王维真

 

 

王维真,研究员,博导wangweizhen,主要从事气象环境水文学及干旱区定量遥感研究。

教育经历:

1986年8月至1990年7月, 西北林学院林学系林学专业  学士学位

1998年10月至2000年9月,九州大学大学院生物资源环境科学研究科林业学   硕士学位

2000年10月至2004年6月,九州大学大学院生物资源环境科学府森林资源科学 博士学位

工作经历:

1990年8月至1998年9月, 兰州市园林局  工程师

2004年6月至 2005年6月,九州大学农学研究院  项目研究员

2005年10月至2010年12月,中国科学院寒区旱区环境与工程研究所   副研究员

2011年1月至今,中国科学院寒区旱区环境与工程研究所   研究员

承担科研项目情况:

  1. 2009年-2013年,973项目“干旱区绿洲化、荒漠化过程及其对人类活动、气候变化的响应与调控”第五课题“流域水文过程与绿洲化、荒漠化的相互作用及综合模拟”专题:“内陆河流域土壤水分动态变化的模拟与研究”。(在研)
  2. 2012年-2015年,国家自然科学基金重点支持项目“黑河流域生态-水文过程综合遥感观测试验:水文气象要素与多尺度蒸散发观测”,专题“水文气象观测网”。(在研)
  3. 2012年-2015年,中国科学院西北行动计划项目“黑河流域生态-水文遥感产品生产算法研究与应用试验”第四课题“中游灌区遥感支持下的灌溉优化配水试验”。(在研)
  4. 2013年-2016年,国家自然科学基金面上项目:“近地层能量平衡闭合问题及其影响和修正方法研究”。(在研)
  5. 2011年-2013年,中日合作项目(II期):“沙漠化地区盐分动态控制的高持续农田耕作管理技术研究”。(在研)
  6. 2006年-2008年,中科院寒旱所引进人才基金项目:“山地林区通量输送观测计算方法研究”。(结题)
  7. 2007年-2009年,中日合作项目(I期):“沙漠化地区根区层盐分动态控制的高持续农田耕作管理技术研究”。(结题)
  8. 2009年-2011年,国家自然科学基金面上项目:“复杂条件下湍流通量的观测与分析研究”。(结题)

文章发表情况:

