教育经历

2001/09-2004/06 bob登陆网站 物理学院大气科学系，博士

1998/09-2001/07 兰州大学资源环境学院大气科学系，硕士

1994/09-1998/07 兰州大学大气科学系，学士

工作经历

2021/11至今 bob登陆网站 城市与环境学院，教授

2018/06-2021/03 北京师范大学科研院，副院长兼科学技术处处长

2011/01-2021/10 北京师范大学全球变化与地球系统科学研究院，教授，首席科学家（其中2013/12-2021/09任副院长）

2009/12-2010/12 美国德克萨斯大学奥斯汀分校地质系，Research Scientist Associate V

2006/07-2009/11 美国马里兰大学帕克分校地理系，博士后、助理研究教授

2004/06-2007/06 中国科学院大气物理研究所，助理研究员

杂志任职

Geophysical Research Letters, editor

荣誉与奖励

北京师范大学高等bob手机客户端网页登录入口 成果奖，二等奖，2021

北京师范大学最受研究生欢迎的十佳教师，2021

北京师范大学课程思政建设优秀课程奖，2021

教育部长江学者奖励计划特聘教授，2018

北京高校优秀共产党员，2017

第十四届中国青年科技奖，2016

国家杰出青年科学基金获得者，2015

北京师范大学十佳师德标兵，2014

北京师范大学优秀共产党员，2014

气候变化原理与监测预估（本科生课程）

气候变化研究数据工具和方法（研究生课程）

国家重点研发计划项目，中国东北区域陆—气跨圈层精细化协同观测和资料反演，2022-2027，项目负责人

国家重点研发计划项目，全球变化驱动下陆表自然与人文要素相互作用及区域表现，2017-2022，项目负责人

国家自然科学基金重点项目，中国陆表气候观测数据的渐变型不均一性，2020-2024，项目负责人

国家杰出青年科学基金，地表能量平衡与气候变化，2016-2020，项目负责人

1.Zhang, Yan, andKaicun Wang*(2024), The changing morphology of global precipitation systems during the last two decades,Bulletin of the American Meteorological Society, 105(10): E1861-E1880.

2.Zhao, Runze,Kaicun Wang*, and Xiangde Xu (2024),Global precipitation from FY-3 polar orbit satellites,Science Bulletin, 69(17): 2688-2692.

3.Xia, Hanmeng, andKaicun Wang*(2024), PreciDBPN: A customized deep learning approach for hourly precipitation downscaling in eastern China,Atmospheric Research, 311, 107705.

4.Fu, Kaiqi, Hongyong Yu, Yao Zhang, Dan Zhu, Hongyan Liu, andKaicun Wang*(2024), Flash drought and heatwave compound events increased in strength and length from 1980 to 2022 in China,Weather and Climate Extremes, 46,100720.

5.Chen, Linghong, andKaicun Wang*(2024), Sampling error of mean and trend of nighttime air temperature at weather stations over China using satellite data as proxy. Journal of Geophysical Research: Atmospheres, 129, e2023JD039914.

6.Hao, Hongfei,Kaicun Wang*, Guocan Wu, Jianbao Liu, and Jing Li (2024), PM2.5 concentrations based on near-surface visibility in the Northern Hemisphere from 1959 to 2022,Earth System Science Data, 16(9),4051–4076.

7.Li, Dongpu, Hongli Liu*, Jianbao Liu, Jing Li, andKaicun Wang*(2024), Impacts of anthropogenic emissions and open biomass burning in South Asia and Southeast Asia on air quality and meteorology over southern China,Journal of Geophysical Research: Atmospheres, 129, e2024JD041267.

8.Zhao, Runze,Kaicun Wang*, and Xiangde Xu (2024), A machine learning method to retrieve global rainfall and snowfall rates from the passive microwave observations of FY-3E,Journal of Geophysical Research: Atmospheres, 129(14), e2024JD040731.

9.Hao, Hongfei,Kaicun Wang*, Chuanfeng Zhao, Guocan Wu, and Jing Li (2024), Visibility-derived aerosol optical depth over global land from 1959 to 2021,Earth System Science Data, 16(7), 3233-3260.

