邢旭光
基本信息
邢旭光,男,中共党员,博士,副教授,硕士生导师。陕西省青年科技工作者协会会员。
教育经历
2014年9月—2017年6月,西北农林科技大学,农业水土工程,博士
2010年9月—2013年4月,西安理工大学,农业水土工程,硕士
2006年9月—2010年6月,沈阳农业大学,水利水电工程,学士
工作经历
2019年1月—至今,西北农林科技大学,副教授
2017年7月—2018年12月,西北农林科技大学,讲师
2013年5月—2014年5月,重庆地质矿产研究院,助理工程师
研究方向
[1]. 土壤水盐理论
[2]. 农业水土环境
[3]. 农田水资源高效利用
讲授课程
本科生:《土壤与农作》
研究生:《工程计算程序设计》
科研项目
主持国家自然科学基金项目1项,省部级自然科学基金项目2项,农业领域重大科技专项课题子课题1项,校科研启动基金项目1项;作为研究骨干参与省部级基础研究计划重点项目1项,国家自然科学基金项目1项。
[1] 陕西省自然科学基础研究计划项目,“考虑裂隙的土壤水盐协同迁移与模型构建”,2024/01-2025/12,主持
[2] 西安理工大学西北旱区生态水利国家重点实验室开放研究基金,“裂隙土入渗-蒸发过程水盐迁移与数值模拟研究”,2022/01-2023/12,主持
[3] 国家自然科学基金青年项目,“盐基离子对入渗-蒸发过程水分运动的影响机制与水盐运动模型研究”,2019/01-2021/12,主持
[4] 西北农林科技大学科研启动基金项目,“不同盐分来源水分迁移模型及土壤水盐耦合机制”,2018/01-2020/12,主持
[5] 横向科研项目,“土壤水、温、电导率测定物联网系统”,2022/09-2023/04,主持
[6] 云南省基础研究计划项目,“节水减氮、秸秆还田的番荔枝-大豆套种体系土壤碳、氮响应机制与调控策略”,2024/03-2027/02,参与
学术成果
以第一作者/通讯作者发表学术论文60余篇,其中SCI论文45篇、EI论文8篇;授权国际发明专利1项,实用新型专利1项;主编教材1部;参编团体标准1项。以第一作者发表教育教学论文4篇。
近五年学术论文(#同等贡献,*通讯作者)
[1] Feng H, Xing X*, Xing J, Du J, Li D. 2025. Performance and modeling of infiltration flow in cracked saline soils. Journal of Hydrology . 656, 133054.
[2] Xing X*, Feng H, Jiao S, Xia T, Li D, Zhao F, Wang W*. 2025. Soil water, salt, and microplastics interact during migration: Performance and mechanism. Geoderma . 455, 117229.
[3] Xing X*, Su L, Li D, Zhao F, Wang W*. 2025. Changes in water characteristics and pore distributions in loam soil under the coexistence of microplastics and salts. Geoderma . 460, 117415.
[4] Feng H, Xing X*, Du J, Jiao S, Yu M, Wang W*. 2025. Concentration- and size-dependent influences of microplastics on soil hydraulic properties and water flow. European Journal of Soil Science . 76, e70049.
[5] Zhao L, Yang S, Zhao X, Shi Y, Feng S, Xing X*, Chen S*. 2025. Recalibration of four empirical reference crop evapotranspiration models using a hydrid Differential Evolution-Grey Wolf Optimizer algorithm. International Journal of Agricultural and Biological Engineering . 18, 173-180.
[6] Feng H, Xing X*, Su L, Zhang C, Wang Y, Li Y, Wang W*. 2025. Insights into saline soil cracking subjected to drying-wetting cycles. Acta Geophysica . 73, 619-633.
[7] Feng H, Xing X*, Zhao F, Yu M. 2024. Insights into simultaneous changes of water evaporation and desiccation crack formation for microplastics-contained saline soils. Geoderma . 448, 116977.
