qiao YP, Ma L (2020) Spatiotemporal characteristics of hydrothermal processes of the active layer on the central and northern Qinghai-Tibet plateau. Science of the Total Environment,712:136392.
61. Wang TY, Wu TH, Wang P, Li R, Xie CW, Zou DF. Spatial distribution and changes of permafrost on the Qinghai-Tibet Plateau revealed by statistical models during the period of 1980 to 2010. Science of the Total Environment,2019, 650:661-670.
62. Cheng G D, Zhao L, Li R, et al. Characteristic, changes and impacts of permafrost on Qinghai-Tibet Plateau (in Chinese). Chin Sci Bull, 2019, 64: 2783-2795, doi: 10.1360/TB-2019-0191]
63. Bai Rui, Li Ren, Wu Tonghua, Du Yizhen (2019) Air moisture condition and change trend in Northeast China, 1979-2016. Journal of Glaciologu and Geocryology, 41(2): 1-7. DOI:10.7522/j.issn.1000-02400.2019.0011(in Chinese with English abstract)
64. Yang Shuhua，Wu Tonghua，Li Ｒen，et al，2018． Spatial-temporal changes of the near-surface soil freeze-thaw status over the Qinghai-Tibetan Plateau． Plateau Meteorology，37(1):43-53. DOI: 10.7522 /j.issn.1000－0534.2017.00043．
65. Wang WH, Wu TH, Chen YN, Li R, Xie CW, Qiao YP, Zhu XF, Hao JM, Ni J (2019) Spatial variations and controlling factors of ground ice isotopes in permafrost areas of the central Qinghai-Tibet Plateau. Science of the Total Environment, 2019,688:542-554.
66. Hu GJ, Zhao L, Wu XD, Li R, Wu TH, Su YQ, Hao JM (2019) Evaluation of reanalysis air temperature products in permafrost regions on the Qinghai-Tibetan Plateau. Theoretical and Applied Climatology (2019) 138:1457-1470. https://doi.org/10.1007/s00704-019-02888-8.
67. Wang WH, Wu TH, Zhao L, Li R, Xie CW, Qiao YP, Zhang HW, Zhu XF, Yang SH, Qin YH, Hao JM. Hydrochemical characteristics of ground ice in permafrost regions of the Qinghai-Tibet Plateau. Science of the Total Environment, 2018, 626:366-376.
68. Wang WH, Wu TH, Zhao L, Li R, Zhu XF, Wang WR, Yang SH, Qin YH, Hao JM. Exploring the ground ice recharge near permafrost table on the central Qinghai-Tibet Plateau using chemical and isotopic data. Journal of Hydrology, 2018, 560:220-229.
69. Yang C, Wu TH, Wang JM, Yao JM, Li R, Zhao L, Xie CW, Zhu XF, Ni J, Hao JM (2019) Estimating Surface Soil Heat Flux in Permafrost Regions Using Remote Sensing-Based Models on the Northern Qinghai-Tibetan Plateau under Clear-Sky Conditions. Remote Sens. 2019, 11, 416; doi:10.3390/rs**
70. Yang C, Wu TH, Wang JM, Yao JM, Li R, Zhao L, Xie CW, Zhu XF, Ni J, Hao JM (2019) Estimating Surface Soil Heat Flux in Permafrost Regions Using Remote Sensing-Based Models on the Northern Qinghai-Tibetan Plateau under Clear-Sky Conditions. Remote Sens. 2019, 11, 416:1-26; doi:10.3390/rs**
71. Hu GJ, Zhao L, Zhu XF, Wu XD, Wu TH, Li R, Xie CW, Hao JM (2020) Review of algorithms and parameterizations to determine unfrozen water content in frozen soil. Geoderma, 368:114277, DOI: 10.1016/j.geoderma.2020.114277.



