10.Zhang, Zhengtai, andKaicun Wang*(2024),Quantify uncertainty in historical simulation and future projection of surface wind speed over global land and ocean.Environmental Research Letters, 19(5): 054029.

11.王开存*，王灿，李龙辉，汪涛，吴国灿，付永硕，马倩，张井勇，蔡闻佳，曹静，喻朝庆，朱华晟，南卓铜，陈旻，张晶，纪多颖，沈妙根，唐文君，何斌，占文凤（2024），陆表自然和人文要素相互作用——全球变化及应对重点专项研究进展，大气科学学报，47(1): 1-22.

12.Mao, Yuna, Jiaxin Bai, Guocan Wu, Lin Xu, Changjian Yin, Fei Feng, Yanyi He, Zhengtai Zhang, andKaicun Wang*(2024), Terrestrial evapotranspiration over China from 1982 to 2020: Consistency of multiple data sets and impact of input data.Journal of Geophysical Research: Atmospheres, 129(3), e2023JD039387.

13.Wu, Guocan, Pengfei Lv, Yuna Mao, andKaicun Wang*(2024), ERA5 Precipitation over China: Better Relative Hourly and Daily Distribution than Absolute Values,Journal of Climate, 37(05): 1581-1596.

14.Feng, Fei, Xin Yang, Baoquan Jia, Xiaoting Li, Xianwen Li, Chengyang Xu*, andKaicun Wang*(2024), Variability of urban green space and its driving factors in 328 cities in China,Science China Earth Sciences, 67(02): 466-482.

15.冯飞,杨鑫,贾宝全,李晓婷,李献文,徐程扬*,王开存*(2024),中国328个城市的植被覆盖度长期变化特征及其驱动因子,中国科学：地球科学，54(02): 486-502.

16.Yu, Kexing, andKaicun Wang*(2024), Diurnal to decadal variability in land surface and air temperature gradient from 2002 to 2022 over the contiguous United States,Journal of Climate, 37(04): 1155-1180.

17.Fu, Kaiqi, andKaicun Wang*(2023), Contributions of local land‒atmosphere coupling and mesoscale atmospheric circulation to the 2013 extreme flash drought and heatwave compound event over southwest China,Journal of Geophysical Research: Atmospheres, 128(21): e2023JD039406.

18.Zhang, Yan, Runze Li,andKaicun Wang*(2023), Climatology and changes in internal intensity distributions of global precipitation systems over 2001-2020 based on IMERG,Journal of Hydrology, 620: 129386.

19.Zhang, Zhengtai,andKaicun Wang*(2023), Homogenization of observed surface wind speed based on geostrophic wind theory over China from 1970 to 2017,Journal of Climate,36(11): 3667-3679.

20.Zhang, Yan,andKaicun Wang*(2023), Mapping the representativeness of precipitation measurements inMainland China,Environmental Research Letters, 18, 024019.

21.Zhang, Yan,andKaicun Wang*(2023), Global precipitation system scale increased from 2001 to 2020,Journal of Hydrology, 616:128768.

22.王开存*，袁慧玲（2023），国家自然科学基金大气科学学科二级申请代码下设研究方向与关键词解读：D0515应用气象学，大气科学，47(1): 230-238.

23.蔡鸿泽，王开存*（2022），基于最新观测和大气再分析估计全球能量平衡，科学通报，67(35): 4263-4280.

24.Fu, Kaiqi,andKaicun Wang*(2022),Quantifying flash droughts over China from 1980 to 2017，Journal of Geophysical Research: Atmospheres, 127(24): e2022JD037152.

25.Li, Runze, Dan Qi, Yan Zhang,Kaicun Wang*(2022), A new pixel-to-object method for evaluating the capability of the GPMIMERG product to quantify precipitation systems,Journal of Hydrology, 2022, 613: 128476.

26.Du, Jizeng, Kaiqi Fu, Baoshan Cui,Kaicun Wang*(2022), Anthropogenic Influenceson 2020 Extreme Dry–WetContrast over South China,Bulletin of the American Meteorological Society,103(3): S68-S74.

27.Ma,Qian,Kaicun Wang*, Yanyi He, Liangyuan Su, Qizhong Wu, Han Liu, and Youren Zhang (2022), Homogenized century-long surface incident solar radiation over Japan,Earth System Science Data, 14, 463-477.

