刘小刚
博士 |
教授 |
博士生导师/硕士生导师 |
研究方向: |
节水理论与技术、农业工程、智慧农业、特色热作、环境生态 |
电子邮箱: |
liuxiaogangjy@126.com; 455313853@qq.com |
招生专业: |
农业水土工程、农田水土工程、农业工程、环境科学与工程 |
个人简介:
刘小刚,甘肃镇原人,博士,教授,博士生导师,博士后合作导师,云南省兴滇英才产业创新人才。担任国家科技项目、自然科学基金、学位论文及国际期刊论文评审专家,《灌溉排水学报》和《排灌机械工程学报》编委,中国农业节水和农村供水技术协会农艺节水分会委员、中国热带作物学会咖啡专业委员会委员、云南省精品咖啡学会理事、云南省农业工程学会理事、中国农业工程学会高级会员以及云南省三区人才等。2009年毕业于西北农林科技大学农业水土工程专业获工学博士学位。2001年9月至2004 年7月在塔里木农垦大学任教,2009年8月起在昆明理工大学从事教学科研工作,2016 年10月晋升教授,2012年至 2017年任该校农工学院副院长,2012年至2026年任学院党委委员,2015 年获云南省引进高层次人才政府购房补贴。已主持国家自然科学基金5项(面上2项、青年1项、地区2项)、国家农业科技重大专项子课题、兴滇英才产业创新人才项目、云南省重点和面上项目、四川省科技厅项目、云南省教育厅重点项目等多个科技项目,同时作为技术骨干参与完成 10 余项纵横向科技服务项目。以第一或通讯作者发表学术论文116篇,其中 EI/SCI 收录68篇,授权国家发明专利27件(成果转化4件)、标准4项、软件著作权8项,主/参编学术专著3部。2012 年和 2017 年分别获昆明理工大学伍达观教育基金先进教师奖和红云园丁优秀教师奖,科研成果获云南省科技进步一等奖 1 项(排名第 8)、二等奖 2 项(排名第 1、2)、大北农科技奖二等奖 1 项(排名第 3)。截至目前,指导大学生创新创业项目4项(国家级2项、省级2项),指导的研究生有7人获国家奖学金、8人获省政府奖学金、13人攻读博士学位,1 人获省级优秀学位论文,所带团队荣获全国大学生农业水利工程及相关专业创新设计大赛特等奖。 |
教育经历
2004.09-2009.6 |
西北农林科技大学 |
农业水土工程(硕博连读) |
博士 |
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科研成果:
1. 代表性论文
(1)Dong Jianhua; Wu Lifeng; Liu Xiaogang*; Fan Cheng; Leng Menghui; Yang Qiliang. Simulation of Daily Diffuse Solar Radiation Based on Three Machine Learning Models , Computer Modeling in Engineering & Sciences, 2020, 123(1): 49-73.
(2)Dong Jianhua; Wu Lifeng; Liu Xiaogang*; Li Zhijun; Gao Yanli; Zhang Yuyang; Yang Qiliang. Estimation of daily dew point temperature by using bat algorithm optimization based extreme learning machine , Applied Thermal Engineering, 2020, 165: 114569.
(3)Dongsheng Hu; Gaoji Yang; Xiaogang Liu*; Yuyue Qin; Fujie Zhang; Zhiqing Sun; Xinle Wang; Comparison of different drying technologies for coffee pulp tea: Changes in color, taste, bioactive and aroma components, LWT-Food Science and Technology, 2024, 200: 116193.
(4)Dongsheng Hu; Xiaogang Liu*; Yuyue Qin*; Jiatong Yan; Jiang Li; Qiliang Yang. A novel edible packaging film based on chitosan incorporated with persimmon peel extract for the postharvest preservation of banana , Food Quality and Safety, 2022, 6(6): 1-13.
(5)Dongsheng Hu; Xiaogang Liu*; Yuyue Qin*; Jiatong Yan; Qiliang Yang. A novel intelligent film with high stability based on chitosan/sodium alginate and coffee peel anthocyanin for monitoring minced beef freshness , International Journal of Food Science and Technology, 2022, 57(7): 4673-4686.
