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姓名:王建东
性别: 男
民族: 汉
籍贯:湖南省茶陵县
职称: 研究员
最高学历学位: 研究生/博士
电话:13699229028
Email:wangjiandong@caas.cn
地址:北京市海淀区中关村南大街12号环发所

招生专业
农业水资源与环境(博士/硕士)

简介
1.学习背景
2015.7-2016.7  美国加州大学戴维斯分校(UCDAVIS),土壤、空气和水资源系,访问学者(合作研究)
2005.9-2010.6  中国水利水电科学研究院,水利水电工程,工学博士
2001.9-2004.6  中国农业大学,农业水土工程,工学硕士
1997.9-2001.6  中国农业大学,农田水利工程,工学学士
2.工作经历
2004.6-2018.12  中国水利水电科学研究院,教高,研究室主任,所长助理
2019.1-至今    中国农业科学院农业环境与可持续发展研究所,研究员
3.学术兼职
[1]农业农村部节水农业专家指导组成员
[2]农业农村部种植业管理司绿色种养循环农业专家指导组成员
[3]中国农用塑料应用技术学会灌溉与节水分会会长
[4]中国灌区协会微灌分会副会长
[5]中国农业节水与农村供水技术协会农业节水设备分会副会长
[6]中国农业技术推广协会节水农业技术专业委员会副秘书长
[7]《Agriculture-Basel》期刊编委,客座编辑

研究领域和研究方向
研究领域:农业节水原理与技术研究及产品研发
研究方向:1)作物水肥高效利用原理与技术研究;2)节水灌溉原理与技术研究及产品研发;3)综合节水技术模式集成与应用

科研业绩
1.主持主要项目
[1]2019-2025年,中国农业科学院青年英才专项(2019-2025):“绿色农业水肥高效利用技术与产品研发”
[2]2019-2022年,国家自然科学基金面上项目(51879277):“覆盖滴灌农田微气候特征与作物耗水机制“
[3]2014-2018年,国家十二五科技支撑计划课题(2014BAD12B05):“节水增粮高效灌溉关键技术与装备”
[4]2013-2016年,国家自然科学基金面上项目(51279211):“覆盖免耕下大田作物高效滴灌的调控机理”
[5]2008-2010年,国家自然科学基金青年项目(50709045):“滴灌对作物农田生长环境优化调控模式研究”
[6]2011-2013年,国家公益行业专项项目(201101048)课题:“主要作物节水的生理技术及配套农艺研究”
2.获奖情况
[1]2013年度:“轻质多功能喷灌产品研制与软件开发”获农业节水科技奖一等奖(省部级一等奖),排名第7
[2]2014年度:“山丘区清洁能源节水灌溉关键技术研究与应用”获农业节水科技奖一等奖(省部级一等奖),排名第2
[3]2014年度:“低压滴灌灌水器”“获首届先锋青年创新创意大赛三等奖(中央国家机关团工委),排名第1
[4]2015年12月:“精量滴灌关键技术与产品研发及应用”获国家科学技术进步奖二等奖(中华人民共和国国务院),排名第8
[5]2016年度:“宁夏中部干旱带扬黄延伸区限额灌溉技术研究”获农业节水科技奖一等奖(省部级一等奖);排名第9
[6]2017年度,“宁夏中部干旱带扬黄灌区节水技术集成研究”获大禹水利科学技术奖三等奖(省部级三等);排名第4
[7]2021年度: “覆盖滴灌粮食作物水肥高效利用关键技术与产品” 获农业节水科技奖一等奖(省部级一等奖);排名第1
3.代表性论文
已发表学术论文120余篇(SCI & EI收录53篇),以第一作者和通讯作者发表的代表性学术期刊论文如下:
[1]王建东,龚时宏,徐茂云,等.微灌用水动活塞式施肥泵研制. 农业工程学报,2006,22(6):100-103
[2]王建东,龚时宏,隋娟,徐红,于颖多. 华北地区滴灌灌水频率对春玉米生长和农田土壤水热分布的影响.农业工程学报,2008,24(2):39-45
[3]王建东,龚时宏,于颖多,梁艳萍. 地面灌灌水频率对土壤水与温度及春玉米生长的影响. 水利学报, 2008,39(4):500-505
