个人信息简介
姓名:李会杰
学历:博士研究生
所属教研室:地理科学与教育系
职称:副教授
邮箱:huijieli88@163.com
教育经历:
2008.09-2012.06,石河子大学,农业资源与环境专业
2012.09-2015.06,西北农林科技大学,土壤学硕士
2015.09-2019.06,西北农林科技大学,农业工程博士
工作经历:
2023.01—至今,鲁东大学,资源与环境工程学院,副教授
2019.07—2022.12,鲁东大学资源与环境工程学院,讲师
学术兼职:
应邀担任Geoderma、Forest Ecology and Management、Journal of Plant Ecology、Scientific Reports等国际SCI学术期刊审稿专家。
研究方向与招生
研究方向:气候变化背景下土壤-植物-大气连续体水分传输与调控,果园养分演变过程及驱动机制,近年来承担国家自然科学基金、国家重点研发计划课题、山东省国际合作项目课题等项目10余项,在Agricultural and Forest Meteorology,Agriculture, Ecosystems & Environment,Geoderma, Science of The Total Environment等刊物发表论文30余篇。
硕士招生专业:地理学
著作论文:
一、第一/通讯作者:
1. Li Huijie, Li Han, Wu Qifan, Si Bingcheng*, Esteban G. Jobbágy, and Jeffrey J. McDonnell, 2023. Afforestation triggers water mining and a single pulse of water for carbon trade-off in deep soil. Agriculture, Ecosystems & Environment, 356, 108655. (中科院1区)
2. Li Peng, Li Huijie*, and Si Bingcheng*, 2024. Estimating deep soil water depletion and availability under planted forest on the Loess Plateau, China. Science of The Total Environment, 929, 172228. (中科院1区)
3. Li Huijie, Ma Xiaojun, Lu Yanwei, Ren Ruiqi, Cui Buli*, and Si Bingcheng*, 2021. Growing deep roots has opposing impacts on the transpiration of apple trees planted in subhumid loess region. Agricultural Water Management 258: 107207. (中科院1区)
4. Li Huijie, Si Bingcheng*, Ma Xiaojun, Wu Pute, 2019. Deep soil water extraction by apple sequesters organic carbon via root biomass rather than altering soil organic carbon content. Science of the total environment, 670, 662-671. (中科院1区)
5. Li Peng, Li Huijie*, Si Bingcheng*, Zhou Tao, Zhang Chunhua, and Li Min, 2024. Mapping planted forest age using LandTrendr algorithm and Landsat 5–8 on the Loess Plateau, China. Agricultural and Forest Meteorology, 344 ,109795. (中科院1区)
6. Lu Yanwei, Si Bingcheng*, Li Huijie*, Biswas Asim, 2019. Elucidating controls of the variability of deep soil bulk density. Geoderma, 348, 146-157. (中科院1区)
7. Li Huijie, Si Bingcheng, Wu Pute, & McDonnell Jeffrey John, 2019. Water mining from the deep critical zone by apple trees growing on loess. Hydrological Processes, 33(2), 320-327. (中科院2区) (Hydrological Processes top cited paper)
8. Li Huijie#, Yi Jun#, Zhang Jianguo, Zhao Ying*, Si Bingcheng*, Hill Robert Lee, Cui Lele, Liu Xiaoyu, 2015. Modeling of soil water and salt dynamics and its effects on root water uptake in Heihe arid wetland, Gansu, China. Water, 7(5), 2382-2401. (中科院3区)
9. Li Peng, Zuo Yuxiao, Zhang Xuemei, Wang Yinglei, Wu Zhengli, Liu Xiaoyu, Wu Nan, Lu Yanwei, Li Huijie*, and Si Bingcheng*, 2024. Deep Soil Water Availability Regulates the Transpiration of Afforested Apple Trees (Malus pumila Mill.) in a Sub-Humid Loess Region. Agronomy, 14(4), 841. (中科院2区)
10. Zhang Zhiqiang, Si Bingcheng*, Li Huijie*, Li Min, 2019. Quantify piston and preferential water flow in deep soil using Cl− and soil water profiles in deforested apple orchards on the Loess Plateau, China. Water, 11(10), 2183. (中科院3区)
11. 李会杰, 易军, 赵英, 刘小玉, 袁瑞娜, 蒋锐, 2015. 浅层地下水对玉米根区水分及根系吸水影响的数值模拟. 灌溉排水学报, 34(11), 35-38.