(6)Dongsheng Hu; Xiaogang Liu*; Yuyue Qin; Jiatong Yan; Rongmei Li; Qiliang Yang. The impact of different drying methods on the physical properties, bioactive components, antioxidant capacity, volatile components and industrial application of coffee peel , Food Chemistry: X, 2023, 19(7): 100807.
(7)Guangzhao Sun; Xiaogang Liu*; Qiliang Yang; Xiukang Wang*; Ningbo Cui. Alternate infiltration irrigation improves photosynthetic characteristics and water use efficiency in mango seedlings , Journal of Plant Growth Regulation, 2021, 2021(2): 1-10.
(8)Haiqing Chen; Xiaogang Liu*; Qiuyun Xiao; Lang Wu; Minghui Cheng*; Haidong Wang; Xinle Wang; Dongsheng Hu; Zhiqing Sun; Xiaodong Ma; Optimizing Split-reduced drip fertigation schemes of Arabica coffee based on soil microcosms, bean yield, quality and flavor in dry-hot region of southwest China, Scientia Horticulturae, 2024, 336: 113418.
(9)Kun Hao; Xiaogang Liu*; Xiukang Wang*; Liangjun Fei; Lihua Liu; Feilong Jie; Yilin Li; Qiliang Yang; Yunhui Shan. Optimizing shade cultivation method and irrigation amount to improve photosynthetic characteristics, bean yield, and quality of coffee in a subtropical monsoon climate , Frontiers in Plant Science, 2022, 13(4): 848524.
(10)Leng Xianxian; Liu Xiaogang*; Gao Yanli; Liu Yujie; Yang Qiliang; Sun Guangzhao; Peng Youliang; Huang Yifeng. Drought assessment of southwestern China based on HadGEM2-ES model under representative concentration pathway 4.5 scenario , Natural Hazards, 2020, 102(1): 307-334.
(11)Li Yilin; Liu Xiaogang*; Hao Kun; Yang Qiliang. Light-response curve of photosynthesis and model fitting in leaves of Mangifera indica under different soil water conditions , Photosynthetica, 2019, 57(3): 796-803.
(12)Lifeng Wu; Long Qian; Guomin Huang; Xiaogang Liu*; Yicheng Wang; Hua Bai; Shaofei Wu. Assessment of daily of reference evapotranspiration using CLDAS product in different climate regions of China , Water, 2022, 14: 1744.
(13)Liu Xiaogang; Li Fusheng*; Zhang Fucang; Cai Huanjie; Yang Qiliang. Influences of alternate partial root-zone irrigation and urea rate on water- and nitrogen-use efficiencies in tomato , International Journal of Agricultural and Biological Engineering, 2017, 10(6): 94-102.
(14)Liu Xiaogang; Li Rongmei; Han Zhihui; Yang Qiliang*; Jiang Zeyin. Effects of deficit irrigation on soil microorganisms and growth of Arabica coffee ( Coffea arabica L.) under different shading cultivation modes , International Journal of Agricultural and Biological Engineering, 2021, 14(6): 99-108.
(15)Liu Xiaogang; Peng Youliang; Yang Qiliang; Wang Xiukang*; Cui Ningbo. Determining optimal deficit irrigation and fertilization to increase mango yield, quality, and WUE in a dry hot environment based on TOPSIS , Agricultural Water Management, 2021, 245(2): 106650.
(16)Liu Xiaogang; Zhang Yuyang; Leng Xianxian; Yang Qiliang; Chen Haiqing; Wang Xiukang*; Cui Ningbo. Exploring the optimisation of mulching and irrigation management practices for mango production in a dry hot environment based on the entropy weight method , Scientia Horticulturae, 2022, 291: 110564.
(17)Long Qian; Lifeng Wu; Xiaogang Liu*; Jianhua Dong; Sien Li; Qiliang yang; Yaokui Cui. A study of the conversion of different evaporation pans in South China based on the extreme learning machine model , Hydrological Sciences Journal, 2021, 66(16): 1-25.
(18)Rongmei Li#; Jinhuan Cheng#; Xiaogang Liu*; Zhihui Wang; Huiyong Li; Jinjin Guo; Haidong Wang; Ningbo Cui*; Lu Zhao. Optimizing drip fertigation at different periods to improve yield, volatile compounds and cup quality of Arabica coffee , Front. Plant Sci., 2023, 14: 1148616.