28.Mao, Yuna, Guocan Wu, Guangzhi Xu,Kaicun Wang*(2022), Reduction in precipitation seasonality in China from 1960 to 2018,Journal of Climate, 35(1), 227-248.

29.Zhang, Zhengtai, andKaicun Wang*(2021), Quantifying and adjusting the impact of urbanization on the observed surface wind speed over China from 1985 to 2017,Fundamental Research, 1(6), 785-791.

30.Wu, Guocan,Yun Li, Shun Qin, Yuna Mao, andKaicun Wang*(2021), Precipitation Unevenness in Gauge Observations and Eight Reanalyses from 1979 to 2018 over China, Journal of Climate, 34(24), 9797–9810.

31.Zhao, Zhe,andKaicun Wang*(2021), Capability of Existing Drought Indices in Reflecting Agricultural Drought in China,Journal of Geophysical Research: Biogeosciences, 126(8): e2020JG006064.

32.Zhang, Xin,Kaicun Wang*,and Georgiy Kirillin (2021), An automatic method to detect lake ice phenology using MODIS daily temperature imagery,Remote Sensing, 13(14): 2711.

33.Zhang, Yan, and Kaicun Wang* (2021), Global precipitation system size,Environmental Research Letters, 16(5): 054005.

34.Wu, Guocan, andKaicun Wang*(2021), Observed response of precipitation intensity to dew point temperature over the contiguous US,Theoretical and Applied Climatology, 144: 1349–1362.

35.He, Yanyi, andKaicun Wang*, and Fei Feng (2021), Improvement of ERA5 over ERA-Interim in simulating surface incident solar radiation throughout China,Journal of Climate, 34(10): 3853–3867.

36.Zhang, Zhengtai, andKaicun Wang*(2021), The synoptic to decadal variability in the winter surface wind speed over China by the weather regime view,Geophysical Research Letters, 48(6): e2020GL091994.

37.Feng, Fei, andKaicun Wang*(2021), Merging ground-based sunshine duration observations with satellite cloud and aerosol retrievals to produce high-resolution long-term surface solar radiation over China,Earth System Science Data, 13(3): 907-922.

38.Feng, Fei, andKaicun Wang*(2021), Merging high-resolution satellite surface radiation data with meteorological sunshine duration observations over China from 1983 to 2017,Remote Sensing, 13(4): 602.

39.Li, Runze,Kaicun Wang*, and Dan Qi (2021), Event-Based Evaluation of the GPM Multi-satellite Merged Precipitation Product from 2014 to 2018 over China: Methods and Results,Journal of Geophysical Research: Atmospheres, 126(1): e2020JD033692.

40.Du, Jizeng,Kaicun Wang*, and Baoshan Cui (2021), Attribution of the extreme drought-related risk of wildfires in spring 2019 over Southwest China,Bulletin of the American Meteorological Society,102(1): S83-S90.

41.He, Yanyi,Kaicun Wang*, and Dan Qi (2021), Roles of anthropogenic forcing and natural variability in the record-breaking low sunshine event in January-February 2019 over the Middle-Lower Yangtze Plain,Bulletin of the American Meteorological Society, 102(1): S75- S81.

42.Jiang, Shaojing,Kaicun Wang*, and Yuna Mao (2020), Rapid local urbanization around most meteorological stations explain the observed daily asymmetric warming rates across China from 1985 to 2017,Journal of Climate, 33(20): 9045–9061.

43.Du, Jizeng,Kaicun Wang*, Baoshan Cui, Shaojing Jiang,Correction of inhomogeneities in observed land surface temperatures over China,Journal of Climate, 33(20): 8885–8902.

44.He, Yanyi, andKaicun Wang*(2020), Contrast patterns and trends of lapse rates calculated from near-surface air and land surface temperatures in China from 1961 to 2014,Science Bulletin, 65: 1217-1224.

45.He, Yanyi, andKaicun Wang*(2020), Variability in direct and diffuse solar radiation across China From 1958 to 2017,Geophysical Research Letters, 47, e2019GL084570.

46.Zhang, Xin,Kaicun Wang*and Bertram Boehrer (2020), Variability in observed snow depth over China from 1960 to 2014,International Journal of Climatology,40: 3161-3178.