  1. Wang, W., T. Kobayashi and J. Chikushi. Measuring the layer-average volumetric water content in the uppermost 5 cm of soil using printed circuit board TDR probes. J. Fac. Agr. Kyushu Univ., 2000. 45(1), pp.277-287.
  2. Wang, W., T. Kobayashi., H. Cho and J, Chikushi. A comparison experiment of two types of printed circuit board TDR probes. J. Fac. Agr. Kyushu Univ., 2001. 46(1), pp.15-21.
  3. Watanabe, E., Wang, W., Kobayashi, T., Cho, H., He, W. and Mohri, N., Measuring Soil Solution Electrical Conductivity Using TDR at a JST Experimental Field in the Yellow River Basin in Inner Mongolia, China. Kyushu J. Agric. Meteorol., II 2003. 12., pp. 17-22.
  4. Wang, W., T. Kobayashi., H. Cho., M. Mori, E. Watanabe and R. Iwanaga. An Experiment on the Spatial Variability of Water Balance Terms in a Small Grass-Covered Area. J. Japan Soc. Hydrol, & Water Resour., 2004. Vol.17, No.3, pp. 264-273.
  5. Wang, W., Watanabe, E., Kobayashi, T., Cho, H., He, W. and Mohri, N. A method for measuring soil solution electrical conductivity in the field using TDR. J. Japan Soc. Hydrol.& Water Resour. J. Japan Soc. Hydrol, & Water Resour., 2005. Vol.18, No.1, pp. 55-63.
  6. Iwanaga, R., Kobayashi, T., Wang , W., He, W., Teshima, J.,and Cho, H., Evluating the Irrigation Requirement at a Cornfield in the Yellow River Basin Based on the “ Dynamic Field Capacity” J. Japan Soc. Hydrol, & Water Resour., 2005. Vol.18, No.6, pp. 663-673.
  7. Takemasa Kaneko, Tetsuo Kobayashi, Weizhen Wang, Wenjun He, and Hiroyuki Cho. Evaporation from a Frozen Soil in an Oasis in Inner Mongolia, China. Kyushu J. Agric. Meteorol.,2005.  II 14., pp. 15-20.
  8. Wang, W., T. Kobayashi., H. Cho and He, W., Simultaneous Measurement of Soil Water Content and Solution Electrical Conductivity in an Irrigated Cornfield Using TDR. Hydrol.& Water Resour. J. Japan Soc. Hydrol, & Water Resour., 2006. Vol.19, No.5, pp. 350-359.
  9. Kobayashi, T., Wang , W., Ikawa ,Y., Cho, H. and He, W., An Easily Measurable and Practical Index of Soil Salinity. Hydrol.& Water Resour. J. Japan Soc. Hydrol, & Water Resour., 2006. Vol.19, No.6, pp. 183-188.
  10. Kobayashi, T., Cho, H., Kaneko, T., Wang, W. & Yokoyama, D. A survey of the relationship between soil salinization and soil texture in the upper Yellow River basin. Kyushu J. Agric. Meteorol., 2006. Ⅱ, 15, 1-6.
  11. Kaneko, T., Kobayashi, T., Wang, W., He, W. & Cho, H. An evaluation of the overwinter loss of the water irrigated in late autumn in the upper reaches of the Yellow River. J. Japan Soc. Hydrolo. & Water Resour., 2006. 19, 465-474.
  12. Kaneko, T., Kobayashi, T., Wang, W. and Cho, H., Estimating evaporation in winter at a field irrigated late in autumn in Inner Mongolia, China J. Fac. Agr. KyushuUniv., 2006. 51: 407-412.
  13. 王维真,小林哲夫. 中国半干旱地区作物系数研究. 气象利用研究,2006. Vol. 19 pp. 64-67.
  14. Kaneko, T., Kobayashi, T., Wang, W. and Cho, H.,Estimating evaporation in winter at a field irrigated late in autumn in Inner Mongolia, China J. Fac. Agr. Kyushu Univ, 2006, 51: 407-412.