(19)Shuo Zhang; Xiaogang Liu*; Rongmei Li; Xinle Wang; Jinhuan Cheng; Qiliang Yang. AHP-GIS and MaxEnt for delineation of potential distribution of Arabica coffee plantation under future climate in Yunnan, China , Ecological Indicators, 2021, 132(10): 108339.
(20)Shuo Zhang; Xiaogang Liu*; Xinle Wang; Yanli Gao; Qiliang Yang. Evaluation of coffee ecological adaptability using Fuzzy, AHP, and GIS in Yunnan Province, China , Arabian Journal of Geosciences, 2021, 14(1366): 1-18.
(21)Sun Guangzhao; Hu Tiantian; Liu Xiaogang*; Peng Youliang; Leng Xianxian; Li Yilin; Yang Qiliang. Optimizing irrigation and fertilization at various growth stages to improve mango yield, fruit quality and water-fertilizer use efficiency in xerothermic regions , Agricultural Water Management, 2022, 260: 107296.
(22)Sun Guangzhao; Li Yilin; Liu Xiaogang*; Cui Ningbo; Gao Yanli; Yang Qiliang. Effect of moistube fertigation on infiltration and distribution of water-fertilizer in mixing waste biomass soil , Sustainability, 2019, 11(23): 6757.
(23)Wang, Xiaoyuan; Quan, Chenxi; Liu, Xiaoqiong; Wang, Yanbing*; Bai, Xuehui; Li, Yong; Liu, Xiaogang; Quantitative lipidomics reveals the effects of roasting degree on arabica coffee beans lipid profiles, Food Control, 2025, 169: 111015.
(24)Weixian Huang; Xiaogang Liu*; Rongmei Li; Haiqing Chen; Haidong Wang; Minghui Cheng*; Qiliang Yang; Xinle Wang; Jiangchun Yang; Optimal combination of organic-inorganic fertilizer of Coffea arabica in southwest China based on soil nutrients, photosynthesis, bean yield and nutritional quality, Journal of Soil Science and Plant Nutrition, 2025, 25: 3272–3284.
(25)Weixian Huang; Xiaogang Liu*; Rongmei Li; Yanbing Wang; Jianhua Dong; Xinle Wang; Ningbo Cui; Zhenjia Chen; Enhancing soil microenvironment, bean yield, nutritional quality and flavor of Coffea arabica through synergistic inorganic-organic fertilization in Southwest China, Industrial Crops & Products, 2025, 234: 121526.
(26)Wenhao Xu; Xiaogang Liu*; Jianhua Dong; Jiaqiao Tan; Xulei Wang; Xinle Wang; Lifeng Wu*; Improvement of Citrus Yield Prediction Using UAV Multispectral Images and the CPSO Algorithm, Agronomy, 2025, 15: 171.
(27)Xiang Xiao; Lifeng Wu; Xiaogang Liu*; Shuo Zhang; Sien Li; Yaokui Cui. Long‑term forecast of heatwave incidents in China based on numerical weather prediction, Theoretical and Applied Climatology, 2023, 23(9): 4654.
(28)Xiaogang Liu*; Zhihui Han; Kun Hao; Xinle Wang; Qiliang Yang. Water Consumption Characteristics of Sugarcane in Dry- h ot Region under Climate Change , Chemical Engineering Transactions, 2015, 46(6): 1411-1416.
(29)Xiaogang Liu; Fusheng Li*; Qiliang Yang; Xinle Wang. Effects of alternate drip irrigation and superabsorbent polymers on growth and water use in young coffee tree , Journal of Environmental Biology, 2016, 37(4): 485-491.
(30)Xiaogang Liu; Fusheng Li*; Yan Zhang; Qiliang Yang. Effects of deficit irrigation on yield and nutritional quality of Arabica coffee ( Coffea arabica ) under different N rates in dry and hot region of southwest China , Agricultural Water Management, 2016, 172: 1-8.
(31)Xiaogang Liu; Jiaqiao Tan; Jianhua Dong*; Shiyao Jiang; Haiqing Chen; Yanbin Wang; Minghui Chen; Xinle Wang; Liwen Xing; Moderate deficit irrigation synergizes with partial replacement of chemical fertilizer by organic fertilizer to enhance soil microenvironment and improve the quality and yield of edible Rose, Industrial Crops and Products, 2025, 226: 120679.