47.An, Ning, Rachel Pinker,Kaicun Wang*, Eric Rogers, and Zhiyan Zuo (2020), Evaluation of Cloud Base Height in the North American Regional Reanalysis Using Ceilometer Observations,International Journal of Climatology, 40: 3161-3178.

48.Chen, Ziyue, Danlu Chen, Chuanfeng Zhao, Mei-po Kwan, Jun Cai, Yan Zhuang, Bo Zhao, Xiaoyan Wang, Bin Chen, Jing Yang, Ruiyuan Li, Bin He, Bingbo Gao,Kaicun Wang*, and Bing Xu* (2020), Influence of meteorological conditions on PM2.5 concentrations across China: A review of methodology and mechanism,Environmental International, 139: 105558.

49.Zhang, Zhengtai, andKaicun Wang*(2020), Stilling and Recovery of the Surface Wind Speed Based on Observation, Reanalysis, and Geostrophic Wind Theory over China from 1960 to 2017,Journal of Climate, 33: 3989-4008.

50.Zhang, Xin,Kaicun Wang*, Marieke A. Frassl and Bertram Boehrer (2020), Reconstructing six decades of surface temperatures at a shallow lake,Water, 12: 405.

51.Du, Jizeng,Kaicun Wang*, Baoshan Cui, Shaojing Jiang, and Guochan Wu (2020), Attribution of the record-breaking consecutive dry days in winter 2017/18 in Beijing,Bulletin of the American Meteorological Society, 101: S95-S101.

52.Feng, Fei, andKaicun Wang*(2019), Determining factors of monthly to decadal variability in surface solar radiation in China: evidences from current reanalyses,Journal of Geophysical Research: Atmospheres, 124, 9161–9182.

53.Zhang, Zhengtai, andKaicun Wang*, Deliang Chen, Jianping Li, and Robert Dickinson (2019), Increase in surface friction dominates the observed surface wind speed decline during 1973-2014 in the Northern Hemisphere lands,Journal of Climate, 32, 7421-7435.

54.Jiang, Shaojing, Xuhui Lee, Jiankai Wang, andKaicun Wang*(2019), Amplified urban heat islands during heat wave periods,Journal of Geophysical Research: Atmospheres, 124, 7797–7812.

55.Du, Jizeng,Kaicun Wang*,Shaojing Jiang, and Baoshan Cui (2019), Urban dry island effect mitigated urbanization effect on observed warming in China,Journal of Climate, 32, 5705-5723.

56.Feng, Fei, andKaicun Wang*(2019), Does the MERRA-2 aerosol reanalysis introduce an improvement in the simulation of surface solar radiation over China?,International Journal of Climatology, 39(3):1305-1318.

57.Zhou, Chunlüe,Kaicun Wang*, Dan Qi, Jianguo Tan (2019), Attribution of a record-breaking heatwave event in summer 2017 over the Yangtze River Delta,Bulletin of the American Meteorological Society, 100, S97-S103.

58.Jiang, Shaojing, andKaicun Wang*(2018), Exploring the holiday effect on air temperatures,Scientific Reports, 8:17943.

59.Li, Runze,Kaicun Wang*,and Dan Qi (2018), Validating the integrated multi-satellite retrievals for global precipitation measurement in terms of diurnal variability with hourly gauge observations collected at fifty thousand stations in China,Journal of Geophysical Research: Atmospheres, 123(18): 10,423-10,442.

60.Zhou, Chunlüe,Yanyi He, andKaicun Wang*(2018), On the suitability of current atmospheric reanalyses for regional warming studies over China,Atmospheric Chemistry and Physics, 18(11): 8113–8136.

61.He, Yanyi,Kaicun Wang*,ChunlüeZhou, and Martin Wild (2018), A Revisit of Global Dimming and Brightening Based on the Sunshine Duration,Geophysical Research Letters, 45(9): 4281-4289.

62.Du, Jizeng,Kaicun Wang*, Jiankai Wang, Shaojing Jiang, and ChunlüeZhou (2018), Diurnal Cycle of Surface Air Temperature within China in Current Reanalyses: Evaluation and Diagnostics,Journal of Climate, 31(11): 4585–4603.

