李仙岳,博士,教授,博士生导师,自治区高等学校“青年科技骨干”,自治区“青年创新人才”(第一层次),自治区“新世纪321人才工程”(第二层次),中科院西部青年学者入选者,并获内蒙古自然科学(杰出青年)培育基金资助。
通信地址:bat365官网登录
邮编:010018
电子邮箱:lxy@imau.edu.cn
教育背景:
(1)2007.09-2010.06 中国农业大学,水利与土木建筑学院,博士
(2)2005.09-2007.06 中国农业大学,水利与土木建筑学院,硕士
(3)1998.09-2002.06 内蒙古科技大学,能源与环境学院,本科
工作履历:
(1)2015/12-至今,bat365在线平台,bat365官网登录,教授
(2)2013/9-2014/9,美国University of California-Riverside,Department of Environmental Sciences(期间访问美国农业部盐土实验室),访问学者
(3)2011/7-2015/6,bat365在线平台,bat365官网登录,副教授
(4)2010/11-2015/11,bat365在线平台农业工程博士后流动站
(5)2002/07-2005/08,bat365在线平台,bat365官网登录,助教
研究概况:
主要在农田作物耗水、农田水肥盐循环模拟以及农田生态环境效应等方面进行研究。共发表论文100多篇,第一(通讯)作者论文45篇被SCI、EI检索。获省部级科学奖2项(北京市科学技术二等奖,内蒙古自然科学三等奖),内蒙古自治区农牧业丰收一等奖1项,获国家发明专利7项(排第一3项)、实用新型5项,地方标准2项。获第十一届北京青年优秀科技论文二等奖,获中国农业工程学会农业水土工程专业委员会第九届学术研讨会优秀青年学术论文。合作出版教材、著作4部,主持国家重点科技研发计划(子课题)、国家科技支撑(专题)、国家自然基金(6项)、内蒙古自然基金杰出青年培育基金、内蒙古自然基金、博士后基金、博士后特别资助项目、中国水科院开放基金等科研项目共20多项。
奖励与荣誉:
[1]获内蒙古自治区农牧业丰收一等奖,内蒙古河套灌区粮油作物种植模式节水节肥高产高效技术推广,2020
[2]获2016、2017、2020年度bat365在线平台优秀班主任
[3]获内蒙古自然科学三等奖,盐渍化土壤水-热-盐迁移与节水灌溉理论研究,2014
[4]获北京市科技进步二等奖,智能决策精量灌溉施肥系统研发与应用,2009
[5]获2013年bat365在线平台教学成果奖二等奖
[6]获第11届北京市优秀科技论文
[7]获中国农业工程学会农业水土工程专业委员会第九届学术研讨会优秀青年学术论文
主持项目(重要项目):
[1]2021.12-2025.11主持“十四五”国家重点研发计划“黄河宁蒙灌区节水—控盐—减污—生态保护技术研究与示范”项目专题“灌区作物-田间-景观尺度节水-控盐-减污技术与智慧管理”(编号:2021YFC3201202-02)
[2]2021.6-2024.5主持内蒙古科技兴蒙项目“引黄灌区盐碱地生态修复与节水减排控盐关键技术集成与示范”的课题“盐碱地节水减排控盐模式与技术体系规模化应用”(编号:2021CG0022)
[3]2021.1-2024.12主持国家自然科学基金项目(面上)“寒旱区农田水-热-氮对生物地膜破损的响应及水氮高效利用机制研究”
[4]2020.1-2023.12主持国家自然科学基金项目“盐渍化地区控释肥施用农田水氮迁移对包膜-土壤-根系的响应机制及模拟研究”
[5]2020.1-2022.12主持中央引导地方资金项目“寒旱区生物地膜覆盖农田作物水分关系及耗水机制研究”
[6]2017.1-2020.12主持国家自然科学基金项目“膜下滴灌农田水盐迁移对土壤-残膜-根系多界面系统的响应机制及模拟研究”
[7]2016.1-2020.12主持国家自然基金重点项目“变化环境下盐渍化灌区水肥循环机制及调控研究”课题2“变化环境下灌区盐分循环、 重分布过程及评价”(项目第二主持人)
[8]2016.7-2020.12主持“十三五”国家重点研发计划“内蒙河套灌区粮经作物高效节水灌溉技术研究与集成应用”子课题 “节水增产型膜下滴灌技术研究与集成应用”
[9]2018.1-2020.12主持内蒙古自治区科技重大专项“内蒙古河套灌区暗管排水排盐关键技术研究与示范”课题“河套灌区耕地和轻度盐碱地防渍控盐技术”
[10]2016.1-2018.12主持内蒙古科技自治区计划项目“引黄灌区水肥高效利用及农田面源污染多维临界防控研究与示范”子课题“引黄沙区膜下滴灌面源污染防控及水肥调控关键技术研究与示范”
[11]2016.1-2018.12主持内蒙古自然科学基金(杰出青年培育基金)项目“盐渍化地区水肥迁移对环保可降解地膜的响应机理及水肥高效利用机制研究”
[12]2016.1-2018.12主持内蒙古水利厅项目“乌兰布和沙区膜下滴灌农田水土环境效应研究”
[13]2014.1-2014.12主持国家自然科学基金项目“干旱盐渍化地区液体地膜覆盖对农田水热盐迁移影响及机理研究”