(32)Xiaogang Liu; Kailun Peng; Shaomin Chen*; Yunfei Tuo; Shuai Zhang; Shuai Tan; Fangchuan Lou; Jinxue Li; Zhenjia Chen; Estimating the leaf water content of Coffea arabica L. based on hyperspectral reflectance and dataset construction, Int J Agric & Biol Eng, 2025, 18(5): 287-297.
(33)Xiaogang Liu; Shuai Zhang; Shaomin Chen*; Yunfei Tuo; Kailun Peng; Shuai Tan; Fangchuan Lou; Tingting Jiang; Xiaodong Ma; Predicting leaf nitrogen content of coffee trees using the canopy hyperspectral reflectance feature bands vegetation index and machine learning, International Journal of Remote Sensing, 2024, 45(22): 8471-8498.
(34)Xiaogang Liu; Xinle Wang; Fusheng Li*; Fucang Zhang; Huanjie Cai; Qiliang Yang. Response of tomato yield and quality to alternate partial root-zone irrigation at different water and nitrogen levels , Carpathian Journal of Food Science and Technology, 2015, 7(4): 154-160.
(35)Xiaogang Liu; Yuntao Qi; Fusheng Li*; Qiliang Yang; Liming Yu. Impacts of regulated deficit irrigation on yield, quality and water use efficiency of Arabica coffee under different shading levels in dry and hot regions of southwest China , Agricultural Water Management, 2018, 204: 292-300.
(36)Xiaogang Liu; Yuting Tan; Jianhua Dong*; Jie Wu; Xinle Wang; Zhiqing Sun; Assessing habitat selection parameters of Arabica coffee using BWM and BCM methods based on GIS, Scientific Reports, 2025, 15: 8.
(37)Xiaogang Liu; Yuyang Zhang; Xianxian Leng; Qiliang Yang; Haiqing Chen; Xiukang Wang*; Ningbo Cui. Exploring the optimisation of mulching and irrigation management practices for mango production in a dry hot environment based on the entropy weight method , Scientia Horticulturae, 2021, 291(8): 110564.
(38)Xiaogang Liu; Yuyang Zhang; Zeyin Jiang; Xiulu Yue; Jiaping Liang*; Qiliang Yang*; Jun Li*; Na Li. Micro-moistening irrigation combined with bio-organic fertilizer: An adaptive irrigation and fertilization strategy to improve soil environment, edible Rose yield, and nutritional quality , Industrial Crops & Products, 2023, 196: 116487.
(39)Xiaoyuan Wang; Chenxi Quan; Xiaoqiong Liu; Yanbing Wang*; Xuehui Bai; Yong Li; Xiaogang Liu*; Quantitative lipidomics reveals the effects of roasting degree on arabica coffee beans lipid profiles, Food Control, 2024, 169: 111015.
(40)Yanbing Wang#; Xiaoyuan Wang#; Xiaogang Liu*; Xiaoqiong Liu*; Lirong Li; Zhiqing Sun; Comparative lipidomics analysis reveals changes in lipid profile of Arabica coffee at different maturity, Food Chemistry: X, 2024.
(41)Yilin Li; Jiancha Li; Binyan Zhang; Xuewen Yue; Kun Li; Daming Chen; Yujiao Yang; Xiaogang Liu*; Haidong Fang*; Dry matter accumulation, translocation, and bulb yield of short-day onion as affected by cultivars and drip irrigation regimes in the dry-hot regions of southwest China, Agricultural Water Management, 2025, 318: 109677.
(42)Yilin Li; Xiaogang Liu*; Haidong Fang; Liangtao Shi; Xuewen Yue; Qiliang Yang. Exploring the coupling mode of irrigation method and fertilization rate for improving growth and water-fertilizer use efficiency of young mango tree , Scientia Horticulturae, 2021, 286(8): 110211.
(43)Youliang Peng; Liangjun Fei; Xiaogang Liu*; Guangzhao Sun; Kun Hao; Ningbo Cui; Lu Zhao; Lihua Liu; Feilong Jie. Coupling of regulated deficit irrigation at maturity stage and moderate fertilization to improve soil quality, mango yield and water-fertilizer use efficiency , Scientia Horticulturae, 2022, 307: 111492.