[4]王建东, 龚时宏, 高占义, 邹慧, 于颖多. 滴灌模式对农田土壤水氮空间分布及冬小麦产量的影响. 农业工程学报,2009, 25(11): 67-72
[5]王建东, 龚时宏, 马晓鹏, 于颖多. 地下滴灌条件下水热运移数学模型与验证. 水利学报,2010,41(3):368-373
[6]王建东,龚时宏,许迪,马晓鹏,于颖多. 地表滴灌条件下水热耦合迁移数值模拟与验证. 农业工程学报,2010, 26(12):66-71
[7]王建东,龚时宏,许迪,于颖多.灌水模式对冬小麦根系空间分布及多年产量的影响.水利学报, 2011,42(10):1239-1246
[8]王建东, 龚时宏, 杜 历,刘学军, 鲍子云. 限额灌溉技术的发展现状与重点研究方向.  灌溉排水学报,2011, 30(6): 6-10
[9]王建东,龚时宏, 鲍子云,赵月芬. 灌水模式对免耕地土壤容重变化的影响. 中国水利水电科学研究院学报, 2013,11(2):130-136
[10]王建东,龚时宏, 李光永,赵月芬. 低压下流道结构参数对锯齿型滴头水力性能影响的试验研究. 水利学报,2014,45(1): 72-78
[11]王建东,龚时宏,许迪,张彦群. 东北节水增粮玉米膜下滴灌研究需重点关注的几个方面. 灌溉排水学报,2015, 34(1): 1-4
[12]王建东, 张彦群, 龚时宏, 许迪, 赵月芬. 覆膜浅埋滴灌技术模式田间应用试验研究.灌溉排水学报, 2015,34(11):1-5
[13]王建东,张彦群,隋娟,赵月芬,马福生. 滴灌下覆盖和追肥措施对夏玉米生长及产量的影响. 灌溉排水学报, 2016,35(12): 1-6
[14]王建东,赵月芬,张彦群,龚时宏, 隋娟, 晏清洪. 华北平原秸秆覆盖滴灌冬小麦中后期耗水规律研究.干旱地区农业研究, 2017, 35 (6):1-9
[15]张彦群, 王建东*, 龚时宏, 许迪, 孙继文.秸秆覆盖和滴灌制度对冬小麦光合特性和产量的影响. 农业工程学报,2017, 33(12):162-169
[16]张彦群, 王建东*, 龚时宏, 吴忠东. 滴灌条件下冬小麦田间土壤蒸发的测定和模拟. 农业工程学报, 2014, 30(7):91-98
[17]张彦群, 王建东*, 赵月芬, 龚时宏, 隋娟. 滴灌冬小麦不同施氮量下光合-气孔导度耦合模拟和验证, 农业工程学报,2018, 34(10):124-130
[18]张彦群, 王建东*, 龚时宏,许迪,隋娟,吴忠东. 基于液流计估测蒸腾的覆膜滴灌玉米节水增产机理分析. 农业工程学报, 2018, 34(21): 89-97
[19]王传娟,张彦群,王建东*,许迪,等. 东北典型区覆膜滴灌春玉米节水增产的光合生理响应. 农业工程学报, 2019, 35(24): 90-97
[20]G.Y.Li, J.D.Wang. M.Alam, Y.F.Zhao. Influence of Geometrical Parameters of Labyrinth Path of Drip Emitters on Hydraulic and Anti-clogging Performance. Transactions of the ASABE. 2006 , 49(3): 637-643
[21]Jiandong Wang, Shihong Gong, Di Xu, Yingduo Yu, Yuefen Zhao. Impact of drip and level-basin irrigation on growth and yield of winter wheat in the North China Plain. Irrigation Science,2013, 31(5):1025-1037.
[22]Jiandong Wang, Shihong Gong, Di Xu, Sui Juan, Jianxin Mu. Numerical simulations and validation of water flow and heat transport in a subsurface drip irrigation system using HYDRUS-2D, Irrigation and Drainage, 2013, 62:97-106.
