【教育背景】
西北农林科技大学工学博士2018-2022农业水土工程-植物水肥高效利用刘福来教授
丹麦奥胡斯大学公派留学2019-2021农业生态-植物水分利用与生物固氮Mathias N. Andersen教授
金沙威尼斯欢乐人城工学硕士2016-2018水利工程-节水灌溉理论与技术李王成教授
昆明理工大学工学学士2012-2016水文与水资源工程邹进教授
【工作简历】
2022.7-至今:金沙威尼斯欢乐人城,金沙威尼斯欢乐人城,准聘副教授
【研究方向】
土壤改良与利用
作物非生物胁迫响应机理
作物水肥高效利用调控机理
【所授课程】
本科生:土壤学与农作学、灌溉排水工程学、农业水利试验设计、水文化与水利科技史
研究生:节水灌溉理论与技术、论文写作与指导、节水灌溉理论与新技术(博士)
【参与或主持项目】
国家自然科学基金青年项目:交替灌溉耦合富钾生物炭调控盐渍土大豆钾钠稳态与耐盐性的机制研究(52409063),2025.1-2027.12,主持;
宁夏自然科学基金优秀青年项目:生物炭调控盐旱复合胁迫玉米根-叶际环境及水分养分高效利用机理研究(2023AAC05017),2023.7-2026.6,主持;
宁夏自然科学基金一般项目:基于光辐射累积生长模拟的温室番茄水肥生产函数研究(2024AAC03094),2024.10-2026.10,主持;
农业水资源高效利用全国重点实验室重点开发基金:亏缺灌溉下生物炭配施ZnO-PNs调节玉米水分高效利用的机制研究(SKLAWR-2024-01),2024.1-2025.12,主持;
清华大学-宁夏银川水联网数字治水联合研究院专项统筹重点项目:设施日光温室(拱棚型)水肥利用技术研究(SKL-IOW-2023TC2301-04),2023.6-2025.6,主持;
国家留学基金委“国家建设高水平大学公派研究生项目”,2019-2021,主持;
教育部国家级人才配套经费项目子专题:生物炭与交替灌溉对草本作物生长、生理及水分利用效率的影响研究,2018-2022,参加;
Sina-Danish Center for Education and Research (SDC),参与;
【获奖、荣誉】
获第十七届宁夏自然科学优秀学术论文一等奖(2023.12);
获International ResearchAwardson New Science Inventions NESIN“AwardsBest ResearchAward”
奖励(2022.12);
获全国高等学校水利类专业优秀研究生学位论文(2019.12)
获宁夏回族自治区优秀硕士学位论文(2018.11)
获全国水利工程专业学位实践优秀成果奖(2018.10)
【学术兼职】
中国土壤学会终生会员(C032005590L);
生态水利与新能源联盟副秘书长(2022.12-至今);
《干旱地区农业研究》青年编委(2024.11-至今);
【近5年代表性成果(带*为通讯作者)】
[1]Xuezhi Liu*,WeilunLiu, Zhenjuan Su, Junsheng Lu, Peng Zhang, Mengting Cai,WangchengLi, Fulai Liu, Mathias Neumann Andersen, Kiril Manevski.2024. Biochar addition and reduced irrigation modulates leaf morpho-physiology and biological nitrogen fixation in faba bean-ryegrass intercropping.Science of theTotalEnvironment, 806: 150513;
[2]Xuezhi Liu*, Kiril Manevski, Fulai Liu, Mathias Neumann Andersen. 2022. Biomass accumulation and water use efficiency of faba bean-ryegrass intercropping system on sandy soil amended with biochar under reduced irrigation regimes.AgriculturalWaterManagement, 273:107905;
[3]Xuezhi Liu, ZhenhuaWei,Jingxiang Hou, HengWan,Qiang Zhang, Yingying Ma, Fulai Liu*. 2022.Partial root‑zone drying irrigation improves growth and physiology of tobacco amended with biochar by modulating phytohormonal profile and antioxidant system.Plant and Soil, 474: 561-579;
[4]Xuezhi Liu,Yingying Ma, Kiril Manevski, Mathias Neumann Andersen,YueLi, ZhenhuaWei,Fulai Liu*. 2021.Biochar and alternate wetting-drying cycles improving rhizosphere soil nutrients availability and tobacco growth by altering root growth strategy in Ferralsol and Anthrosol.Science of theTotalEnvironment, 806: 150513.