[8] Xing X, Jing X*, Zhao F, Jiao S, Su L, Yu M, Zhao L*. 2024. Dry-wet alternation and microplastics particle size effects on and contributions to soil water and soil pore properties. European Journal of Soil Science . 75, e13522.
[9] Li Y, Yang G, Yu C, Lei X, Ma X, Xing X*. 2024. Microplastics in the agricultural soils: pollution behavior and subsequent effects. Land Degradation & Development . 35, 4455-4471.
[10] Chang K, Feng H, Xing J, Wang X, Yao R*, Xing X*. 2024. High salinity prolongs water processes required for soil structure stability during drying-wetting cycles. Soil Science Society of America Journal . 88, 1100-1108.
[11] Wu J, Wang N, Xing X*, Ma X*. 2024. Relationship of winter wheat phenology with carbon and water flux and influencing factors in the North China Plain. Computers and Electronics in Agriculture . 222, 109034.
[12] Wu J, Gu Y, Sun K, Xing X*, Ma X*. 2024. Impacts of climate change on winter wheat net primary production: the regulatory role of crop management. Journal of the Science of Food and Agriculture . 104, 1420-1430.
[13] Zhao L, Qing S, Li H, Qiu Z, Niu X, Shi Y, Chen S, Xing X*. 2024. Estimating maize evaporanspiration based on hybrid back-propagation neural network models and meteorological, soil, and crop data. International Journal of Biometeorology . 68, 511-525.
[14] Wang W, Wang Y, Cai L, Xing X*. 2024. Variable-rate fertilization in a custard apple ( Annona squamosa L .) orchard based on the spatial variability of soil nutrients. Applied Fruit Science . 66, 803-812.
[15] Xing X, Nie W*, Chang K, Zhao L, Li Y*, Ma X. 2023. A numerical approach for modeling crack closure and infiltrated flow in cracked soils. Soil & Tillage Research . 233, 105794.
[16] Zhao L, Qing S, Bai J, Hao H, Li H, Shi Y, Xing X*, Yang R. 2023. A hybrid optimized model for predicting evapotranspiration in early and late rice based on a categorical regression tree combination of key influencing factors. Computers and Electronics in Agriculture . 211, 108031.
[17] Wang W, Shi F, Du J, Li L, Bai T, Xing X*. 2023. Soil factors that contribute to the abundance and structure of the diazotrophic community and soybean growth, yield, and quality under biochar amendment. Chemical and Biological Technologies in Agriculture . 10, 54.
[18] Zhao L, Zhao X, Li Y, Shi Y, Zhou H, Li X, Wang X, Xing X*. 2023. Applicability of hybrid bionic optimization models with kernel-based extreme learning machine algorithm for predicting daily reference evapotranspiration: a case study in arid and semiarid regions, China. Environmental Science and Pollution Research . 30, 22396-22412.
[19] Wu J, Wang N, Xing X*, Ma X*. 2023. Loss of net primary production of seasonal winter wheat due to multiple drought types in the main grain-producing area of China. Journal of Hydrology . 625, 130093.
[20] Jing X, Su L, Wang Y, Yu M, Xing X*. 2023. How do microplastics affect physical properties of silt loam soil under wetting-drying cycles? Agronomy . 13, 844.
[21] Gao Y, Chang K, Xing X*, Liang J, He N, Ma X. 2022. Determination of soil water hydraulic parameters from infiltration data. Engineering Computations . 39, 541-553.
[22] Xing X, Jing X, Zhao F, Wang W*. 2022. Interactions between water evaporation and surface cracking in NaCl-induced homogeneous silt loam and sand. Communications in Soil Science and Plant Analysis . 53, 1930-1941.
[23] Zhao L, Zhao X, Pan X, Shi Y, Qiu Z, Li X, Xing X*, Bai J. 2022. Prediction of daily reference crop evapotranspiration in different Chinese climate zones: Combined application of key meteorological factors and Elman algorithm. Journal of Hydrology . 610, 127822.
