2016-2017 科研论著

作者: 2017-10-05 来源:
放大 缩小浏览量:60

  Ao, Yinhua, Han, Bo, Lu, Shihua, Li, Zhaoguo. 2016. Internal evaporation and condensation characteristics in the shallow soil layer of an oasis. Theoretical and Applied Climatology. 125(1-2): 281-293. 

  Chen JL, J Wen, H Tian. 2016. Representativeness of the ground observational sites and up-scaling of the point soil moisture measurements. Journal of Hydrology, 533, 62-73. 

  Evans, J. P., Meng, X., and McCabe, M. F. 2017. Land surface albedo and vegetation feedbacks enhanced the Millennium drought in south-east Australia, Hydrol. Earth Syst. Sci., 21, 409-422, doi:10.5194/hess-2016-439. 

  Fang Xuewei, Luo Siqiong, Lyu Shihua, et al. 2016. A Simulation and Validation of CLM during Freeze-Thaw on the Tibetan Plateau. Advances in Meteorology. DOI: 10.1155/2016/9476098. 

  Han B, Lü S, Li R, et al. 2017. Global land surface climate analysis based on the calculation of a modified Bowen ratio. Advances in Atmospheric Sciences, 34(5): 663-678. 

  Jia D, Wen J, Zhang T, et al. 2016. Responses of soil moisture and thermal conductivity to precipitation in the mesa of the Loess Plateau[J]. Environmental Earth Sciences, 75(5): 395.      

  Kirillin G, Wen L, Shatwell T. 2017. Seasonal thermal regime and climatic trends in lakes of the Tibetan highlands. Hydrology and Earth System Sciences, 21(4): 1895. 

  Lai X, J Wen, SX Cen, X Huang, H Tian, XK Shi. 2016. Spatial and Temporal Soil Moisture Variations over China from Simulations and Observations. Advances in Meteorology, doi:10.1155/2016/4587687, Article ID: 4587687, 1-15. 

  Li R, Lv S, Han B, et al. 2017. Projections of South Asian summer monsoon precipitation based on 12 CMIP5 models. International Journal of Climatology, 37(1): 94-108. 

  Li Zhaoguo, Lyu Shihua, Wen Lijuan, Zhao Lin, Ao Yinhuan, Wang Shaoying. 2017. Effect of a cold, dry air incursion on atmospheric boundary layer processes over a high-altitude lake in the Tibetan Plateau. Atmospheric Research. 185:32-43. 

  Li Zhaoguo, Lyu Shihua, Zhao Lin, et al. 2016. Turbulent transfer coefficient and roughness length in a high-altitude lake, Tibetan Plateau. Theoretical and Applied Climatology. 124(3-4):723-735. 

  Liu R, J Wen, X Wang, ZL Wang. 2017. Validation of evapotranspiration and its long-term trends in the Yellow River source region. Journal of Water and Climate Change. DOI: 10.2166/wcc.2017.134. 

  Luo Siqiong, Fang Xuewei, Lyu Shihua, Ma Di, Chang Yan, Song Minhong, Chen Hao. 2016. Frozen ground temperature trends associated with climate change in the Tibetan Plateau Three River Source Region from 1980 to 2014. Climate Research67:241-255. 

  LV SN, YJ Zeng, J Wen, DH Zheng, ZB Su. 2016. Determination of the Optimal Mounting Depth for Calculating Effective Soil Temperature at L-Band:Maqu Case. Remote Sensing, 8(3), 476. 

  LV SN, YJ Zeng, J Wen, ZB Su. 2016. A reappraisal of global soil effective temperature schemes. Remote Sensing of Environment, 183, 144-153.       

  Meng, X. R. Li, L. Luan, S. Lyu, T. Zhang, Y. Ao, B. Han, L. Zhao, Y. Ma. 2017. Detecting hydrological consistency and changes of soil moisture in summer over the Tibetan Plateau using the European Space Agency satellite soil moisture products. Climate Dynamics, DOI: 10.1007/s00382-017-3646-5.  