  15. Yasutake, Daisuke; Kobayashi, Tetsuo; Ikegami, Daichi; Iwanaga, Risa; Wang, Weizhen; He, Wenjun; Kitano, Masaharu. Analyses of crop coefficients and water balance in an irrigated cornfield in the upper yellow river basin. J. Agric. Meteorol., 2007, 63(3)115-124.
  16. 王介民,王维真,奥银焕,孙方林,王树果. 复杂条件下湍流通量的观测与分析. 地球科学进展,2007. Vol.22, No.8, 791-797.
  17. 王维真,小林哲夫. 利用TDR对土壤含水量及土壤溶液电导率的同步连续测量. 冰川冻土,2008. Vol. 30, No.3, 488-493.
  18. Wang, W., Kobayashi, T., Yasutake, D., Kitano, M., Cho, H., Araki, T. and Yoshikoshi, H. , Experiments on the control of salinity and sodicity in surface irrigated fields in the upper Yellow River Valley (I). Objectives and Methodology, J. Fac. Agr. KyushuUniv., 2008. 53: 251-256.
  19. Yoshikoshi, H., Wang, W., Cho, H., Araki, T., Yasutake, D., Zhou, J., Urayama, K. Wu, Y., Kobayashi, T. and Kitano, M., Experiments on the control of salinity and sodicity in surface irrigated fields in the upper Yellow River Valley (II).Observation system and calibration, J. Fac. Agr. KyushuUniv., 2008. 53: 257-263.
  20. Yasutake, D., Araki, T. Kitano, M., Wang, W., Urayama, K., Cho, H. and Kobayashi, T., Experiments on the control of salinity and sodicity in surface irrigated fields in the upper Yellow River Valley (III).The state of salinization and alkalization in and around the Pingbu experimental field, J. Fac. Agr. KyushuUniv., 2008. 53: 265-270.
  21. 李新,马明国,王建,刘强,车涛,胡泽勇,肖青,柳钦火,苏培玺,楚荣忠,晋锐,王维真,冉有华. 黑河流域遥感—地面观测同步试验:科学目标与试验方案,地球科学进展,2008,23(9),897-914.
  22. Kobayashi, T., Yasutake, D., Wu, Y., Urayama, K., Tagawa, K., Wang, W. and Cho, Experiments on the control of salinity and sodicity in surface irrigated fields in the upper Yellow River Valley (IV). Tools for analyzing soil salinity and sodicity and related properties of the field soils, J. Fac. Agr. KyushuUniv., 2009. 53. 535-541.
  23. 王维真,徐自为,刘绍民,李新,马明国,王介民. 黑河流域不同下垫面水热通量特征分析,地球科学进展,2009,Vol. 24, No.7, 714-723.
  24. 王介民,王维真,刘绍民,马明国,李新. 近地层能量平衡闭合问题–综述及个例分析,地球科学进展,2009,Vol. 24, No.7, 705-713.
  25. 王维真,吴月茹,晋锐,王建,车涛. 冻融期土壤水盐变化特征分析——以黑河上游祁连县阿柔草场为例,冰川冻土,2009,Vol. 31, No.2, 268-274.
  26. 吴月茹,王维真,晋锐,王建,车涛. TDR测定土壤含水量的标定研究,冰川冻土,2009, Vol. 31, No.2, 262-267.
  27. 冉有华,李新,王维真,晋锐. 黑河流域临泽盐碱化草地网格尺度多层土壤水分时空稳定性分析,地球科学进展,2009,Vol. 24, No.7, 817-823.
  28. 双喜,刘绍民,徐自为,王维真. 黑河流域观测通量的空间代表性研究,地球科学进展,2009,Vol. 24, No.7, 724-733.
  29. 王建,车涛,张立新,晋锐,王维真,李新,梁继,郝小华,李弘毅,吴月茹,胡泽勇. 黑河流域上游寒区水文遥感-地面同步观测试验,冰川冻土,2009,31(2),189-197.
  30. 马明国; 刘强; 阎广建; 陈尔学; 肖青; 苏培玺; 胡泽勇; 李新; 牛铮; 王维真; 钱金波; 宋怡; 丁松爽; 辛晓洲; 任华忠; 黄春林; 晋锐; 车涛; 楚荣忠. 黑河流域遥感—地面观测同步试验:森林水文和中游干旱区水文试验,地球科学进展,2009,Vol. 24, No.7, 681-695.
  31. Daisuke Yasutake, Takuya Araki, Weizhen Wang, Tetsuo Kobayashi, Hiroyuki Cho, Makito Mori, Masaharu Kitano, Analysis of salts transport affected by root absorption capacity in surface – irrigated fields in the upper Yellow River basin. Biologia. 2009, 64(3): 570-574.
  32. Tetsuo Kobayashi, Junichi Teshima, Makito Mori, Daisuke Yasutake, Weizhen Wang, Hiroyuki Cho. Identification of the composite parameters of the BBH-B model specifying the effects of biohydrologic processes on the water balance of crop fields. Biologia. 2009. 64(3): 478-482.
  33. Yoshikoshi, H., Kobayashi, T., Wang, W. and Yasutake, D. A characteristic feature of diurnal air temperature variation in semiarid regions in the upper Yellow River valley J. Agric. Meteorol., 2009, 65(2)215-219.