二、合作作者:
1. Wang Xia, Fan Yanli, Yan Meifang, Tao Ze, He Dong, Du Guangyuan, Li Huijie, Esteban Jobbagy, Li Min*, and Si Bingcheng*, 2024. Direct characterization of deep soil water depletion reveals hydraulic adjustment of apple trees to edaphic changes. Agricultural and Forest Meteorology, 348, 109932. (中科院1区)
2. Fan Yanli, Wang Jianlong, Yan Meifang, Wang Xia, Du Guangyuan, Li Huijie, Li Min*, and Si Bingcheng*, 2024.Salt Addition Mitigate Mortality Risk and Prolong Survival of Robinia pseudoacacia Subjected to Drought Stress. Agronomy,14(3), 439. (中科院2区)
3. Ding Bo, Cai Xinyan, Wang Yi*, Li Huijie, Zhao Xizhou, Xiao Mei, Li Jianfeng, Qianjun Yu, and Zhao Ying, 2023. Secondary vegetation succession following reforestation intensifies preferential flow by improving soil structure in the Chinese Karst region. Ecological Indicators, 156,111166. (中科院2区)
4. Fathololoumi Solmaz, Mohammad Karimi Firozjaei, Li Huijie, and Asim Biswas, 2022. Surface biophysical features fusion in remote sensing for improving land crop/cover classification accuracy. Science of The Total Environment, 838, 156520. (中科院1区)
5. Yan Meifang, Li Huijie, Si Bingcheng, Xu Chenyang, and Li Min*, 2024. Parameters Optimization and Physicochemical Properties Characterization of Nano-biochar Prepared from Apple Branches by Ball Milling, NANO. (中科院4区)
6. Wang Jianjun, Wang Chuantao, Li Hongchen*, Liu Yanfang, Li Huijie, Ren Ruiqi, and Si Bingcheng, 2023.Rock water use by apple trees affected by physical properties of the underlying weathered rock. Agricultural Water Management, 287, 108413. (中科院1区)
7. Yi Jun, Li Huijie, Zhao Ying, Zhang Hailin, and Liu Muxing*, 2022. Assessing soil water balance to optimize irrigation schedules of flood-irrigated maize fields with different cultivation histories in the arid region. Agricultural Water Management, 265, 107543. (中科院1区)
8. Wu Wenjie, Li Huijie, Feng Hao, Si Bingcheng, Li Yue, and Siddique Kadambot, 2021. 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, 297: 108244. (中科院1区)
9. Zhang Zhiqiang, Si Bingcheng*, Li Min*, Li Huijie, 2020. Deficit and recovery of deep soil water following a full cycle of afforestation and deforestation of apple trees on the Loess Plateau, China. Water, 12(4), 989. (中科院3区)
10. Lu Yanwei, Li Huijie, Si Bingcheng*, Li Min, 2020. Chloride tracer of the loess unsaturated zone under sub-humid region: A potential proxy recording high-resolution hydroclimate. Science of The Total Environment, 700, 134465. (中科院1区)
11. Hu Wei, Wang Yunqiang, Li Huijie, Huang Mingbin, Hou Meiting, Li Zhi, Si Bingcheng*, 2019. Dominant role of climate in determining spatio-temporal distribution of potential groundwater recharge at a regional scale. Journal of Hydrology, 578, 124042. (中科院1区)
12. Zhu Wei, Li Huijie, Qu Hongchao, Wang Yilin, Misselbrook Tom, Li Xiao, Jiang Rui*, 2018). Water stress in maize production in the drylands of the Loess Plateau. Vadose Zone Journal, 17(1), 180117. (中科院3区)
13. Zhao Ying*, Zhai Xiaofei, Wang Zhaohui*, Li Huijie, Jiang Rui, 2018. Simulation of soil water and heat flow in ridge cultivation with plastic film mulching system on the Chinese Loess Plateau, Agricultural Water Management, 202, 99-112. (中科院1区)
14. Jiang Rui*, Li Xiao, Zhou Minghua, Li Huijie, Zhao Ying, Cui Lele, Li Ming, Qu Dong, 2018. Plastic film mulching on soil water and maize (Zea mays L.) yield in a ridge cultivation system on Loess Plateau of China. Soil Science and Plant Nutrition, 1, 1-12. (中科院4区)
15. Yi Jun, Zhao Ying*, Shao Mingan*, Li Huijie, Jiang Rui, Hill Robert L, Si Bingcheng, 2015. Hydrological processes and eco-hydrological effects of farmland–forest–desert transition zone in the middle reaches of Heihe River Basin, Gansu, China. Journal of Hydrology, 529, 1690-1700. (中科院1区)
16. Chen Haixin, Zhao Ying*, Feng Hao*, Li Huijie, Sun Benhua. (2015). Assessment of climate change impacts on soil organic carbon and crop yield based on long-term fertilization applications in Loess Plateau, China. Plant and Soil, 390(1), 401-417. (中科院2区)
承担科研项目:
1. 国家自然科学基金青年项目:气候与深层土壤双重干旱胁迫对苹果树水分传输的影响 (42101018),2022-2024,24万,主持。
2. 山东省高等学校青创团队科技计划项目(2022KJ289),果园水资源高效利用创新团队,2022-2025,在研,15万,主持。
3. 国家重点研发计划国际间合作项目课题,协同深层土壤水与灌溉:构建果树应对频繁干旱的新型水管理模式,2022YFE0100300,2022-2025,50万,主持。
4. 山东省自然科学基金青年项目:胶东半岛苹果园根区土壤水肥演变过程及其对果树老化的影响 (ZR2020QD119),2021-2023,14万,主持。
5. 烟台市科技创新发展计划项目,胶东半岛苹果树应对土壤干旱的机制研究,2023JCYJ092,2023-2025,20万,主持。
科研网站主页:
https://www.researchgate.net/profile/Huijie-Li-2
https://scholar.google.com/citations?hl=en&user=ELOl6hsAAAAJ&view_op=list_works&sortby=pubdate