|
博士 |
校聘教授 |
硕士生导师 |
研究方向: |
农业水土资源高效利用、气候变化、农田养分管理 |
电子邮箱: |
yue.li@kust.edu.cn; |
李 悦 |
招生专业: |
农业水土工程、农田水利学、环境生态 |
李悦,女,中共党员,博士,校聘教授,硕士生导师。昆明理工大学高层次人才。2023年6月博士毕业于西北农林科技大学。硕博连读期间获“国家留学基金委(China Scholarship Council, CSC)公派留学资助奖学金”,赴丹麦奥胡斯大学(Aarhus University)联合培养2年,并主持完成了CSC“国家建设高水平大学公派研究生项目”(编号:202006300072)。主要从事干旱半干旱地区可持续农业种植体系、农业生态系统碳库变化动态以及温室气体排放定量化研究。目前在国际主流期刊、EI和核心期刊公开发表学术论文26余篇,其中SCI中科院一区TOP期刊收录论文20篇。以第一作者/通讯作者在SCI期刊《Agronomy for Sustainable Development》、《Soil and Tillage Research》、《CATENA》、《Field Crops Research》、《Industrial Crops & Products》和《Agricultural Water Management》公开发表学术论文9篇,9篇系中科院一区TOP,农业机械学报EI(导师第一,本人第二)1篇。担任《Journal of Agriculture and Forestry》和《Climate Smart Agriculture》期刊的青年编委,《Frontiers in Sustainable Food Systems》的客座编辑,以及多个SCI一区、二区top期刊、《干旱地区农业研究》、《草业学报》等期刊审稿人。主讲本科和研究生课程有《结构力学》、《水工钢筋混凝土结构》和《SPAC系统水分运转与调控》等。现主持昆明理工大学高层次(四层次)人才引进项目1项,云南省基础研究计划青年项目1项。 |
2016.09-2023.06 |
西北农林科技大学 |
农业水土工程(推免研究生、硕博连读) |
博士 |
2020.12-2022.12 |
丹麦Aarhus University |
生态学 |
博士 (Guest PhD) |
2012.09-2016.06 |
甘肃农业大学 |
农业水利工程 |
学士 |
学术论文(ORCID: 0000-0002-9358-8178;*通讯作者)
[1] Li, Y.*, Liu, X.Z., Lu, J.S., Feng, H., Chen, J., Yang, Q.L.*, Zhou, L.F., Li, N., Siddique, K.H.M. Liang, J.P.* Soil extracellular enzymes, soil carbon and nitrogen storage under straw return: A data synthesis. Industrial Crops & Products, 2025, 228: 120884. (Best Researcher Award;中科院一区TOP)
[2] Li, Y., Abalos, D. …, Feng, H.*, Chen, J. Different straw return methods have divergent effects on winter wheat yield, yield stability, and soil structural properties. Soil & Tillage Research, 2024, 238:105992. (中科院一区TOP;highly cited paper/article)
[3] Li, J.C., Li, Y., et al. Ammoniated straw returning: A win-win strategy for increasing crop production and soil carbon sequestration. Agriculture, Ecosystems & Environment, 2024, 303:108879. (中科院一区TOP, highly cited paper/article)
[4] Li, Y., Chen, J.*, …, Feng, H.*, Abalos, D.* The role of conservation agriculture practices in mitigating N2O emissions: A meta-analysis. Agronomy for Sustainable Development, 2023, 43:63. (中科院一区TOP)
[5] Li, Y., Feng, H.*, Dong, Q.G., Xia, L.L., Li, J.C., Li, C., Zang, H.D., Andersen, M.N., Olesen, J.E., Jørgensen, U., Siddique, K.H.M., Chen, J. Ammoniated straw incorporation increases wheat yield, yield stability, soil organic carbon and soil total nitrogen content. Field Crops Research, 2022, 284:108558.(中科院一区TOP)
[6] Li, Y., Chen, H., Feng, H.*, Dong, Q.G., Wu, W.J., Zou, Y.F., Henry, C., Siddique, K.H.M. Influence of straw incorporation on soil water utilization and summer maize productivity: a five-year field study on the Loess Plateau of China. Agricultural Water Management, 2020, 233:106106. (中科院一区TOP)