[14]2012.1-2014.12主持博士后特别资助基金“膜下滴灌条件下立体种植农田水热盐迁移机理及模拟研究”
[15]2012.1-2014.12主持国家自然科学基金项目“干旱区膜下滴灌条件下立体种植农田水分迁移机理及模拟”
[16]2011.1-2013.12主持内蒙古自然科学基金项目“长期膜下滴灌连作下残膜对水分迁移及后作生长影响的模拟研究”
期刊论文(第一和通讯作者代表性主要论文):
[1]Yuehong Zhang,Xianyue Li*, Jirí Šimůnek, Haibin Shi, Ning Chen,Qi Hu. Optimizing drip irrigation with alternate use of fresh and brackish waters by analyzing salt stress:The experimental and simulation approaches. Soil and Tillage Research, 2021,219:105355
[2]Ning Chen,Xianyue Li*, Haibin Shi, Qi Hu, Yuehong Zhang, Qin’ge Dong, Guoshuai Wang. Evaluating crop coefficient and associated processes in a drip irrigation with different color of biodegradable film mulching. Irrigation Science, 2022, 1432-1319
[3]Yanan Sun,Xianyue Li*, Haibin Shi, Jiaqi Cui, Weigang Wang, Hongyu Ma, Ning Chen. Modeling salinized wasteland using remote sensing with the integration of decision tree and multiple validation approaches in Hetao Irrigation District of China.Catena,2022,209:105854
[4]Ning Chen,Xianyue Li*, Haibin Shi, Qi Hu, Yuehong Zhang, Chenli Hou, Yahui Liu. Modeling evapotranspiration and evaporation in corn/tomato intercropping ecosystem using a modified ERIN model considering plastic film mulching. Agricultural Water Management,2022,260:107286
[5]Xu Leng,Xianyue Li*, Jinjun Zhang, Yu Guo, Zongjiang Ding, Ning Chen. Evaluating the effects of biodegradable film mulching and topdressing nitrogen on nitrogen dynamic and utilization in the arid cornfield. Agricultural Water Management, 2021, 258,107166
[6]Ning Chen,Xianyue Li*, Haibin Shi, Qi Hu, Yuehong Zhang, Yannan Sun, Fanfan Song. Simulation of maize crop growth using an improved crop model that considers the disintegrated area of biodegradable film. Field Crops Research, 2021, 272:108270
[7]Chenli Hou, Delong Tian, Bing Xu, JieRen, Lei Hao, Ning Chen,Xianyue Li*, Use of the stable isotope method to evaluate the difference in water consumption and utilization strategy between alfalfa and maize fields in an arid shallow groundwater area. Agricultural Water Management, 2021, 256:107065