[5]Xuezhi Liu, ZhenhuaWei,Kiril Manevski, Jie Liu, Yingying Ma, Mathias Neumann Andersen, Fulai*.2021. Partial root-zone drying irrigation increases water-use efficiency of tobacco plants amended with biochar.Industrial Crops & Products, 166: 113487;
[6]Xuezhi Liu, ZhenhuaWei,Yingying Ma, Jie Liu, Fulai Liu*. 2021.Effects of biochar amendment and reduced irrigation on growth, physiology, water-use efficiency and nutrients uptake of tobacco (Nicotiana tabacumL.) on two different soil types.Science of theTotalEnvironment, 770: 144769;
[7]Zhenjuan Su,Xuezhi Liu, ZhongjingWang,JieWang.2024.Biochar effects on salt-affected soil properties and plant productivity: A global meta-analysis.Journal of Environmental Management. 366: 121653;
[8]Junsheng Lu,WeiZhang,Xuezhi Liu, Aziz Khan,WeiWang,Jianrui Ge, ShichengYan,You-CaiXiong.2024. Can converting raw straw into biochar incorporation achieve both higher maize yield and lower greenhouse gas emissions intensity in drought-prone environment?EnvironmentalTechnology& Innovation. 35: 103683;
[9]Jingxiang Hou,Xuezhi Liu, Jiarui Zhang, ZhenhuaWei,Yingying Ma, HengWan,Jie Liu, Bingjing Cui,YuzhengZong,YitingChen, Kehao Liang, Fulai Liu. 2023.Combined application of biochar and partial root-zone drying irrigation improves water relations and water use efficiency of cotton plants under salt stress.AgriculturalWaterManagement. 290: 108584;
[10]Jingxiang Hou, HengWan,Kehao Liang, Bingjing Cui, Yingying Ma,YitingChen, Jie Liu,Yin Wang,Xuezhi Liu, Jiarui Zhang, ZhenhuaWei,Fulai Liu. 2023.Biochar amendment combined with partial root-zone drying irrigation alleviates salinity stress and improves root morphology and water use efficiency in cotton plant.Science of theTotalEnvironment, 770: 144769;
[11]Jingxiang Hou, Jiarui Zhang,Xuezhi Liu, Yingying Ma, ZhenhuaWei,HengWan,Fulai Liu. 2023.Effect of biochar addition and reduced irrigation regimes on growth, physiology and water use efficiency of cotton plants under salt stress.Industrial Crops & Products, 166: 113487;
[12]HengWan,YitingChen, Bingjing Cui,Xuezhi Liu, Jingxiang Hou, ZhenhuaWei,Jie Liu, Fulai Liu. 2023.Biochar Amendment Increases C and N Retention in the Soil–Plant Systems: Its Implications in Enhancing Plant Growth andWater‑UseEfficiency Under Reduced Irrigation Regimes of Maize (Zea maysL.).Journal of Soil Science and Plant Nutrition. 23:1576–1588.
[13]HengWan,Xuezhi Liu, Qimiao Shi,YitingChen, Miao Jiang, Jiarui Zhang, Bingjing Cui, Jingxiang Hou, ZhenhuaWei,Mohammad Anwar Hossain, Fulai Liu. 2023.Biochar amendment alters root morphology of maize plant: Its implications in enhancing nutrient uptake and shoot growth under reduced irrigation regimes.Frontiers in Plant Science. 14;
[14]Yingying Ma, ZhenhuaWei,Jie Liu,Xuezhi Liu, Jingxiang Hou, Fulai liu*. 2021.Effects of K+and Ca2+supplement during fertigation on leaf gas exchange and salt tolerance of cotton at full and deficit irrigation regimes.Environmental and Experimental Botany, 186: 104435;
[15]Yingying Ma, ZhenhuaWei,Jie Liu,Xuezhi Liu, Fulai liu*. 2021.Growth and physiological responses of cotton plants to salt stress.Journal of Agronomy and Crop Science. 207(3): 1-12;
[16]YueLi, Hao Feng, Ji Chen, Junsheng Lu,Wenjie Wu,Xuezhi Liu, Cheng Li, Qin’ge Dong, Siddique K H M. 2022.Biochar incorporation increases winter wheat (Triticum aestivumL.) production with significantly improving soil enzyme activities at jointing stage.Catena,211;
[17]刘学智,李王成*等.(2018).1962-2015年宁夏平均气温和极端气温变化.干旱区研究;
[18]刘学智,李王成*等.(2017).基于投影寻踪的宁夏农业水资源利用率评价.节