[7] Li, Y., Feng, H.*, Chen, J., Lu, J.S., Wu, W.J., Liu, X.Z., Li, C., Dong, Q.G., Siddique, K.H.M. Biochar incorporation increases winter wheat (Triticm astivum L.) production with significantly improving soil enzyme activities at jointing stages. Catena, 2022, 254 (2):150979. (中科院一区TOP)
[8] Li, Y., Chen, J., Feng, H.*, Dong, Q.G., Siddique, K.H.M. Responses of canopy characteristics and water use efficiency to ammoniated straw incorporation for summer maize (Zea mays L.) in the Loess Plateau, China. Agricultural Water Management, 2021, 254(2):106948. (中科院一区TOP)
[9] Li, Y., Chen, J., Dong, Q.G., Feng, H.*, Siddique, K.H.M. Plastic mulching significantly improves soil enzyme and microbial activities without mitigating gaseous N emissions in winter wheat-summer maize rotations. Field Crops Research, 2022, 254 (2):150979. (中科院一区TOP)
[10] Li, Y., Feng, H., Wu, W.J., Jiang, Y., Sun, J., Zhang, Y.F., Cheng, H., et al. Decreased greenhouse gas intensity of winter wheat production under plastic film mulching in semi-arid areas. Agricultural Water Management, 2022, 274:107941. (中科院一区TOP)
[11] Li, J.C., Li, Y., et al. Ammoniated straw incorporation increases maize grain yield while decreasing net greenhouse gas budgets on the Loess Plateau, China. Agriculture, Ecosystems & Environment, 2023, 352:108503. (中科院一区TOP)
[12] Li, C., Luo, X.Q., Li, Y., et al. Ridge planting with transparent plastic mulching improves maize productivity by regulating the distribution and utilization of soil water, heat, and canopy radiation in arid irrigation area. Agricultural Water Management, 2023, 280:180230. (中科院一区TOP)
[13] Li, C., Wang, N.J., Luo, X.Q., Li, Y., et al. Introducing water factors improves simulations of maize stomatal conductance models under plastic film mulching in arid and semi-arid irrigation areas. Journal of Hydrology, 2022, 617(1):128908. (中科院一区TOP)
[14] Li, C., Feng, H., Luo, X.Q., Li, Y., et al. Limited irrigation and fertilization in sand-layered soil increases nitrogen use efficiency and economic benefits under film mulched ridge-furrow irrigation in arid areas. Agricultural Water Management, 2022, 262(5):107406. (中科院一区TOP)
[15] Li, C., Luo, X.Q., Wang, N.J., Wu WJ, Li Y, et al. Transparent plastic film combined with deficit irrigation improves hydrothermal status of the soil-crop system and spring maize growth in arid areas. Agricultural Water Management, 2022, 265(12):107536.(中科院一区TOP)
[16] Liu, X.Z., Ma, Y.Y., Manevski, K., Andersen, M.N., Li Y, et al. 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 The Total Environment, 2021, 806(8):150513. (中科院一区TOP)
