水利与土木工程学院

论文

一、公开发表的主要论文

（1）Zhang Haiyang, Li Wenwen, Wang Guolong, Song Fanfan, Wen Zhaoqi, Zhang Hengyuan, Tong Ling*, Kang Shaozhong*.Predicting stomatal conductance of chili peppers using TPE-optimized LightGBM and SHAP feature analysis based on UAVs' hyperspectral, thermal infrared imagery, and meteorological data.Computers and Electronics in Agriculture,2025,231:110036.（SCI）

（2）Zhang Haiyang, Wang Guolong, Song Fanfan, Wen Zhaoqi, Li Wenwen, Tong Ling*, Kang Shaozhong.Improving chili pepper LAI prediction with TPE-2BVIs and UAV hyperspectral imagery.Computers and Electronics in Agriculture, 2025,235:110368.（SCI）

（3）Ma Yining, Ren Jiawei, Yang Shengju, Ding Risheng, Du Taisheng, Kang Shaozhong, Tong Ling*.Enhancing maize yield and water productivity through coordinated root-shoot growth under mild water stress in dense planting.Field Crops Research,2025,323:109786.（SCI）

（4）Ma Yining, Yang Shengju, Ding Risheng, Du Taisheng, Kang Shaozhong, Tong Ling*.Mild water deficit under reasonable dense planting ensures maize yield and improves water use efficiency by coordinating source-sink relationship. Field Crops Research,2025, 2025,327:109888.（SCI）

（5）Ma Yining, Ren Jiawei, Kang Shaozhong, Niu Jun, Tong Ling*.Spatial-temporal dynamics of meteorological and agricultural drought in Northwest China: Propagation, drivers and prediction.Journal of Hydrology,2025,650,132492.（SCI）

（6）Zhao Xiao, Guo Panpan, Wu Xiong, Zhu Meng, Kang Shaozhong, Du Taisheng, Kang Jian, Chen Jinliang, Tong Ling*, Ding Risheng*, Xu Wanli, Tang Guangmu.Composite microbial agent improves cotton yield and resource use efficiency under mild salt stress by optimizing plant resource allocation.Agricultural Water Management,2025,310,109358.（SCI, EI）

（7）Chen Yang, Wang Lu, Tong Ling*, Hao Xinmei, Wu Xuanyi, Ding Risheng, Kang Shaozhong, Li Sien. Effects of biochar addition and deficit irrigation with brackish water on yield-scaled N₂O emissions under drip irrigation with mulching. Agricultural Water Management,2023,277,108129.（SCI, EI）

（8）Shi Rongchao, Wang Jintao, TongLing*, Du Taisheng, Manoj Kumar Shukla, Jiang Xuelian, Li Donghao, Qin Yonghui, He Liuyue, Bai Xiaorui, Guo Xiaoxu. Optimizing planting density and irrigation depth of hybrid maize seed production under limited water availability. Agricultural Water Management,2022,271,107759.（SCI, EI）

（9）Jiang Xuelian, Kang Shaozhong, Tong Ling∗, Li Sien, Ding Risheng, Du Taisheng. Modeling evapotranspiration and its components of maize for seed production in an arid region of northwest China using a dual crop coefficient and multisource models. Agricultural Water Management, 2019,222: 105-117.（SCI, EI）

（10）Li Xiaolin, Tong Ling∗, Niu Jun, Kang Shaozhong, Du Taisheng, Li Sien, Ding Risheng. Spatio-temporal distribution of irrigation water productivity and its driving factors for cereal crops in Hexi Corridor, Northwest China.Agricultural Water Management, 2017,179:55-63.（SCI, EI）

（11）Du Shaoqing, Tong Ling*, Zhang Xiaotao, Kang Shaozhong, Du Taisheng, Li Sien, Ding Risheng.Signal intensity based on maximum daily stem shrinkage can reflect the water status of apple trees under alternate partial root-zone irrigation. Agricultural Water Management, 2017,190,21-30.（SCI, EI）

（12）Jiang Xuelian, Kang Shaozhong, Li Fusheng , Du Taisheng, Tong Ling*, Comas Louise. Evapotranspiration partitioning and variation of sap flow in female and male parents of maize for hybrid seed production in arid region.Agricultural Water Management, 2016,176:132–141.（SCI, EI）