[24] Wang Z #, Xing X #, Xue M, Bai S, Li P, Li C, Xia T*. 2022. Insights into heteroaggregation of polystyrene nanoplastics with hematite nanoparticles and configuration-dependent adsorption for PFOA and PFOS. Colloids and Surface A-Physicochemical and Engineering Aspects . 649, 129467.
[25] Garg A, Xing X*, Bordoloi S. 2022. Water retention models for soils mixed with waste residues: application of the modified van-Genuchten and Brooks-Corey models. Biomass Conversion and Biorefinery . 12, 5059-5066.
[26] Guo H, Feng H, Xing X*. 2022. Plastic content and size together produce the dual effects on water loss and surface fissure for silt loam. Eurasian Soil Science . 55, 1741-1748.
[27] Wang W, Gong Y, Xing X*, Zhao F, Zhang X. 2022. Effects of water-salt coordinated regulation technique on ion distribution and antioxidant enzyme activities in tomato. International Journal of Agricultural and Biological Engineering . 15, 165-174.
[28] Lai Y, Garg A, Chang K, Xing X*, Fan J, Liang J, Yu M. 2021. A novel method to inverse the water retention curves with consideration of volume change during centrifuge testing. Soil Science Society of America Journal . 85, 207-216.
[29] Xing X, Liu Y, Garg A*, Ma X, Yang T*, Zhao L. 2021. An improved genetic algorithm for determining modified water-retention model for biochar-amended soil. Catena . 200, 105143.
[30] Xing X, Yu M, Xia T*, Ma L. 2021. Interactions between water flow and microplastics in silt loam and loamy sand. Soil Science Society of America Journal . 85, 1956-1962.
[31] Zhao L, Zhao X, Zhou H, Wang X, Xing X*. 2021. Prediction model for daily reference crop evapotranspiration based on hybrid algorithm and principal components analysis in Southwest China. Computers and Electronics in Agriculture . 190, 106424.
专著、专利、标准
[1] 邢旭光,赵龙,王增红,李一博,周慧;MATLAB应用技术,教材,西北农林科技大学出版社,2024.
[2] 邢旭光;Real-time monitoring system for soil water and salt migration process,发明专利,2023.
[3] 邢旭光,苏刘畅,王怡森,景小芫;一种土壤饱和导水率的自动测量装置,实用新型专利,2024.
[4] 赵龙,金鑫,邢旭光,等;手扶式烟草灌溉(施肥)机通用技术规范,团体标准,2023.
获奖与荣誉
[1] 指导1名研究生获2025年校级优秀硕士学位论文
[2] 指导4名本科生分别获2020年校级优秀毕业论文,获2019、2018、2016年院级优秀毕业论文
[3] 指导本科生获第四届华维杯全国大学生农业水利工程创新设计大赛二等奖
[4] 指导本科生获2023年西北农林科技大学第十一届创意农业设计大赛校级三等奖
[5] 河南省教育厅科技成果奖优秀科技论文一等奖,“Prediction of daily reference crop evapotranspiration in different Chinese climate zones:Combined application of key meteorological factors and Elman algorithm”,河南省教育厅,2023,7/8(通讯作者)
[6] 河南省教育厅科技成果奖优秀科技论文二等奖,“A hybrid optimized model for predicting evapotranspiration in early and late rice based on a categorical regression tree combination of key influencing factors”,河南省教育厅,2024,7/7(通讯作者)
学术兼职
《干旱地区农业研究》、《灌溉排水学报》青年编委。
招生方向
学硕:农业水土工程
专硕:土木水利
联系方式
通讯地址:陕西杨凌示范区西农路22号 西北农林科技大学水利与建筑工程学院A517
邮编:712100
邮箱:xgxing@nwafu.edu.cn