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研究队伍
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姓 名:
  王云强
性 别:
  男
职 称:
  研究员
学 历:
  博士
电 话:
  029-62336292
传 真:
  无
电子邮件:
  wangyq@ieecas.cn
个人主页:
  无
通讯地址:
  西安市雁翔路97号 710061

简历:

  2015.04至今:   中国科学院地球环境研究所,研究员; 

  2012.10-2015.03:中国科学院地球环境研究所,副研究员; 

  2010.12-2012.09:中国科学院地理科学与资源研究所,博士后; 

  2009.11-2010.11:参加中国科学院水利部水土保持研究所优秀博士培育计划,博士; 

  2007.04-2009.10:中国科学院水利部水土保持研究所,提前攻博; 

  2004.09-2007.03:中国科学院水利部水土保持研究所,攻读硕士; 

  2000.09-2004.07:西北农林科技大学资源环境学院,学士。 

研究方向:
从事土壤水分生态环境效应、土壤性质空间变异性、深剖面(>10 m)土壤水分过程研究 

专家类别:
研究员

职务:
黄土与第四纪国家重点实验室副主任

社会任职:

获奖及荣誉:

2017年:国家自然科学基金委优秀青年基金入选者;

2016年:中国土壤学会“优秀青年学者奖”;

2015年:国家“万人计划”青年拔尖人才;

2014年:陕西省青年科技标兵;

2014年:第十届陕西省青年科技奖;

2014年:中国科学院“青年创新促进会”会员;

2013年:陕西省青年科技新星;

2012年:中国科学院优秀博士论文;

2012年:入选中国科学院地球环境研究所“青年百人”计划;

2011年:中国科学院院长特别奖;
代表论著:

[1]     Wang, Y.Q., Han, X.W., Jin, Z., Zhang, C.C., Fang, L.C., 2016. Soil organic carbon stocks in deep soils at a watershed scale on the Chinese Loess Plateau. Soil Science Society of America Journal, 80:157-167.

[2]     Wang, Y.Q., Hu W., Zhu Y.J., Shao, M.A., Xiao, S., Zhang, C.C., 2015. Vertical distribution and temporal stability of soil water in 21-m profiles under different land uses on the Loess Plateau in China. Journal of Hydrology, 527, 543-554.

[3]     Wang, Y.Q., Shao, M.A., Zhang, C.C., Han, X.W., Mao, T.X., Jia, X.X., 2015. Choosing an optimal land-use pattern for restoring eco-environments in a semiarid region of the Chinese Loess Plateau. Ecological Engineering, 74: 213-222.

[4]     Wang, Y.Q., Shao, M.A., Liu, Z.P., Zhang, C.C., 2015. Characteristics of dried soil layers under different ages of apple trees and its applications in deep soil water managements on the Loess Tableland of China. Pedosphere, 25(4): 546-554.

[5]     Wang, Y.Q., Shao, M.A., Zhang, C.C.,  Liu, Z.P., Zou, J.L., Xiao, J., 2015. Soil organic carbon in deep profiles under Chinese continental monsoon climate and its relations with land uses. Ecological Engineering, 82, 361-367.

[6]     Wang, Y.Q., Shao, M.A., Han, X.W., Liu, Z.P., 2015. Spatial variability of soil parameters of the van Genuchten model at a regional scale. CLEAN - Soil, Air, Water, 43(2): 271-278.

[7]     Wang, Y.Q., Shao, M.A., Liu, Z.P., Zhang, C.C., 2014. Prediction of Bulk Density of Soils in the Loess Plateau Region of China. Surveys in Geophysics, 35(2): 395-413.

[8]     Wang, Y.Q., Shao, M.A., Liu, Z.P., Horton, R., 2013. Regional-scale variation and distribution patterns of soil saturated hydraulic conductivities in surface and subsurface layers in the loessial soils of China. Journal of Hydrology,487: 13-23.

[9]     Wang, Y.Q., Shao, M.A., Liu, Z.P., 2013. Vertical distribution and influencing factors of soil water content within 21-m profile on the Chinese Loess Plateau. Geoderma, 193-194: 300-310.

[10] Wang, Y.Q., Shao, M.A., Liu, Z.P., Warrington, D.N., 2012. Investigation of factors controlling the regional scale distribution of dried soil layers under forestland on the Loess Plateau, China. Surveys in Geophysics, 33:311-330.

[11] Wang, Y.Q., Shao, M.A., Liu, Z.P., Warrington, D.N., 2012. Regional spatial pattern of deep soil water content and its influencing factors. Hydrological Science Journal, 57:265-281.

[12] Wang, Y.Q., Shao, M.A., Liu, Z.P., 2012. Pedotransfer functions for predicting soil hydraulic properties of the Chinese Loess Plateau. Soil Science, 177(7): 424-432.

[13] Wang, Y.Q., Shao, M.A., Zhu, Y.J., Liu, Z.P, 2011. Impacts of land use and plant characteristics on dried soil layers in different climatic regions on the Loess Plateau of China, Agricultural and Forest Meteorology, 151(4), 437-448.