(44)Yuting Tan; Xinle Wang; Xiaogang Liu*; Shuo Zhang; Na Li; Jiaping Liang*; Dan Xu; Qiliang Yang*. Comparison of AHP and BWM methods based on ArcGIS for ecological suitability assessment of Panax notoginseng in Yunnan Province, China , Industrial Crops & Products, 2023, 199: 116737.
(45)Zexi Zhang; Jianhua Dong*; Xiaogang Liu*; Dan Xu; Yanhong Liu; Hualing Zhang; Jinxue Li; Slow controlled-release fertilizers on yield, greenhouse gas emissions, and soil organic carbon in major cereal crops, Field Crops Research, 2025, 338: 110316.
(46)Zeyin Jiang#; Yuqiang Lou#; Xiaogang Liu*; Wenyan Sun; Haidong Wang; Jiaping Liang; Jinjin Guo; Na Li; Qiliang Yang. Combined Application of Coffee Husk Compost and Inorganic Fertilizer to Improve the Soil Ecological Environment and Photosynthetic Characteristics of Arabica Coffee , Agronomy, 2023, 13: 1212.
(47)Zeyin Jiang; Xiaogang Liu*; Wenyan Sun; Ningbo Cui*; Jinjin Guo; Haiqing Chen; Weixian Huang; Fertilizer Optimization Combined with Cofee Husk Returning to Improve Soil Environmental Quality and Young Cofee Tree Growth, Journal of Soil Science and Plant Nutrition, 2024,24, 650-665.
(48)Zeyin Jiang; Xiaogang Liu*; Xiaoling Wang; Kailun Peng; Shiyao Jiang; Leicheng Hu; Wanyi Zhang; Evaluating the combined effects of Trichoderma harzianum, Bacillus subtilis, and chemical fertilization on soil fertility, yield, and quality of edible rose, European Journal of Agronomy, 2025, 172: 127861.
(49)高燕俐; 刘小刚*; 冷险险; 章宇阳; 董建华; 范诚. 基于主成分分析的广西壮族自治区 干旱时空格局 , 生态学报, 2020, 40(16): 5591-5601.
(50)郝琨; 费良军; 刘小刚*; 刘利华; 何红艳; 杨启良. 香蕉树中度荫蔽下充分灌水提高干热区咖啡产量及品质 , 农业工程学报, 2019, (12): 72-80.
(51)郝琨; 刘小刚*; 韩志慧; 余宁; 程金焕; 刘闯; 李义林; 杨启良. 不同荫蔽栽培下亏缺灌溉对干热区小粒咖啡水光利用和产量的影响 , 应用生态学报, 2018, (11): 3550-3558.
(52)郝琨; 刘小刚*; 张岩; 韩志慧; 余宁; 杨启良; 刘艳伟. 干旱胁迫-复水与氮肥耦合对小粒咖啡生长和水氮生产力的影响 , 应用生态学报, 2017, 28(12): 4034-4042.
(53)蒋诗瑶; 刘小刚; 易怀峰; 赵璐; 崔宁博; 李义林*; 微灌方式耦合施肥水平对土壤质量、芒果幼树生长和水肥利用效率的影响, 植物营养与肥料学报, 2023, 29(10): 1896–1910.
(54)刘小刚; 符娜; 李闯; 王露; 杨启良. 河南省主粮作物需水量变化趋势与成因分析 , 农业机械学报, 2015, (09): 188-197.
(55)刘小刚; 耿宏焯; 程金焕, 杨启良; 施卫省; 杨新荣. 保水剂和灌水对小粒咖啡苗木的节水调控效应, 农业机械学报, 2014, 32(3): 134-139.
(56)刘小刚; 郝琨; 韩志慧; 余宁; 杨启良; 刘艳伟. 水氮耦合对干热区小粒咖啡产量和品质的影响 , 农业机械学报, 2015, (02): 143.
(57)刘小刚; 冷险险; 孙光照; 彭有亮; 黄一峰; 杨启良. 基于1961—2100年SPI和SPEI的云南省干旱特征评估 , 农业机械学报, 2018, (12): 236-245+299.