（13）Li Sien, Tong Ling*, Li Fusheng, Zhang Lu, Zhang Baozhong, Kang Shaozhong. Variability in energy partitioning and resistance parameters for a vineyard in northwest China. Agricultural Water Management, 2009,96(6): 955–962.（SCI, EI）

（14）Tong Ling, Kang Shaozhong, Zhang Lu. Temporal and spatial variations of evapotranspiration for spring wheat in the Shiyang river basin in northwest China. Agricultural Water Management, 2007,87(3): 241-250.（SCI, EI）

（15）Zhao Xiao, Guo Panpan, Wu Xiong, Zhu Meng, Kang Shaozhong, Du Taisheng, Kang Jian, Chen Jinliang, Tong Ling*, Ding Risheng*.Optimizing cotton growth in saline soil: Compound microbial agent modulates indigenous bacteria to enhance photosynthesis and vegetative-reproductive balance.Industrial Crops and Products, 2024, 221: 119286.（SCI）

（16）Chen Yang, Feng Xuyu, Shi Yuanzhi, Xu Zunqiu, Hao Xinmei, Tong Ling*, Wang Sufen, Ding Risheng.Effects of irrigation and biochar management strategies on the multifunctionality of maize field ecosystem in the arid region of Northwest China.Agricultural Systems,2025 ,228:104369.（SCI）

（17）Wang Jintao, Tong Ling*, Kang Shaozhong, Li Fusheng, Zhang Xiaotao, Ding Risheng, Du Taisheng, and Li Sien. Flowering characteristics and yield of maize inbreds grown for hybrid seed production under deficit irrigation. Crop Science,2017,57:2238-2250.（SCI）

（18）Ma Shimeng, Tong Ling*, Kang Shaozhong, Wang Sufen, Wu Xuanyi, Cheng Xiaona, Li Qiangqiang. Optimal coupling combinations between dripper discharge and irrigation interval of maize for seed production under plastic film-mulched drip irrigation in an arid region. Irrigation Science,2022,40:177-189.（SCI, EI）

（19）Shi Rongchao, Tong Ling*, Du Taisheng, Manoj Kumar Shukla, Jiang Xuelian, Li Donghao, Qin Yonghui. An integrated model to optimize planting density and sufficient irrigation depth for increasing hybrid maize seeds yield. Irrigation Science,2022, 40:909–923.（SCI, EI）

（20）Li Xiaojuan, Tong Ling*, Li Fusheng, Kang Shaozhong. Comparison of spatial interpolation methods for yield response factor and its spatial distribution in Haihe basin of north China. Irrigation Science, 2011,29:455-468.（SCI, EI）

（21）Chen Yang, Wang Lu, Tong Ling*, Hao Xinmei, Ding Risheng, Li Sien, Kang Shaozhong. Response of soil respiration and carbon budget to irrigation quantity/quality and biochar addition in a mulched maize field under drip irrigation. Journal of the Science of Food and Agriculture, 2024, 104(2):1051-1062.（SCI）

（22）Wu Xuanyi，Tong Ling *, Kang Shaozhong, Du Taisheng, Ding Risheng, Li Sien，Chen Yang. Combination of suitable planting density and nitrogen rate for high yield maize and their source–sink relationship in Northwest China. Journal of the Science of Food and Agriculture,2023,103: 5300–5311.（SCI）

（23）Jiang Xuelian, Tong Ling*, Kang Shaozhong, Li Fusheng, Li Donghao, Qin Yonghui, Shi Rongchao, Li Jianbing. Planting density affected biomass and grain yield of maize for seed production in an arid region of Northwest China. Journal of Arid Land, 2018, 10 (2): 292-303.（SCI）

（24）Ran Hui, Kang Shaozhong, Li Fusheng, Du Taisheng, Ding Risheng, Li Sien, Tong Ling*. Responses of water productivity to irrigation and N supply for hybrid maize seed production in arid Northwest China. Journal of Arid Land, 2017, 9(4): 504-514.（SCI）

（25）Ji Shasha, Tong Ling*, Kang Shaozhong, Li Fusheng, Lu Hongna, Du Taisheng, Li Sien, Ding Risheng.A modified optimal stomatal conductance model under water-stressed condition. International Journal of Plant Production, 2017, 11(2): 295-314.（SCI）

（26）Xu Xiaoyan, Tong Ling*, Li Fusheng, Kang Shaozhong, Qu Yanping. Sap flow of irrigated Populus alba var. pyramidalis and its relationship with environmental factors and leaf area index in an arid region of Northwest China. Journal of Forest Research, 2011,16:144-152.（SCI, EI）

（27）Du Shaoqing, Tong Ling*, Kang Shaozhong, Li Fusheng, Du Taisheng, Li Sien, Ding Risheng. Alternate partial root-zone irrigation with high irrigation frequency improves root growth and reduces unproductive water loss of apple tree in arid northwest China. Frontiers of Agricultural Science and Engineering, 2018, 5(2): 188-196.