发表论文（1）青藏高原多年冻土区活动层土壤水分迁移研究进展,西北师范大学学报,2017,第3作者
（2）Comparison of the thermal conductivity parameterizations for a freeze-thaw algorithm with a multi-layered soil in permafrost regions,Catena,2017,第4作者
（3）Spatiotemporal changes of freezing/thawing indices and their response to recent climate change on the Qinghai–Tibet Plateau from 1980 to 2013,Theoretical and Applied Climatology,2017,第4作者
（4）Comparison of different soil temperature algorithms in permafrost regions of Qinghai-Xizang (Tibet) Plateau of China,Cold Regions Science and Technology,2016,第4作者
（5）An improved model for soil surface temperature from air temperature in permafrost regions of Qinghai-Xizang (Tibet) Plateau of China,Meteorol Atmos Phys,2016,第4作者
（6）两种再分析月平均气温资料在蒙古国的适用性评估,高原气象,2016,第3作者
（7）青藏高原唐古拉地区暖季土壤水分对地表反照率及其土壤热参数的影响,冰川冻土,2016,第3作者
（8）Using ERA-Interim reanalysis dataset to assess the changes of ground surface freezing and thawing condition on the Qinghai–Tibet Plateau,Environmental Earth Sciences,2016,第3作者
（9）The impacts of net long-wave radiation on the surface soil thermal regimes over the Qinghai–Tibetan Plateau, China,Environ Earth Sci,2016,第1作者
（10）The relationship between the ground surface layer permittivity and active-layer thawing depth in a Qinghai–Tibetan Plateau permafrost area,Cold Regions Science and Technology,2016,第4作者
（11）Characteristics of the ratios of snow, rain and sleet to precipitation on the Qinghai-Tibet Plateau during 1961-2014,Quaternary International,2016,第3作者
（12）Modeling Hydrothermal Transfer Processes in Permafrost Regions of Qinghai-Tibet Plateau in China,Chin. Geogra. Sci,2015,第3作者
（13）土壤热导率的研究现状及其进展,冰川冻土,2015,通讯作者
（14）Permafrost Warming in the Context of Step-wise Climate Change in the Tien Shan Mountains, China,Permafrost and Periglac. Process,2015,第3作者
（15）Modeling permafrost properties in the Qinghai-Xizang (Tibet) Plateau,Science China: Earth Sciences,2015,第4作者
（16）An analytical model for estimating soil temperature profiles on the Qinghai-Tibet Plateau of China,Journal of Arid Land,2015,第4作者
（17）New Fourier-series-based analytical solution to the conduction-convection equation to calculate soil temperature, determine soil thermal properties, or estimate water flux,International Journal of Heat and Mass Transfer,2015,第4作者
（18）ERA－Interim 地表温度资料在青藏高原多年冻土区的适用性,高原气象,2015,第3作者
（19）ERA -Interim 地表温度数据集在青藏高原冻土分布制图应用的适用性评估,冰川冻土,2015,第3作者
（20）青藏高原多年冻土区土壤冻融期间水热运移特征分析,土壤,2014,第3作者
（21）降水事件对多年冻土区地表能量通量的影响,陇东学院学报,2014,第3作者
（22）The impact of surface energy exchange on the thawing process of active layer over the northern Qinghai–Xizang Plateau, China,Environmental Earth Sciences,2014,第1作者
（23）Investigating soil thermodynamic parameters of the active layer on the northern Qinghai-Tibetan Plateau,Environmental Earth Sciences ,2014,第1作者
（24）多年冻土区活动层冻融状况及土壤水分运移特征,冰川冻土,2014,通讯作者
（25）Mineralisation and Changes in the Fractions of Soil Organic Matter in Soils of the Permafrost Region, Qinghai-Tibet Plateau, China,Permafros t and Perigl ac. Proc ess,2013,第4作者
（26）Representing permafrost properties in CoLM for the Qinghai-Xizang (Tibetan) Plateau,Cold Regions Science and Technology,2013,第4作者
（27）青藏高原北部不同下垫面土壤热力特性研究,太阳能学报,2013,第1作者
（28）唐古拉地区超声雪深传感器SR-50监测研究,应用气象学报,2013,第3作者
（29）基于SHAW模型的青藏高原唐古拉地区活动层土壤水热特征模拟,冰川冻土,2013,第3作者
（30）长江源区五道梁的土壤热状况研究,干旱区地理,2013,第1作者
（31）Temporal and spatial variations of global solar radiation over the Qinghai–Tibetan Plateau during the past 40 years,Theoretical and Applied Climatology,2013,第1作者
（32）基于COUPMODEL模型的冻融土壤水热耦合模拟研究,地理科学,2013,第3作者
（33）Temporal and spatial variations of global solar radiation over the Qinghai–Tibetan Plateau during the past 40 years,Theor Appl Climatol,2013,第1作者
（34）长江源区五道梁的土壤热状况研究,干旱区地理,2013,第1作者
（35）青藏公路沿线多年冻土区活动层动态变化及区域差异特征,科学通报,2012,第1作者
（36）Temporal and spatial variations of the active layer along the Qinghai-Tibet Highway in a permafrost region,Chin Sci Bull,2012,第1作者
（37）Monthly ratios of PAR to global solar radiation measured at northern Tibetan Plateau, China,Sol. Energy,2010,第1作者
（38）青藏高原北部活动层土壤的热力学特征,A study on soil thermodynamic characteristics of active layer in northern Tibetan Plateau,Chinese Journal of Geophysics,2010,第1作者

发表著作

科研活动
科研项目（ 1 ） 冰冻圈变化及其影响研究, 参与,国家级,2013-01--2017-12
（ 2 ） 青藏高原地区冻融循环中陆面热参数的观测研究, 主持,国家级,2013-01--2016-12
（ 3 ） 冰冻圈快速变化的关键过程研究, 参与,部委级,2014-06--2017-12
（ 4 ） 青藏高原典型地段土壤热力学参数的研究, 主持,研究所（学校）,2012-01--2014-12
（ 5 ） 活动层冻融过程中青藏高原典型地段土壤热力学参数的动态变化研究, 主持,国家级,2009-01--2011-12
（ 6 ） 青藏高原腹地活动层导热率分布格局及区域差异研究, 主持,国家级,2017-01--2020-12

参与会议

合作情况
项目协作单位

指导学生已指导学生
刘广岳硕士研究生070501-自然地理学
石伟硕士研究生070501-自然地理学
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