(58)刘小刚; 万梦丹; 齐韵涛; 杨启良; 刘艳伟. 不同遮阴下亏缺灌溉对小粒咖啡生长和水光利用的影响 , 农业机械学报, 2017, 48(1): 191-197.
(59)刘小刚; 张岩; 程金焕; 钟原; 杨启良. 水氮耦合下小粒咖啡幼树生理特性及水氮利用效率, 农业机械学报, 2014, 45(8): 160-166.
(60)刘小刚; 范诚; 李加念; 高燕俐; 章宇阳; 杨启良. 基于卷积神经网络的草莓识别方法 , 农业机械学报, 2020, 51(2): 237-244.
(61)刘小刚; 李义林; 齐韵涛; 程金焕; 杨启良; 刘艳伟. 干热区小粒咖啡提质增产的灌水和遮荫耦合模式 , 应用生态学报, 2018, (04): 1140-1146.
(62)刘小刚; 普嘉鹏; 韩焕豪; 李加念; 李娜; 崔宁博; 未来气候变化下中国西南地区节水抗旱稻适生区变化特征研究, 农业机械学报, 2025, 56(7): 618-626.
(63)刘小刚; 孙光照; 彭有亮; 杨启良; 何红艳. 水肥耦合对芒果光合特性和产量及水肥利用的影响 , 农业工程学报, 2019, (16): 125-133.
(64)刘小刚; 张富仓; 田育丰. 交替隔沟灌溉和施氮对玉米根区水氮迁移的影响, 中国农业科学, 2008, 41(07): 2025-2032.
(65)刘小刚; 张富仓*; 田育丰; 李志军. 水氮处理对玉米根区水氮迁移和利用的影响, 农业工程学报, 2008, 24(11): 19-24.
(66)刘小刚; 张富仓*; 杨启良; 李志军; 吴立峰. 调亏灌溉与氮营养对玉米根区土壤水氮有效性的影响, 农业工程学报, 2010, 26(02): 135-141.
(67)刘小刚; 张富仓*; 杨启良; 田育丰. 控制性分根区灌溉对玉米根区水氮迁移和利用的影响, 农业工程学报, 2009, 25(11): 62-67.
(68)刘小刚; 张富仓*; 杨启良; 王金凤; 李志军. 交替隔沟灌溉条件下玉米群体水氮利用研究, 农业机械学报, 2011, 42(5): 100-105.
(69)刘小刚; 张岩; 程金焕; 钟原; 杨启良. 水氮耦合下小粒咖啡幼树生理特性与水氮利用效率 , 农业机械学报, 2014, (08): 160-166.
(70)刘小刚; 朱益飞; 余小弟; 李义林; 唐建楷; 喻黎明*. 不同水头和土壤容重下微润灌湿润体内水盐分布特性 , 农业机械学报, 2017, 48(7): 189-197.
(71)彭有亮; 费良军*; 刘小刚*; 孙光照; 王秀康. 减量施肥耦合调亏灌溉对干热区芒果产量和品质的影响 , 植物营养与肥料学报, 2022, 28(3): 521-531.
(72)章宇阳; 刘小刚*; 余宁; 赵志浩; 杨启良; 高燕俐; 范诚; 董建华. 不同遮荫条件下施肥量对西南干热区小粒咖啡产量和肥料利用的影响 , 应用生态学报, 2020, 31(2): 515-523.
2. 标准、授权发明专利及软件著作
(1)小粒种咖啡种植水肥一体化技术规程,T/YNRZ 024—2022, 云南省热带作物学会, 2022-10-27.
(2)保山小粒咖啡水肥一体化技术规程,DB5305/T 120—2023, 保山市市场监督管理局, 2023-09-01.