（28）Ji Shasha, Tong Ling*, Li Fusheng, Lu Hongna, Li Sien, Du Taisheng, Wu Youjie.Effect of a new antitranspirant on the physiology and water use efficiency of soybean under different irrigation rates in an arid region. Frontiers of Agricultural Science and Engineering, 2017,4(2): 155-164.

（29）Liu Wenhui, Zhang Baozhong, Wei Zheng, Wang Yaqi, Tong Ling, Guo Jingyang, Han Xin, Han Congying. Heterogeneity analysis of main driving factors affecting potential evapotranspiration changes across different climate regions. Science of The Total Environment, 2024, 912,168991.（SCI）

（30）Liao Qi, Ding Risheng, Du Taisheng, Kang Shaozhong, Tong Ling, Li Shuai. Salinity-specific stomatal conductance model parameters are reduced by stomatal saturation conductance and area via leaf nitrogen. Science of The Total Environment,2023, 876,162584.（SCI）

（31）Liao Qi, Gu Shujie, Kang Shaozhong, Du Taisheng, Tong Ling, Wood Jeffrey D., Ding Risheng. Mild water and salt stress improve water use efficiency by decreasing stomatal conductance via osmotic adjustment in field maize. Science of The Total Environment,2022, 805,150364.（SCI）

（32）Niu Jun, Zhu Xin-Guang, Parry Martin A. J., Kang Shaozhong, Du Taisheng, Tong Ling, Ding Risheng. Environmental burdens of groundwater extraction for irrigation over an inland river basin in Northwest China. Journal of Cleaner Production,2019,222:182-192.（SCI）

（33）Ran Hui, Kang Shaozhong, Hu Xiaotao, Li Fusheng, Du Taisheng, Tong Ling, Li Sien, Ding Risheng, Zhou Zhenjiang, Parsons David. Newly developed water productivity and harvest index models for maize in an arid region. Field Crops Research,2019,234:73-86.（SCI）

（34）Wu Hui, Li Xiaojuan, Lu Hongna, Tong Ling, Kang Shaozhong. Crop acreage planning for economy- resource- efficiency coordination: Grey information entropy based uncertain model. Agricultural Water Management,2023. 289:108557.（SCI, EI）

（35）Guo Hui, Li Sien, Kang Shaozhong, Du Taisheng, Liu Wenfeng, Tong Ling, Hao Xinmei, Ding Risheng. The controlling factors of ecosystem water use efficiency in maize fields under drip and border irrigation systems in Northwest China. Agricultural Water Management, 2022,272,107839.（SCI, EI）

（36）Liao Qi, Ding Risheng, Du Taisheng, Kang Shaozhong, Tong Ling, Li Sien. Stomatal conductance drives variations of yield and water use of maize under water and nitrogen stress. Agricultural Water Management,2022, 268,107651.（SCI, EI）

（37）Shi Rongchao, Tong Ling, Ding Risheng, Du Taisheng, Shukla Manoj Kumar. Modeling kernel weight of hybrid maize seed production with different water regimes. Agricultural Water Management,2021,250,106851.（SCI, EI）

（38）Yang Danni, Li Sien, Kang Shaozhong, Du Taisheng, Guo Ping, Mao Xiaomin, Tong Ling, Hao Xinmei, Ding Risheng, Niu Jun. Effect of drip irrigation on wheat evapotranspiration, soil evaporation and transpiration in Northwest China. Agricultural Water Management, 2020,232,106001.（SCI, EI）

（39）Gao Lei, Zhao Peng, Kang Shaozhong, Li Sien, Tong Ling, Ding Risheng, Lu Hongna. Surface soil water content dominates the difference between ecosystem and canopy water use efficiency in a sparse vineyard. Agricultural Water Management,2019,226,105817.（SCI, EI）