[8]Ning Chen,Xianyue Li*, Jirí Šimůnek, Haibin Shi, Qi Hu, Yuehong Zhang. Evaluating the effects of biodegradable and plastic film mulching on soil temperature in a drip-irrigated field. Soil and Tillage Research, 2021,213:105116
[9]Ning Chen,Xianyue Li*, Haibin Shi, Jianwen Yan, Qi Hu, Yuehong Zhang. Assessment and modeling of maize evapotranspiration and yield with plastic and biodegradable film mulch. Agricultural and Forest Meteorology, 2021,307:108474
[10]Ning Chen,Xianyue Li*, Haibin Shi, Qi Hu, Yuehong Zhang, Xu Leng. Effect of biodegradable film mulching on crop yield, soil microbial and enzymatic activities, and optimal levels of irrigation and nitrogen fertilizer for the Zea mays crops in arid region. Science of The Total Environment, 2021,776:145970
[11]Ning Chen,Xianyue Li*, Haibin Shi, Jianwen Yan, Qi Hu, Yuehong Zhang. Modeling maize evapotranspiration and associated processes under biodegradable film mulching in an arid dripped field. Agricultural and Forest Meteorology, 2021,297: 108247
[12]Yuehong Zhang,Xianyue Li*, Jiří Šimůnek, Haibin Shi, Ning Chen, Qi Hu, Tong Tian. Evaluating soil salt dynamics in a field drip-irrigated with brackish water and leached with freshwater during different crop growth stages. Agricultural Water Management, 2021, 244:106601
[13]Qi Hu,Xianyue Li*, José M. Gonçalves, Haibin Shi, Tong Tian, Ning Chen. Effects of residual plastic-film mulch on field corn growth and productivity. Science of The Total Environment, 2020,729:138901
[14]Zhichao Wang,Xianyue Li*, Haibin Shi, Weiping Li, Wenhuan Yang, Yiming Qin. Estimating the water characteristic curve for soil containing residual plastic film based on an improved pore-size distribution. Geoderma, 2020, 370: 114341
[15]Ning Chen,Xianyue Li*, Jiří Šimůnek, Haibin Shi, Qi Hu, Yuehong Zhang. Evaluating soil nitrate dynamics in an intercropping dripped ecosystem using HYDRUS-2D. Science of The Total Environment, 2020,718:137314
[16]Ning Chen,Xianyue Li*, Jiří Šimůnek, Haibin Shi, Zongjiang Ding, Yuehong Zhang. The effects of biodegradable and plastic film mulching on nitrogen uptake, distribution, and leaching in a drip-irrigated sandy field. Agriculture, Ecosystems and Environment, 2020, 292:106817