63.Wang, Xiaoyan, Robert E. Dickinson, Liangyuan Su, Chunlüe Zhou,andKaicun Wang*(2018), PM2.5 pollution in China and how it has been exacerbated by terrain and meteorological conditions,Bulletin of the American Meteorological Society,99(1): 105-119.

64.Feng, Fei, andKaicun Wang*(2018), Merging satellite retrievals and reanalyses to produce global long-term and consistent surface incident solar radiation datasets,Remote Sensing, 10(1): 115.

65.Zhou, Chunlüe,Kaicun Wang*, and Dan Qi (2017),Attribution of the July 2016 extreme precipitation event over China’s Wuhan,Bulletin of the American Meteorological Society, 98(12): S107-S112.

66.Zhou, Chunlüe,Kaicun Wang*, and Qian Ma (2017),Evaluation of eight current reanalyses in simulating land surface temperature from 1979 to 2003 in China,Journal of Climate, 30(18): 7379-7398.

67.Zhou, Chunlüe,andKaicun Wang*(2017),Contrasting Daytime and Nighttime Precipitation Variability between Observations and Eight Reanalysis Products from 1979 to 2014 in China,Journal of Climate, 30: 6443-6464.

68.An, Ning,Kaicun Wang*, Chunlüe Zhou, and Rachel T. Pinker (2017), Observed Variability of Cloud Frequency and Cloud-Base Height within 3600m above the Surface over the Contiguous United States,Journal of Climate, 30: 3725-3742.

69.Zhou, Chunlüe,andKaicun Wang*(2017),Quantifying the Sensitivity of Precipitation to the Long-Term Warming Trend and Interannual–Decadal Variation of Surface Air Temperature over China,Journal of Climate, 30: 3687-3703.

70.Du, Jizeng,Kaicun Wang*, J. Wang, and Q. Ma(2017),Contributions of surface solar radiation and precipitation to the spatiotemporal patterns of surface and air warming in China from 1960 to 2003,Atmospheric Chemistry and Physics,17: 4931-4944.

71.Mao, Yuna, andKaicun Wang*(2017), Comparison of evapotranspiration estimates based on the surface water balance, modified Penman-Monteith model, and reanalysis data sets for continental China,Journal of Geophysical Research: Atmospheres, 122: 3228–3244.

72.Wang*, Kaicun, S. Jiang, C. Zhou, and J. Wang (2017), Comparing the diurnal and seasonal variabilities of atmospheric and surface urban heat islandsbased on the Beijing urbanmeteorological network,Journal of Geophysical Research: Atmospheres, 122: 2131–2154.

73.Zhou,Chunlüe,andKaicun Wang*(2016),Land surface temperature over global deserts: Means, variability, and trends,Journal of Geophysical Research: Atmospheres,121: 14,344–14,357.

74.Wang,Xiaoyan,andKaicun Wang *,andL. Su(2016),Contribution of atmospheric diffusion conditions to the recent improvement in air quality in China,Scientific Reports,6: 36404.

75.Mao, Yuna,Kaicun Wang*, C. Liu and X. Liu (2016), Water Storage in Reservoirs Built from 1997 to 2014 Significantly Altered the Calculated Evapotranspiration Trends over China,Journal of Geophysical Research: Atmospheres, 121(17): 10,097–10,112.

76.Zhou,Chunlüe,andKaicun Wang*(2016),Spatiotemporal Divergence of Warming Hiatus over Land Based on Mean Temperature of Different Definitions,Scientific Reports,6: 31789

77.Wang, Xiaoyan, andKaicun Wang *(2016), Homogenized Variability of Radiosonde-Derived Atmospheric Boundary Layer Height over the Global Land Surface from 1973 to 2014,Journal of Climate, 29(19): 6893-6908.

78.Guo, Li, andKaicun Wang* (2016), Variability of Tornado Occurrence over the Continental United States since 1950,Journal of Geophysical Research: Atmospheres, 121(12): 6943–6953.

79.Zhou, Chunlüe, andKaicun Wang *(2016), Coldest Temperature Extreme Monotonously Increased and Hottest Extreme Oscillated over Northern Hemisphere Land during Last 114 Years,Scientific Reports, 6: 25721.