（40）Qin Shujing, Li Sien, Kang Shaozhong, Du Taisheng, Tong Ling, Ding Risheng, Wang Yahui, Guo Hui. Transpiration of female and male parents of seed maize in northwest China. Agricultural Water Management,2019, 213:397-409.（SCI, EI）

（41）Wang Jintao, Kang Shaozhong, Du Taisheng, Tong Ling, Ding Risheng, Li Sien. Estimating the upper and lower limits of kernel weight under different water regimes in hybrid maize seed production. Agricultural Water Management, 2019, 213:128-134.（SCI, EI）

（42）Wang Jintao, Kang Shaozhong, Zhang Xiaotao, Du Taisheng, Tong Ling, Ding Risheng, Li Sien. Simulating kernel number under different water regimes using the Water-Flowering Model in hybrid maize seed production. Agricultural Water Management, 2018,209:188-196.（SCI, EI）

（43）Ran Hui, Kang Shaozhong, Li Fusheng, Du Taisheng, Tong Ling, Li Sien, Ding Risheng, Zhang Xiaotao. Parameterization of the AquaCrop model for full and deficit irrigated maize for seed production in arid Northwest China. Agricultural Water Management, 2018,203: 438-450.（SCI, EI）

（44）Zhao Peng, Kang Shaozhong, Li Sien, Ding Risheng, Tong Ling, Du Taisheng. Seasonal variations in vineyard ET partitioning and dual crop coefficients correlate with canopy development and surface soil moisture. Agricultural Water Management, 2018,197:19-33.（SCI, EI）

（45）Jiao Linjie, Ding Risheng, Kang Shaozhong, Du Taisheng, Tong Ling, Li Sien. A comparison of energy partitioning and evapotranspiration over closed maize and sparse grapevine canopies in northwest China. Agricultural Water Management,2018, 203:251-260.（SCI, EI）

（46）Kang Shaozhong, Hao Xinmei, Du Taisheng, Tong Ling, Su Xiaoling, Lu Hongna, Li Xiaolin, Huo Zailin, Li Sien, Ding Risheng. Improving agricultural water productivity to ensure food security in China under changing environment: From research to practice. Agricultural Water Management, 2017, 179: 5-17.（SCI, EI）

（47）Li Xiaojuan, Kang Shaozhong, Niu Jun, Du Taisheng, Tong Ling, Li Sien, Ding Risheng. Applying uncertain programming model to improve regional farming economic benefits and water productivity.Agricultural Water Management, 2017, 179:352–365.（SCI, EI）

（48）Fan Yaqiong, Ding Risheng, Kang Shaozhong, Hao Xinmei, Du Taisheng, Tong Ling, Li Sien. Plastic mulch decreases available energy and evapotranspiration and improves yield and water use efficiency in an irrigated maize cropland. Agricultural Water Management,2017,179:122-131. (SCI, EI)

（49）Wu Youjie, Du Taisheng, Ding Risheng, Yuan Yusen, Li Sien, Tong Ling. An isotope method to quantify soil evaporation and evaluate water vapor movement under plastic film mulch. Agricultural Water Management, 2017,184: 59-66.（SCI, EI）

（50）Wu Youjie, Du, Taisheng, Li Fusheng, Li Sien, Ding Risheng, Tong Ling. Quantification of maize water uptake from different layers and root zones under alternate furrow irrigation using stable oxygen isotope. Agricultural Water Management, 2016,168: 35-44.（SCI, EI）

（51）Qin Shujing, Li Sien, Kang Shaozhong, Du Taisheng, Tong Ling, Ding Risheng. Can the drip irrigation under film mulch reduce crop evapotranspiration and save water under the sufficient irrigation condition? Agricultural Water Management, 2016,177:128-137.（SCI, EI）

（52）Li Xiaojie, Kang Shaozhong, Li Fusheng, Jiang Xuelian, Tong Ling, Ding Risheng, Li Sien, Du Taisheng. Applying segmented Jarvis canopy resistance into Penman-Monteith model improves the accuracy of estimated evapotranspiration in maize for seed production with film-mulching in arid area. Agricultural Water Management, 2016,178:314-324.（SCI, EI）

（53）Zhao Peng, Li Sien, Li Fusheng, Du Taisheng, Tong Ling, Kang Shaozhong. Comparison of dual crop coefficient method and Shuttleworth-Wallace model in evapotranspiration partitioning in a vineyard of northwest China.Agricultural Water Management, 2015,160: 41-56.（SCI, EI）