(3)一种适用于改善云南红壤区食用玫瑰种植地土壤微环境和提质增产的滴灌施肥耦合微生物菌剂的方法,ZL202411177515.9
(4)一种玫瑰花种苗自动种植装置及方法,ZL202411056827.4
(5)一种用于花卉种植用的施肥装置,ZL202411291939.8
(6)一种多功能撒种小推车,ZL201810787595.8
(7)一种分层横向取土装置,ZL201810999731.X
(8)一种行走式地下分层灌溉施肥装置,ZL201810000416.1
(9)一种便携、无烟多功能烧烤炉,ZL201810337545.X
(10)一种自走式果树农药化肥喷洒装置,ZL201810044030.0
(11)一种恒定压力水头精准控制实验装置,ZL201610605716.3
(12)一种生物燃料的制备系统,ZL201811158841.X
(13)一种草莓杀菌消毒分选装置,ZL201710918131.1
(14)一种植物根土分离清洗装置,ZL201711373381.8
(15)一种新型沼液分离及施肥灌溉一体化系统,ZL201811160627.8
(16)一种可自控调温、补光温室大棚,ZL201811222158.8
(17)一种微润灌溉水肥一体控制系统,201710373085.1
(18)一种分层自控排灌装置、方法及引导根系生长的灌溉方法,ZL202210189792.6
(19)一种灌溉用引水管密封连接装置,ZL202110177346.9
(20)一种引导根系生长的变深度地下灌溉装置及方法,ZL202010890952.0
(21)一种咖啡鲜果去皮干燥装置,ZL201811621824.5
(22)一种水利工程用曲面消能墙,ZL202010254214.7
(23)一种山地自动补偿灌溉系统及方法,ZL201710609434.5
(24)一种咖啡鲜果去皮除胶装置,ZL201810017252.3
(25)一种磁性液位计,ZL201510162328.8
(26)一种取样器,ZL201510722959.0
(27)一种地下水肥气一体化灌溉系统,ZL201510172781.7
(28)一种山药工厂化种植收获集成装置,ZL201510488086.1
(29)一种自动摘果去叶装置,ZL201310579383.8
(30)基于气象预报和土壤水分的智能灌溉系统,ZL2024SR0494696.
(31)稻田水体营养测定及施肥预报系统,2024SR2242054.
(32)稻田灌排一体化闸阀控制系统,2024SR2169780.
(33)旱稻水肥一体化控制系统,2024SR2169776.
(34)干热区小粒咖啡水肥精准调控和高质量生产系统,2024SR0353424.
(35)精品咖啡生产环境要素检测和预警系统,2024SR0374114.
3.科技奖励
(1)云南小粒咖啡水-肥-光协同调控与高值化加工关键技术及应用, 云南省人民政府, 科技进步奖,二等奖,2024,排名第1
(2)干热区特色作物水肥高效利用关键技术与产品研发及应用, 云南省人民政府, 科技进步奖,二等奖,2021,排名第2
(3)低纬高原季节性旱区农业多维节水减排增效关键技术及应用, 云南省人民政府, 科技进步奖,一等奖,2021,排名第8
(4)西南特色水果节水提质增效灌溉关键技术研发与应用, 大北农科技奖励委员会,二等奖,2024,排名第3
4. 学术专著
(1)小粒咖啡水肥光耦合理论与调控模式,科学出版社,2018.
(2)小桐子水氮高效利用理论与调控技术,中国农业科学技术出版社,2017.
(3)西北旱区作物水肥高效利用的理论与实践,科学出版社,2015.
5. 人才培养
(1)指导1位研究生获得2022年省级优秀毕业论文(董建华)
(2)指导7位研究生(张岩、郝琨、董建华、孙光照、张朔、胡东升、蒋泽引)获得国家奖学金
(3)指导的硕士生有13位到知名大学攻读博士学位(符娜、侯军、郝琨、董建华、张朔、钱龙、胡东升、孙光照、彭有亮、肖翔、蒋泽引、李义林)
(4)指导团队2022年荣获全国大学生农业水利工程及相关专业创新设计大赛特等奖(适用于干热区的插入式智能灌溉施肥系统)
6. 主持的主要科研项目
(1) 国家自然科学基金面上项目(52379040,2024.01-2027.12);
(2) 国家自然科学基金面上项目(51979133,2020.01-2023.12);
(3) 国家自然科学基金地区项目(51769010,2018.01-2021.12);
(4) 国家自然科学基金地区项目(51469010,2015.1-2018.12);
(5) 国家自然科学基金青年项目(51109102,2012.01-2014.12);
(6) 云南省基础研究专项重点项目(202301AS070030,2023.06-2026.05);
(7) 国家农业科技重大专项子课题(2023.10-2026.12)
(8) 云南省兴滇英才产业创新人才项目(2026.01-2030.12)