80.Zhou,Chunlüe,andKaicun Wang*(2016), Evaluation of surface fluxes in ERA‐Interim using flux tower data,Journal of Climate, 29(4): 1573-1582

81.Guo, Li, N. An, andKaicun Wang* (2016) Reconciling the Discrepancy in Ground- and Satellite-Observed Trends in the Spring Phenology of Winter Wheat in China from 1993 to 2008,Journal of Geophysical Research: Atmospheres, 121(3): 1027–1042

82.Li, Z.,Kaicun Wang *, C. Zhou, and L. Wang (2016).Modelling the true monthly mean temperature from continuous measurements over global land,International Journal of Climatology, 36(4): 2103-2110

83.Zhou,Chunlüe, andKaicun Wang *(2016),Biological and Environmental Controls on Evaporative Fractions at AmeriFlux Sites,Journal of Applied Meteorology and Climatology,55(1): 145-161.

84.Ma, Q.,Kaicun Wang *, M. Wild (2015),Impact of geolocations of validation data on the evaluation of surface incident shortwave radiation from earth system models,Journal of Geophysical Research: Atmospheres,120 (14): 6825–6844.

85.Wang*, Kaicun,Q. Ma, Z. Li, and J. Wang (2015),Decadal Variability of Surface Incident Solar Radiation over China: Observations, Satellite Retrievals, and Reanalyses,Journal of Geophysical Research: Atmospheres, 120: 6500–6514.

86.Wang*, Kaicun,and Chunlüe Zhou (2015),Regional Contrasts of the Warming Rate over Land Significantly Depend on the Calculation Methods of Mean Air Temperature,Scientific Reports, 5: 12324.

87.An, N., andKaicun Wang* (2015),A comparison of MODIS-derived cloud amount with surface observations at five SURFRAD sites,Journal of Applied Meteorology and Climatology,54 (5): 1009-1020.

88.Wang, L. andKaicun Wang* (2015), Impacts of DEM uncertainty of estimated solar radiation and extracted river network,Bulletin of the American Meteorological Society, 96: 297-304.

89.Wang*,Kaicun(2014), Measurementbiasesexplaindiscrepancies betweenobserved andsimulateddecadalvariability ofsurfaceincidentsolarradiation,Scientific Reports, 4: 6144.

90.Wang*, Kaicun,Q. Ma, X. Wang, and M. Wild (2014), Urban impacts on mean and trend of surface incident solar radiation,Geophysical Research Letters, 41(13): 4664–4668.

91.Wang, X., andKaicunWang*(2014), Estimation of atmospheric mixing layer height from radiosonde data,Atmospheric Measurement Techniques, 7: 1701–1709.

92.Ma, Q.,KaicunWang*, and M. Wild (2014), Evaluations of atmospheric downward longwave radiation from 44 coupled general circulation models of CMIP5,Journal of Geophysical Research: Atmospheres,119(8): 4486-4497.

93.Wang*,Kaicun(2014), Samplingbiases indatasets ofhistoricalmeanairtemperature overland,Scientific Reports,4: 4637.

94.Wang*,Kaicun,andR. E. Dickinson(2013),Global atmospheric downward longwave radiation at the surface from ground-based observations, satellite retrievals, and reanalyses,Reviews ofGeophysics,51:150–185.

95.Wang*,Kaicun,andR. E. Dickinson (2013),Contribution of solar radiation to decadal temperature variability over land,Proceedings of National Academy of Science of the United States of America,110(37):14877–14882.

96.Wang*,Kaicun,R. E. Dickinson, Q. Ma, J. A. Augustine, and M. Wild (2013), Measurementmethodsaffect theobservedglobaldimming andbrightening,Journal ofClimate,26(12): 4112-4120.

97.Wang*,Kaicun,R. E. Dickinson, M. Wild, S. Liang (2012),Atmospheric impacts on climatic variability of surface incident solar radiation,Atmospheric Chemistry and Physics,12(20): 9581-9592.

98.Wang*,Kaicun,R. E. Dickinson, L. Su, and K. E. Trenberth (2012), Contrasting trends of mass and optical properties of aerosols over the Northern Hemisphere from 1992 to 2011,Atmospheric Chemistry and Physics,12(19): 9387-9398.