（54）Ding Risheng, Kang Shaozhong, Zhang Yanqun, Hao Xinmei, Tong Ling, Li Sien. A dynamic surface conductance to predict crop water use from partial to full canopy cover.Agricultural Water Management, 2015,150: 1-8.（SCI, EI）

（55）Li Sien, Kang Shaozhong, Zhang Lu, Du Taisheng, Tong Ling, Ding Risheng, Guo Weihua, Zhao Peng, Chen Xia, Xiao Huan. Ecosystem water use efficiency for a sparse vineyard in arid northwest China.Agricultural Water Management, 2015,148: 24-33.（SCI, EI）

（56）Jiang Xuelian, Kang Shaozhong, Tong Ling, Li Fusheng, Li Donghao, Ding Risheng, Qiu Rangjian. Crop coefficient and evapotranspiration of grain maize modified by planting density in an arid region of northwest China.Agricultural Water Management, 2014,142: 135-143.（SCI, EI）

（57）Qiu Rangjian, Song Jinjuan, Du Taisheng, Kang Shaozhong, Tong Ling, Chen Renqiang, Wu Laosheng. Response of evapotranspiration and yield to planting density of solar greenhouse grown tomato in northwest China. Agricultural Water Management, 2013,130:44-51.（SCI, EI）

（58）Ding Risheng, Kang Shaozhong, Zhang Yanqun, Hao Xinmei, Tong Ling, Du Taisheng. Partitioning evapotranspiration into soil evaporation and transpiration using a modified dual crop coefficient model in irrigated maize field with ground-mulching. Agricultural Water Management,2013,127: 85-96.（SCI, EI）

（59）Liu Chunwei, Du Taisheng, Li Fusheng, Kang Shaozhong, Li Sien, Tong Ling. Trunk sap flow characteristics during two growth stages of apple tree and its relationships with affecting factors in an arid region of northwest China. Agricultural Water Management, 2012, (104): 193-202. (SCI, EI)

（60）Tang Bo, Tong Ling, Kang Shaozhong, Zhang Lu．Impacts of climate variability on reference evapotranspiration over 58 years in the Haihe river basin of north China．Agricultural Water Management,2011,98(10):1660-1670.（SCI, EI）

（61）Ding Risheng, Kang Shaozhong, Li Fusheng, Zhang Yanqun, Tong Ling, Sun Qingyu. Evaluating eddy covariance method by large-scale weighing lysimeter in a maize field of northwest China. Agricultural Water Management, 2010,98(1): 87-95. (SCI, EI)

（62）Zhang Baozhong, Kang Shaozhong, Li Fusheng, Tong Ling, Du Taisheng. Variation in vineyard evapotranspiration in an arid region of northwest China. Agricultural Water Management, 2010,97(11): 1898-1904.（SCI, EI）

（63）Cui Ningbo, Du Taisheng, Li Fusheng, Tong Ling, Kang Shaozhong, Wang Mixia, Liu Xiaozhi, Li Zhijun. Response of vegetative growth and fruit development to regulated deficit irrigation at different growth stages of pear-jujube tree. Agricultural Water Management, 2009,96(8): 1237-1246. (SCI, EI)

（64）Wu Youjie, Du Taisheng, Ding Risheng, Tong Ling, Li Sien. Multiple methods to partition evapotranspiration in a maize field. Journal of Hydrometeorology,2017,18(1): 139-149.（SCI）

（65）Guo Hui, Li Sien, Kang Shaozhong, Du Taisheng, Tong Ling, Hao Xinmei, Ding Risheng. Crop coefficient for spring maize under plastic mulch based on 12-year eddy covariance observation in the arid region of Northwest China. Journal of Hydrology, 2020,588,125108.（SCI, EI）

（66）Jiang Xuelian, Kang Shaozhong, Tong Ling, Li Fusheng. Modification of evapotranspiration model based on effective resistance to estimate evapotranspiration of maize for seed production in an arid region of northwest China.Journal of Hydrology, 2016,538: 194-207.（SCI, EI）

（67）Li Sien, Kang Shaozhong, Zhang Lu, Zhang Jianhua, Du Taisheng, Tong Ling, Ding Risheng. Evaluation of six potential evapotranspiration models for estimating crop potential and actual evapotranspiration in arid regions. Journal of Hydrology, 2016, 543:450-461.（SCI, EI）