[17]Ning Chen,Xianyue Li*, Jiří Šimůnek, Haibin Shi, Zongjiang Ding, Zunyuan Peng. Evaluating the effects of biodegradable film mulching on soil water dynamics in a drip-irrigated field. Agricultural Water Management, 2019, 226:105788
[18]Xianyue Li, Jiří Šimůnek, Haibin Shi*, Jianwen Yan, Zunyuan Peng, Xuewen Gong.Spatial distribution of soil water, soil temperature, and plant roots in adrip-irrigated intercropping field with plastic mulch.European Journal of Agronomy, 2017, 83: 47~56
[19]Xianyue Li,Peiling Yang*,Shumei Ren,Yunkai Li,Honglu liu,Jun Du,Pingfei Li,Caiyuan Wang,Liang Ren.Modeling cherry orchard evapotranspiration based on an improved dual-source model.Agricultural Water Management,2010,98(1):12~18
[20]Xianyue Li*, Haibin Shi*, Jiří Šimůnek, Xuewen Gong, Zunyuan Peng.Modeling soil water dynamics in a drip-irrigated intercropping field under plastic mulch.Irrigation Science, 2015, 33(4): 289~302
[21]Xianyue Li,Peiling Yang*,Haibin Shi,Shumei Ren,Yunkai Li,Pingfeng Li,Caiyuan Wang.The effect of transpiration uncertainty on root zone soil water by Bayesian analysis.Mathematical and Computer Modelling,2013,58(3-4):691~700
[22]Xianyue Li,Peiling Yang*,Shummei Ren,Yunkai Li,Tingwu Xu,Liang Ren.An improved canopy transpiration model and parameter uncertainty analysis by Bayesian approach.Mathematical and Computer Modelling,2010,51(11-12):1363~1367
[23]Xianyue Li,Peiling Yang*,Shumei Ren,Liang Ren,Pingfeng Li,Jun Du.Modelling of canopy conductance of potted cherry trees based on artificial neutral network.Mathematical and Computer Modelling,2010,51(11-12):1368~1374
[24]Wang Zhichao,Li Xianyue*, Shi Haibin, Zhang Dongliang, Xu Pengcheng.Effects of Residual Plastic Film on Infiltration and Evaporationfor Sandy Loam and Sandy Soil. Transactions of the Chinese Society for Agricultural Machinery, 2017,48(1),1-9(全文)
[25]胡琦,李仙岳*,史海滨,陈宁,张月红,马红雨.河套灌区玉米根系对残膜的响应及根系分布模型,农业工程学报,2021,37(21):143~152
[26]孙亚楠,李仙岳*,史海滨,崔佳琪,马红雨,王维刚.基于特征优选决策树模型的河套灌区土地利用分类,农业工程学报,2021,37(13):242~251
[27]崔佳琪,李仙岳*,史海滨,孙亚楠,安海军,邢进平.河套灌区地下水化学演变特征及形成机制.环境科学,2020,41(9):4011~4020