99.Wang*,Kaicun,R. E. Dickinson, and S. L. Liang (2012), Globalatmosphericevaporativedemand over and from 1973 to 2008,Journal ofClimate,25(23): 8353-8361.

100.Wang*,Kaicun,and R. E. Dickinson (2012), Areview ofglobalterrestrialevapotranspiration:observation,modeling,climatology, andclimaticvariability,Reviews ofGeophysics,50: RG2005.

101.Wang*,Kaicun,J. Augustine, and R. E. Dickinson (2012), Critical assessment of surface incident solar radiation observations collected by SURFRAD, USCRN and AmeriFlux networks from 1995 to 2011,Journal of Geophysical Research: Atmospheres,117: D23105.

102.Wang*,Kaicun,S. Liang, C. L. Schaaf, and A. H. Strahler (2010), Evaluation ofmoderateresolutionimagingspectroradiometer land surface visible and shortwave albedo products at FLUXNET sites,Journal of Geophysical Research: Atmospheres, 115: D17107.

103.Wang*,Kaicun,R. E. Dickinson, M. Wild, and S. Liang (2010), Evidence for decadal variation in global terrestrial evapotranspiration between 1982 and 2002: 1. method development,Journal of Geophysical Research: Atmospheres, 115: D20112.

104.Wang*,Kaicun,R. E. Dickinson, M. Wild, and S. Liang (2010), Evidence for decadal variation in global terrestrial evapotranspiration between 1982 and 2002: 2. Results,Journal of Geophysical Research: Atmospheres, 115: D20113.

105.Wang*,Kaicun,R. E. Dickinson, and S. Liang (2009), Clearskyvisibility hasdecreased overlandglobally from 1973 to 2007,Science, 323: 1468-1470.

106.Wang*,Kaicun,and S. Liang (2009), Estimation of daytime net radiation from shortwave radiation measurements and meteorological observations,Journal of Applied Meteorology and Climatology, 48: 634-643.

107.Wang*,Kaicun,and S. Liang (2009), Evaluation of ASTER and MODIS land surface temperature and emissivity products using long-term surface longwave radiation observations at SURFRAD sites,Remote Sensing of Environment, 113: 1556-1565.

108.Wang*,Kaicun,andS. Liang (2009), Global atmospheric downward longwave radiation over land surface under all-sky conditions from 1973 to 2008,Journal of Geophysical Research: Atmospheres, 114: D19101.

109.Wang*,Kaicun,andS. Liang (2008),An improved method for estimating global evapotranspiration based on satellite determination of surface net radiation, vegetation index, temperature, and soil moisture,Journal of Hydrometeorology, 9(4): 712-727.

110.Wang*,Kaicun,R. E. Dickinson, and S. Liang (2008), Observational evidence on the effects of clouds and aerosols on net ecosystem exchange and evapotranspiration,Geophysical Research Letters,35: L10401.

111.Wang*,Kaicun, P. Wang, Z. Li, M. Cribb, and M. Sparrow (2007), A simple method to estimate actual evapotranspiration from a combination of net radiation, vegetation index, and temperature,Journal of Geophysical Research: Atmospheres, 112: D15107.

112.Wang*,Kaicun, Z. Wan, P. Wang, J. Liu, and M. Sparrow (2007), Evaluation and improvement of the MODIS land surface temperature/emissivity products using ground-based measurements at a semi-desert site on the western Tibetan Plateau,International Journal of Remote Sensing,28: 2549-2565.

113.Wang*,Kaicun, J. Wang, P. Wang, M. Sparrow, J. Yang, and H. Chen (2007), Influences of urbanization on surface characteristics as derived from the Moderate-Resolution Imaging Spectroradiometer: A case study for the Beijing metropolitan area,Journal of Geophysical Research: Atmospheres, 112: D22S06.

114.Wang*,Kaicun,Z. Li, andM. Cribb (2006), Estimation of evaporative fraction from a Combination of day and night land surface temperatures and NDVI: a new method to determine the Priestly-Taylor parameter,Remote Sensing of Environment, 102: 293-305.

115.Wang*,Kaicun, X. Zhou, J. Liu, and M. Sparrow (2005), Estimating surface solar radiation over complex terrain using moderate-resolution satellite sensor data,International Journal of Remote Sensing,26(1): 47-58.

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