（68）Ding Risheng, Kang Shaozhong, Du Taisheng, Hao Xinmei, Tong Ling. Modeling crop water use in an irrigated maize cropland using a biophysical process-based model.Journal of Hydrology, 2015,529: 276-286.（SCI, EI）

（69）Li Sien, Kang Shaozhong, Zhang Lu, Samuel Ortega-Farias, Li Fusheng, Du Taisheng, Tong Ling, Wang Sufen, Ingman Mark, Guo Weihua. Measuring and modeling maize evapotranspiration under plastic film-mulching condition. Journal of Hydrology, 2013,503:153–168.（SCI, EI）

（70）Ma Zhenmei, Kang Shaozhong, Zhang Lu, Tong Ling, Su Xiaoling. Analysis of impacts of climate variability and human activity on streamflow for a river basin in arid region of northwest China. Journal of Hydrology, 2008,352(3-4): 239-249.（SCI, EI）

（71）Li Sien, Zhang Lu, Kang Shaozhong, Tong Ling, Du Taisheng, Hao Xinmei, Zhao Peng. Comparison of several surface resistance models for estimating crop evapotranspiration over the entire growing season in arid regions.Agricultural and Forest Meteorology, 2015,208: 1-15. (SCI)

（72）Ding Risheng, Kang Shaozhong, Li Fusheng, Zhang Yanqun, Tong Ling. Evapotranspiration measurement and estimation using modified Priestley-Taylor model in an irrigated maize field with mulching. Agricultural and Forest Meteorology, 2013,168: 140-148. (SCI)

（73）Zhang Baozhong, Kang Shaozhong, Zhang Lu, Tong Ling, Du Taisheng, Li Fusheng, Zhang Jianhua. An evapotranspiration model for sparsely vegetated canopies under partial root-zone irrigation. Agricultural and Forest Meteorology, 2009,149: 2007–2011.（SCI）

（74）Ding Risheng, Tong Ling, Li Fusheng, Zhang Yanqun, Hao Xinmei, Kang Shaozhong. Variations of crop coefficient and its influencing factors in an arid advective cropland of northwest China. Hydrological Processes,2015,29(2):239-249.（SCI, EI）

（75）Li Sien, Hao Xingmei, Du Taisheng, Tong Ling, Zhang Jianhua, Kang Shaozhong. A coupled surface resistance model to estimate crop evapotranspiration in arid region of northwest China. Hydrological Processes, 2014,28(4): 2312-2323.（SCI, EI）

（76）Li Sien, Kang Shaohzong, Zhang Lu, Li Fusheng, Du Taisheng, Tong Ling, Wang Sufen, Lu Hongna. Greater effect of canopy conductance in regulating the energy partition above the maize field in arid northwest China. Hydrological Processes, 2013,27(24): 3452-3460. (SCI, EI)

（77）Guo Hui, Li Sien, Kang Shaozhong, Du Taisheng, Tong Ling, Ding Risheng. Annual ecosystem respiration of maize was primarily driven by crop growth and soil water conditions. Agriculture Ecosystems & Environment,2019,272:254-265.（SCI）

（78）Qiu Rangjian, Kang Shaozhong, Du Taisheng, Tong Ling, Hao Xinmei, Chen Renqing, Chen Jinliang, Li Fusheng. Effect of convection on the Penman-Monteith model estimates of transpiration of hot pepper grown in solar greenhouse. Scientia Horticulturae, 2013,160:163-171.（SCI）

（79）Ran Hui, Kang Shaozhong, Li Fusheng, Tong Ling, Ding Risheng, Du Taisheng, Li Sien, Zhang Xiaotao. Performance of AquaCrop and SIMDualKc models in evapotranspiration partitioning on full and deficit irrigated maize for seed production under plastic film-mulch in an arid region of China. Agricultural Systems,2017,151:20-32.（SCI）

（80）Wang Jintao, Guo Shanshan, Kang Shaozhong, Wang Yufeng, Du Taisheng, Tong Ling. Joint optimization of irrigation and planting pattern to guarantee seed quality, maximize yield, and save water in hybrid maize seed production. European Journal of Agronomy,2020,113,125970.（SCI）