[23]Sui Juan, Wang Jiandong*, Gong Shihong, Zhang Yanqun. Effect of nitrogen and irrigation application on water movement and nitrogen transport for a wheat crop under drip irrigation in a semi-humid and semi-arid region. Water, 2015, 7(11): 6651-6672
[24]Sui Juan, Wang Jiandong*, Gong Shihong, Zhang Yanqun. Effects of mulching on soil moisture, temperature and crop yield under drip irrigation. American Society of Agricultural and Biological Engineers Annual International Meeting 2015. New Orleans, LA,P 5168-5177
[25]Yanqun Zhang, Jiandong Wang*, Shihong Gong, Di Xu, Juan Sui. Nitrogen fertigation effect on photosynthesis, grain yield and water use efficiency of winter wheat. Agricultural Water Management, 2017,179:277-287
[26]Jiandong Wang, Yanqun Zhang, Shihong Gong, Di Xu et al. Evapotranspiration, crop coefficient and yield for drip-irrigated winter wheat with straw mulching in North China Plain, Field Crops Research, 2018, 217: 218–228
[27]Juan Sui, Jiandong Wang*, Shi-hong Gong, Di Xu, Yan-qun Zhang. Assessment of maize yield-increasing potential and optimum N level under mulched drip irrigation in the Northeast of China. Field Crops Research, 2018, 215: 132–139
[28]Jiandong Wang, Yanqun Zhang, Di Xu, Shihong Gong et al. Effects of straw mulching on microclimate characteristics and evapotranspiration of drip irrigated winter wheat in North China Plain.International Journal of Agricultural and Biological Engineering, 2018, 11(2): 122 -131
[29]Yanqun Zhang, Jiandong Wang*, Shihong Gong, Di Xu, Juan Sui. Effects of film mulching on evapotranspiration, yield and water use efficiency of a maize field with drip irrigation in Northeastern China. Agricultural Water Management, 2018,205: 90–99
[30]C Wang, J Wang*, D Xu; Y Zhang, S Gong, Z Wu, J Sui, Y Mo. Water consumption patterns and crop coefficient models for drip-irrigated maize (Zea mays L.) with plastic mulching in northeastern China. Transactions of the ASABE, 2019, 62(3): 571-584
[31]Yanqun Zhang, Jiandong Wang*, Shihong Gong, Di Xu* ,Yan Mo. Straw mulching enhanced the photosynthetic capacity of field maize by increasing the leaf N use efficiency.  Agricultural Water Management, 2019, 218: 60-69
[32]S. Han, D. Xu, Y. Yu, J. Wang*, Y. Zhang. Water requirements of drip irrigated maize (ZEA MAYS L.) with plastic mulching in Heilongjiang, Northeast China. Transactions of the ASABE, 2019,62(6): 1697-1704
[33]Chuanjuan Wang, Yanqun Zhang, Jiandong Wang*, Di Xu et al. Plastic film mulching with drip irrigation promotes maize (Zea mays L.) yield and water use efficiency by improving Photosynthetic characteristics. Archives of Agronomy and Soil Science. 2021, 67(2):191-204
[34]Haitao Wang, Jiandong Wang*, Bin Yang, Yan Mo, Yanqun Zhang, Xiaopeng Ma. Simulation and Optimization of Venturi Injector by Machine Learning Algorithms. Journal of Irrigation and Drainage Engineering, 2020,146(8): 04020021  
[35]Bin Yang, Jiandong Wang*, Yanqun Zhang, Haitao Wang, Xiaopeng Ma*,Yan Mo. Anti-clogging performance optimization for dentiform labyrinth emitters, Irrigation Science, 2020, 38(3):275–285
[36]Chunxiao Fu, Jiandong Wang*, Shihong Gong, et al.  Optimization of irrigation and fertilization of drip-irrigated corn in the Chernozem area of Northeast China based on the CERES-Maize model. Irrigation and Drainage, 2020, 69:714–731
[37]Haoru Li, Xurong Mei, Vinay Nangi, Rui Guo, Yuee Liu, Weiping Hao*, Jiandong Wang*. Effects of different nitrogen fertilizers on the yield, water- and nitrogen-use efficiencies of drip-fertigated wheat and maize in the North China Plain. Agricultural Water Management, 2021, 243, 106474, https://doi.org/10.1016 /j.agwat.2020.106474
[38]Yanqun Zhang, Jiandong Wang*, Shihong Gong, Di Xu, Yan Mo, Baozhong Zhang*.  Straw mulching improves soil water content, increases flag leaf photosynthetic parameters and maintaines the yield of winter wheat with different irrigation amounts. Agricultural Water Management, 2021, https://doi.org/10.1016/j.agwat.2021.106809
[39]Haitao Wang, Jiandong Wang*, Guangyong Li, Yan Mo, Yanqun Zhang. Performance Test of Venturi Aerators for Subsurface Drip Irrigation. Journal of Irrigation and Drainage Engineering, 2022, 148(3): 06022001  
[40]Haitao Wang, Jiandong Wang*, Chuanjuan Wang, Shuji Wang, Xuefeng Qiu, Yuechao Sun, Guangyong Li*. Characterization of labyrinth emitter-clogging substances in biogas slurry drip irrigation systems. Science of the Total Environment, 2022, 820, 153315, http://dx.doi.org/10.1016/j.scitotenv. 2022.153315
[41]Xiaoxu Long, Jiandong Wang*, Shihong Gong et al. Reference evapotranspiration estimation using long short-term memory network and wavelet coupled long short-term memory network. Irrigation and drainage, 2022, DOI: 10.1002/ird.2699
[42]Chuanjuan Wang, Jiandong Wang*, Yanqun Zhang, et al. Temporal and spatial variation of morpho-physiological characteristics of spring maize under mulched drip irrigation in northeastern China, Crop & Pasture Science, 2022. CP21657.