  34. Li X, Li XW, Li ZY, Ma MG, Wang J, Xiao Q, Liu Q, Che T, Chen EX, Yan GJ, Hu ZY, Zhang LX, Chu RZ, Su PX, Liu QH, Liu SM, Wang JD, Niu Z, Chen Y, Jin R, Wang WZ, Ran YH, Xin XZ, Ren HZ. Watershed Allied Telemetry Experimental Research. Journal of Geophysical Research, 2009, Vol. 114, D22103.
  35. Mori, Makito; Yoshikoshi, Hisashi; Kobayashi, Tetsuo; Wang, Weizhen; Yasutake, Daisuke. Determination of the aerodynamic roughness length of a bare soil field using Monin-Obukhov similarity theory. J. Agric. Meteorol., 2010, 66(2)117-124.
  36. 王维真,徐自为,李新,王介民,张智慧. 大孔径闪烁仪在黑河流域的应用分析研究,地球科学进展,2010, Vol. 25, No.11, 1208-1216.
  37. 吴月茹,王维真,王海兵,张智慧. 黄河上游盐渍化农田土壤水盐动态变化规律研究. 水土保持学报, 2010, 24(3): 80-84.
  38. Yueru Wu, Daisuke Yasutake, Weizhen Wang, Tetsuo Kobayashi. Soil and Water Salinization and Sodification in Fields Irrigated with Water from the Yellow River in a Semiarid Region. Journal of Arid Land Studies, 2010. 20 (1), 15-20.
  39. 张智慧,王维真,马明国,徐自为,吴月茹,黄广辉,谭俊磊. 黑河综合遥感联合试验涡动相关通量数据处理方法及产品分析. 遥感技术与应用,2010, Vol. 25, No.6, 788-796.
  40. S.M. Liu, Z.W. Xu, W.Z. Wang, Z.Z. Jia, M.J. Zhu, J. Bai, and J.M. Wang. A comparison of eddy-covariance and large aperture scintillometer measurements with respect to the energy balance closure problem. Hydrol. Earth Syst. Sci., 2011, 15, 1291–1306, doi:10.5194 /hess-15-1291-2011.
  41. 吴月茹,王维真,王海兵,张智慧. 采用新电导率指标分析土壤盐分变化规律. 土壤学报,2011. 48 (4): 869-874.
  42. 马春锋,王维真,吴月茹,张智慧. 采用BBH模型模拟计算黑河中上游农田和草地的土壤水分研究. 冰川冻土,2011. 33 (6).
  43. Yueru Wu, Weizhen Wang, Makito MORI, Daisuke YASUTAKE, Hiroyuki CHO, Tetsuo KOBAYASHI and Masaharu KITANO. Spatial Discrimination of Salt-Affected Soil Surfaces Using Landsat TM Data. J. Fac. Agr. Kyushu Univ., 2012. 57(2), pp.461-465.
  44. 马春锋,王维真,吴月茹,欧阳斌,庄金鑫. 基于MODIS数据的黑河流域土壤热惯量反演研究. 遥感技术与应用,2012,27(2): 197-207.
  45. 李新,李小文,李增元,王建,马明国,刘强,肖青,胡泽勇,车涛,王介民,柳钦火,陈尔学,阎广建,刘绍民,王维真,张立新,王锦地,牛铮,晋锐,冉有华,王亮绪.黑河综合遥感试验研究进展:概述. 遥感技术与应用,2012,27(5): 637-648.
  46. 李新,刘绍民,马明国,肖青,柳钦火,晋锐,车涛,王维真,祁元,李弘毅,朱高峰,郭建文,冉有华,闻建光,王树果. 黑河流域生态_水文过程综合遥感观测联合试验总体设计. 地球科学进展,2012,27(5): 481-498.
  47. Liu Suhua, Zhuang Jinxin, XU Fengying, GE Yingchun, WANG Weizhen, KOBAYASHI Tetsuo. Estimating the Evaporation from Irrigation Canals in Arid Regions. Kyushu J Agric. Meteorol., 2012, II. 21 pp 50-53.

会议论文(EI):

  1. Wang Weizhen, Xu Ziwei, Li Xin, Wang Jiemin, Zhang Zhihui. Study on applications of Large Aperture Scintiliometer Measuring Large Scale Flux, Proceedings of IGRASS 2011. pp 3417-3420.2011 IEEE. DOI: 10.1109/IGARSS.2011.6049954.
  2. Yueru Wu, Weizhen Wang. Modelling the backscattering coefficient of salt-affected soils using AIEM model. Proceedings of SPIE, 2011, Vol. 8181, pp 81811O:1-8, DOI: 10. 1117/12. 897933.
  3. Yueru Wu, Xujun Han, Weizhen Wang. Discrimination soil salinization distribution in the middle region of the Heihe river basin using TM data. pp 4225-4228 IEEE/IGARSS. 2012.6049954.
  4. Chunfeng Ma, Xujun Han, Weizhen Wang. Soil moisture retrieval using thermal inertia method in the Heihe river basin, China. pp 694-697 IEEE/IGARSS.2012.6049954.