[14] Wang, Y.Q., Shao, M.A., Liu, Z.P., 2010. Large scale spatial variability of dried soil layers and related factors across the entire Loess Plateau of China. Geoderma, 159(1-2): 99-108.

[15]   Wang, Y.Q., Shao, M.A., Shao, H.B., 2010. A preliminary investigation of the dynamic characteristics of dried soil layers on the Loess Plateau of China. Journal of Hydrology, 381(1-2): 9-17.

[16]   Wang, Y.Q., Shao, M.A., 2009. Infiltration characteristics of non-aqueous phase liquids in undisturbed loessal soil cores. Journal of Environmental Sciences, 21(10): 1424-1431.

[17] Wang, Y.Q., Zhang, X.C., Zhang, J.L., Li, S. J., 2009. Spatial variability of soil organic carbon in a watershed on the Loess Plateau. Pedosphere, 19(4): 486-495.

[18] Wang, Y.Q., Zhang, X.C., Huang, C.Q., 2009. Spatial variability of soil total nitrogen and soil total phosphorus under different land uses in a small watershed on the Loess Plateau, China. Geoderma, 150(1-2): 141-149.

[19] Zhao, Y.L., Wang, Y.Q., Wang, L., Fu, Z.H., Zhang, X.Y., Cui, B.L., 2017. Soil-water storage to a depth of 5 m along a 500-km transect on the Chinese Loess Plateau. Catena, 150: 71-78.

[20] Liu, Z.P., Wang, Y.Q., Shao, M.A., Jia, X.X., Li, X.L., 2016. Spatiotemporal analysis of multiscalar drought characteristics across the Loess Plateau of China. Journal of Hydrology, 534: 281-299.

[21] Jin, Z., Dong, Y.S., Wang, Y.Q., Wei, X.R., Wang, Y.F., Cui, B.L., Zhou, W.J., 2014. Natural vegetation restoration is more beneficial to soil surface organic and inorganic carbon sequestration than tree plantation on the Loess Plateau of China. Science of the Total Environment, 485-486: 615-623.

[22] Liu, Q., Wang, Y.Q., Zhang, J., Chen, Y.P., 2013. Filling gullies to create farmland on the Loess Plateau. Environmental Science & Technology, 47(14): 7589-7590.

[23] Liu, Z.P., Shao, M.A., Wang, Y.Q., 2013. Scale-dependent correlations between soil properties and environmental factors across the Loess Plateau of China. Soil Research, 51(2): 112-123.

[24] Liu, Z.P., Shao, M.A., Wang, Y.Q., 2012. Large-scale spatial interpolation of soil pH across the Loess Plateau region of China. Environmental Earth Science, 69(8): 2731-2741.

[25] Liu, Z.P., Shao, M.A., Wang, Y.Q., 2012. Regional spatial patterns of soil total nitrogen and soil total phosphorus across the Loess Plateau region, China. Geoderma, 197: 67-78.

[26] Liu, Z. P., Shao, M. A., Wang, Y. Q., 2011. Effect of environmental factors on regional soil organic carbon stocks across the Loess Plateau region, China, Agriculture, Ecosystems and Environment, 142(3-4): 184-194.

[27] Zhu, Y.J., Wang, Y.Q., Shao, M.A., Horton R., 2011. Estimating soil water content from surface digital image gray level measurements under visible spectrum, Canadian Journal of Soil Science, 91: 69-76.

[28] Zhu, Y.J., Wang, Y.Q., Shao, M.A., 2010. Using soil surface gray level to determine surface soil water content. SCIENCE CHINA Earth Sciences, 53(10): 1527-1532.

[29] 王云强,邵明安,刘志鹏. 2012. 黄土高原区域尺度土壤水分空间变异性. 水科学进展,23(3): 310-316.

[30] 王云强,张兴昌,朱元骏,曾辰. 2011. 次降雨后不同时段坡地表层土壤水分和容重的空间变异特征. 水土保持学报25(5): 242-246.

[31] 王云强,张兴昌,韩凤朋. 2008. 黄土高原淤地坝土壤性质剖面变化规律及其功能探讨. 环境科学29(4):1020-102.

[32] 王云强,张兴昌. 2008. 黄土区小尺度坡面土壤含水率时空变异性研究. 水土保持学报,22(2):32-37.

[33] 王云强,张兴昌,李顺姬,张景利. 2007. 小流域土壤矿质氮与地形因子的关系及其空间变异性研究. 环境科学28(7): 1567-1572.

[34] 王云强,张兴昌,从伟,魏清才. 2006. 黄土区不同土地利用方式坡面土壤含水率的空间变异性研究. 农业工程学报22(12): 65- 71.

[35] 张晨成,邵明安,王云强. 2012. 黄土区坡面尺度不同植被类型下土壤干层的空间分布. 农业工程学报,28(17): 102-108.

[36] 刘志鹏,邵明安,王云强. 2012. 黄土高原区域尺度土壤全钾状态空间模拟. 农业工程学报, 28(22132-140.

中国科学院地球环境研究所 版权所有:中国科学院地球环境研究所 单位邮编:710061
单位地址:陕西省西安市雁塔区雁翔路97号 电子邮件:web@ieecas.cn