[17] Li, C., Wang, Q.S., Wang, N.J., Luo, X.Q., Li, Y., et al. Effects of different plastic film mulching on soil hydrothermal conditions and grain-filling process in an arid irrigation district. Science of The Total Environment, 2021, 795(1):148886. (中科院一区TOP)
[18] Wu, W.J., Li, H.J., Feng, H., Si, B.C., Cheng, G.J., Meng, T.F., Li, Y., et al. Precipitation dominates the transpiration of both the economic forest (Malus pumila) and ecological forest (Robinia pseudoacacia) on the Loess Plateau after about 15 years of water depletion in deep soil. Agricultural and Forest Meteorology, 2021, 297:108244. (中科院一区TOP)
[19] Lu, J.S., Zhang, W., Li, Y., et al. Effects of reduced tillage with stubble remaining and nitrogen application on soil aggregation, soil organic carbon and grain yield in maize-wheat rotation system. European Journal of Agronomy, 2024, 149(3):126920.(中科院一区TOP)
[20] Wu, W.J., Tao, Z., Cheng, G.J., Meng, T.F., Li, Y., et al. Phenology determines water use strategies of three economic tree species in the semi-arid Loess Plateau of China. Agricultural and Forest Meteorology, 2022, 312(4):108716. (中科院一区TOP)
[21] 董勤各,李悦,冯浩,余坤,董文俊,丁奠元.秸秆氨化还田对农田水分与夏玉米产量的影响.农业机械学报,2018,49(11):220-229. (EI)
[22] 董文俊,刘健峰,丁奠元,陈紫薇,李悦,等. 覆膜对不同播期冬小麦根系生长和产量的影响. 干旱地区农业研究,2021,38(01):1-12. (北大中文核心)
[23] 陈紫薇,丁奠元,董文俊,王乃江,李悦,等. 干旱地区农业研究. 秸秆氨化还田对农田水分与夏玉米产量的影响. 干旱地区农业研究,2021,39(06):136-145. (北大中文核心)
[24] 陈浩,冯浩,杨祯婷,王乃江,李悦,等. 基于无人机多光谱遥感的夏玉米冠层叶绿素含量估计. 排灌机械工程学报,2021,39(06):622-629. (北大中文核心)
[25] Liu, P.P., Wang, D., Li, Y., ..., Chen, J.. Crop Conversion from Annual to Perennials: An Effective Strategy to Affect Soil Multifunctionality. Agronomy,2024,14(03):594.
荣誉:
[1] 2022年12月获得研究生“国家奖学金”(博士奖)(1/3)
[2] 2020年8月获“国家留学基金委(China Scholar Council)公派丹麦Aarhus University联合培养2年(2020年12月至2022年12月)留学资助奖学金”;
[3] 2018-2019学年获西北农林科技大学“校长奖学金”
[4] 2018-2019学年和2021-2022学年获西北农林科技大学“优秀研究生”(2次)
[5] 2021-2022学年获西北农林科技大学“优秀大学生(三好学生)”
[6] 2018-2019和2021-2022学年均获西北农林科技大学研究生“一等学业奖学金”
[7] 2018-2019学年均获西北农林科技大学研究生“校长奖学金”
[8] 中国旱区节水农业研究院第十二届暨农业高效用水与水安全学科群第四届博士生学术论坛论坛“优秀奖”
[9] 2013年、2014年和2015年连续三年均获“国家励志奖学金”和“甘肃农业大学三好学生”
[10] 2015年获甘肃农业大学第九届“挑战杯”大学生课外学术科技作品竞赛“优秀作品奖”(第一负责人)
参与学术交流
[1] 会议名称:中国旱区节水农业研究院第十二届暨农业高效用水与水安全学科群第四届博士生学术论坛
报告题目:Influence of straw incorporation on soil water utilization and summer maize productivity: A five-year field study on the Loess Plateau of China
[2] 会议名称:国际会议Circular Bioeconomy (CBIO)
报告题目:Ammoniated straw incorporation increases wheat yield, yield stability, soil organic carbon and soil total nitrogen content
[1] 昆明理工大学高层次(四层次)人才引进项目,2023.11-2031.09,在研,主持。 [2] 云南省基础研究计划青年项目:氨化秸秆还田调控鲜食蚕豆根际土壤微生境提升抗病性的机理研究,2025-2028,主持,在研。 [3] 国家留学基金委国家建设高水平大学公派研究生项目,项目批准编号:20200600072,2020.12-2022.12,主持,结题。 [4] 教育部国家外国专家局111“旱区现代节水农业技术创新引智基地” ,项目批准编号:B12007,参与,结题。 [5] EU H2020 Marie Skłodowska-Curie Actions,项目批准编号:839806,参与,结题。 |