[28]胡小东,李仙岳*,冷旭,孙亚楠.干旱区土壤含水率和盐分的空间变异性及其关系研究.水资源与水工程学报,2020,31(04):238-244.
[29]赵春燕,李仙岳*,史海滨,辛懋鑫.河套灌区暗管排水稻田盐分空间变异及排盐效果.水资源与水工程学报,2020,31(04):229-237.
[30]胡琦,李仙岳*,史海滨,田彤,陈宁,张月红.基于染色示踪的农膜残留农田土壤优先流特征.水土保持学报,2020,34(3):142-149
[31]李仙岳*,崔佳琪,史海滨,孙亚楠,邢进平.不同时间尺度下冻融灌区地下水埋深的CAR模型优选.农业机械学报,2020,51(8):247~254
[32]李仙岳*,冷旭,张景俊,胡小东,樊小芹.干旱区降解地膜覆盖农田硝态氮迁移与利用特征研究.农业机械学报,2020,51(7):294~303
[33]李仙岳*,冷旭,张景俊,郭宇,丁宗江,胡小东,朱昆仑.北方干旱区降解膜覆盖农田玉米生长和氮素利用模拟及优化.农业工程学报,2020,36(5):113~121
[34]孙亚楠,李仙岳*,史海滨,崔佳琪,王维刚,卜鑫宇.基于多源数据融合的盐分遥感反演及季节差异性研究.农业机械学报,2020,51(6):169~180
[35]贾腾月,姬宝霖,李仙岳*,田德龙,张金丁.微润灌溉定额及微润带埋深对农田水盐动态及向日葵水分利用效率的影响[J].水土保持学报,2019(03):283~291
[36]田彤,李仙岳*,史海滨,郭宇,朱科,丁宗江,冷旭,胡琦.不同生育期淋洗对微咸水滴灌玉米农田水盐及产量的影响[J].水土保持学报,2019(03):260~267
[37]李仙岳*,陈宁,史海滨,丁宗江,彭遵原.膜下滴灌玉米番茄间作农田土壤水分分布特征模拟[J].农业工程学报,2019,35(10):50~59
[38]孙亚楠,李仙岳*,史海滨,崔佳琪,王维刚.河套灌区土壤水溶性盐基离子高光谱综合反演模型.农业机械学报,2019,50(5):344~355
[39]丁宗江,李仙岳*,郭宇,冷旭,王美荣.干旱沙区降解膜覆盖的玉米生长与耗水规律.排灌机械学报,2018,36(11):1092~1097
[40]侯晨丽,田德龙,徐冰,李仙岳*.含盐土壤不同作物根系分布对水盐分布的影响.排灌机械学报,2018,36(10):1059~1064
[41]郭宇,李仙岳*,丁宗江,张景俊,王美荣.不同施氮方式对向日葵氮肥利用效率的影响.灌溉排水学报,2018,37(7):20~27
[42]李仙岳*,郭宇,丁宗江,冷旭,田彤,胡琦.不同地膜覆盖对不同时间尺度地温及玉米产量的影响.农业机械学报,2018,49(9):247~256
[43]张景俊,李仙岳*,彭遵原,郭宇,丁宗江,冷旭.河套灌区葵花农田生物地膜覆盖下土壤水-热-氮-盐分布特征.生态环境学报,2018,27(6):1067~1075
[44]李仙岳*,丁宗江,闫建文,郭宇,冷旭,王美荣.沙区可降解地膜覆盖下滴灌农田水氮交互效应及耦合模型研究.农业机械学报,2018,49(7):261~270
[45]王志超,李仙岳*,史海滨,丁宗江,张景俊,郭宇,王美荣.覆膜年限及灌水方法对河套灌区农膜残留的影响.农业工程学报,2017,33(14):159~165
[46]王志超,李仙岳*,史海滨,张栋良.农膜残留对砂壤土和砂土水分入渗和蒸发的影响研究.农业机械学报,2017,48(1):198~205
[47]王志超,李仙岳*,史海滨,徐鹏程,李河.含残膜土壤水分特征曲线模型构建.农业工程学报,2016,32(14):103~109
[48]李仙岳,彭遵原,史海滨*,闫建文,王志超.不同类型地膜覆盖对土壤水热及葵花生的长影响.农业机械学报,2015,46(2):97~103
[49]王志超,李仙岳*,史海滨,孙敏,丁涛,王成刚.农膜残留对土壤水动力参数及土壤结构的影响.农业机械学报,2015,46(5):101-106
[50]李仙岳,史海滨*,龚雪文,彭遵原,李祯,闫建文.立体种植农田不同生育期及土壤水分的根系分布特征.农业机械学报,2014,45(3):140~147
[51]李仙岳,史海滨*,吕烨,王志超,林雨昕,李鑫.土壤中不同残膜量对滴灌入渗的影响及不确定性分析.农业工程学报,2013,29(8):84~90
[52]李仙岳,杨培岭*,任树梅,张少焱.高含砾土壤中保水剂对杏树蒸腾及果实品质的影响.农业工程学报,2009,25(4):78~81
[53]龚雪文,李仙岳*,史海滨,田德龙,李祯,彭遵原.番茄、玉米套种膜下滴灌条件下农田地温变化特征.生态学报,2015,35(2):489~496
[54]王志超,李仙岳*,史海滨,林雨昕,李鑫,梁建财.残膜埋深对滴灌条件下粉砂壤土水分入渗影响的试验研究.土壤,2014,46(4):710~715
[55]李仙岳,杨培岭*,任树梅,张少焱.基于叶面积与冠层辐射的果树蒸腾预测模型.生态学报,2009,29(5):2312~2319
[56]李仙岳,杨培岭*,任树梅,任亮.樱桃冠层导度特征及模拟.生态学报,2010,30(2):0300~ 0308