  Pan Y, Lyu S, Li S, et al. 2017. Simulating the role of gravel in freeze–thaw process on the Qinghai–Tibet Plateau. Theoretical and Applied Climatology, 127(3-4): 1011-1022. 

  Shang, L Y., Zhang, Y., Lü, S. et al. 2016. Seasonal and Inter-Annual Variations in Carbon Dioxide Exchange over an Alpine Grassland in the Eastern Qinghai-Tibetan Plateau. PLOS ONE, 11(11): e0166837 

  Shi R, Su P, Zhou Z. 2016. Resources use efficiency of the cosmopolitan plant Potentilla anserina L. in different alpine habitats in China. BMC Plant Biology, 16. 

  Su P, Li S, Zhou Z, et al. 2016. Partitioning evapotranspiration of desert plants under different water regimes in the inland Heihe River Basin, Northwestern China. Arid Land Research and Management, 30(2): 138-152. 

  Wang, S., Zhang, Y., Lü, S. et al. 2016. Biophysical regulation of carbon fluxes over an alpine meadow ecosystem in the eastern Tibetan Plateau. International journal of biometeorology. 60(6), 801-812. 

  Wen L, Lyu S, Kirillin G, et al. 2016. Air–lake boundary layer and performance of a simple lake parameterization scheme over the Tibetan highlands. Tellus A: Dynamic Meteorology and Oceanography, 68(1): 31091. 

  Xie T T, Su P X, An L Z, et al. 2017. Carbon stocks and biomass production of three different agroforestry systems in the temperate desert region of northwestern China. Agroforestry Systems, 91(2): 239-247. 

  Xie T, Su P, An L, et al. 2016. Physiological characteristics of high yield under cluster planting: photosynthesis and canopy microclimate of cotton. Plant Production Science, 19(1): 165-172. 

  Zhao Lin, Han Bo, Lyu Shihua, et al. 2016. The different influence of the residual layer on the development of the summer convective boundary layer in two deserts in northwest China. Theoretical and Applied Climatology, 1-12. 

  Zhou J, J Wen, X Wang, D Jia, JL Chen. 2016. Analysis of the Qinghai-Xizang Plateau Monsoon Evolution and Its Linkages with Soil Moisture. Remote Sensing, doi:10.3390/rs8060493, 8(6), 493. 

  Zhou Z, Su P, Shi R, et al. 2016. The comparison of physiological and biochemical mechanisms of Reaumuria soongorica and Salsola passerine in different growth pattern[J]. BMC Plant Biology, 16. 

  边晴云, 吕世华, 陈世强, . 2016. 黄河源区降雪对不同冻融阶段土壤温湿变化的影响. 高原气象, 35(3), 621-632. 

  常燕,吕世华,罗斯琼. 2016. CMIP5 模式对青藏高原冻土变化的模拟和预估. 高原气象, 35(5):157-1168. 

  陈金雷, 文军, 田辉. 2016. 黄河源区土壤湿度升空间尺度研究.  高原气象,35 (5): 1212-1223.  

  刘蓉, 文军, 王欣. 2016. 黄河源区蒸散发量时空变化趋势及突变分析. 气候与环境研究. 2016, 21 (5): 503511.  

  刘蓉, 文军, 王欣. 2016. 黄河源区蒸散发量时空变化趋势及突变分析. 气候与环境研究. 21 (5): 503−511 

  栾澜, 孟宪红, 吕世华, . 2017.青藏高原一次对流降水模拟中边界层参数化和云微物理的影响研究. 高原气象, 36(2): 283-293. 

  王丹云, 吕世华, 韩博, . 2017. 30 年黄土高原春季降水特征与春旱变化的关系. 高原气象, 36(2): 395-406. 

  杨显玉,文军,王大勇,李江林, 2016. —次甘肃强降水过程的数值模拟与诊断分析. 高原气象,35(3) : 726-733. 

Peixi S, Tingting X. 13 Chapter. Agroecology research and Practice in the Oasis region, Northwest China. Agroecology in China: Science, Practice, and Sustainable Management, 2017: 315.【专著】
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