（81）Song Lijin, Ding Risheng, Du Taisheng, Kang Shaozhong, Tong Ling, Xue Fulan, Wei Zhenhua. Stomatal conductance parameters of tomatoes are regulated by reducing osmotic potential and pre-dawn leaf water potential via increasing ABA under salt stress. Environmental and Experimental Botany,2023,206,105176.（SCI）

（82）Zhou Huiping, Kang Shaozhong, Tong Ling, Ding Risheng, Li Sien, Du Taisheng. Improved application of the Penman-Monteith model using an enhanced Jarvis model that considers the effects of nitrogen fertilization on canopy resistance. Environmental and Experimental Botany,2019,159:1-12.（SCI）

（83）Hu Meng, Kang Shaozhong, Zhang Jianhua, Li Fusheng, Du Taisheng, Tong Ling. Potential use of saline water for irrigating shelterbelt plants in the arid region. Irrigation and Drainage, 2012, 61: 107-115. (SCI)

（84）Guo Ping, Chen Xiaohong, Tong Ling, Li Jianbing, Li Mo. An optimization model for crop deficit irrigation system under uncertainty. Engineering Optimization, 2014,46 (1): 1-14.（SCI）

（85）Qiu Rangjian, Kang Shaozhong, Du Taisheng, Tong Ling, Hao Xinmei, Chen Renqiang, Chen Jinliang, Li Fusheng. Effect of convection on the Penman-Monteith model estimates of transpiration of hot pepper grown in solar greenhouse. Scientia Horticulturae,2013,160:163-171. (SCI)

（86）Liu Chunwei, Kang Shaozhong, Li Fusheng, Li Sien, Du Taisheng, Tong Ling. Relationship between environmental factor and maximum daily stem shrinkage in apple tree in arid region of northwest China. Scientia Horticulturae, 2011,130(1): 118-125. (SCI)

（87）Qiu Rangjian, Kang Shaozhong, Li Fusheng, Du Taisheng, Tong Ling, Wang Feng, Chen Renqiang, Liu Junqi, Li Sien. Energy partitioning and evapotranspiration of hot pepper grown in greenhouse with furrow and drip irrigation methods. Scientia Horticulturae, 2011,129(4): 790-797. (SCI)

（88）Kang Shaozhong, Su Xiaoling, Tong Ling, Zhang Jianhua, Zhang Lu, W.J. Davies. A warning from an ancient oasis: intensive human activities are leading to potential economic and social catastrophe. International Journal of Sustainable Development and World Ecology, 2008,15(5): 440-447.（SCI）

（89）Bo Xiaodong, Du Taisheng, Ding Risheng, Tong Ling, Li Sien. Stem flow of seed-maize under alternate furrow irrigation and double-row ridge planting in an arid region of Northwest China. Journal of Integrative Agriculture,2015,14(7):1434-1445.（SCI）

（90）Chen Yang, Qiu Yuan, Hao Xinmei, Tong Ling, Li Sien, Kang Shaozhong. Does biochar addition improve soil physicochemical properties, bacterial community and alfalfa growth for saline soils? Land Degradation & Development,2023,34(11):3314-3328.（SCI）

（91）Cao HeLi, Ding RiSheng, Kang ShaoZhong, Du TaiSheng, Tong Ling, Zhang YanQun, Chen JinLiang, Shukla M. K. Drought, salt, and combined stresses in plants: effects, tolerance mechanisms, and strategies. Advances in Agronomy, 2023,178:107-163.（SCI）

（92）Guo Hui, Li Sien, Kang Shaozhong, Du Taisheng, Liu Wenfeng, Tong Ling, Hao Xinmei, Ding Risheng. Comparison of several models for estimating gross primary production of drip-irrigated maize in arid regions. Ecological Modelling,2022,468:109928.（SCI）

（93）Kang Shaozhong, Su Xiaoling, Tong Ling, Shi Peize, Yang Xiuying, Abe Yukuo, Du Taisheng, Shen Qinglin, Zhang Jianhua. The impacts of water-related human activities on the water-land environment of Shiyang River Basin, an arid region in Northwest China. Hydrological Sciences Journal, 2004,49(3): 413-427.（SCI, EI）

（94）Jiang Xuelian, Zhao Yueling, Tong Ling, Wang Rui, Zhao Sheng. Quantitative Analysis of Tomato Yield and Comprehensive Fruit Quality in Response to Deficit Irrigation at Different Growth Stages. Hortscience,2019. 54(8):1409-1417.（SCI）

（95）Hu YanZhe, Kang ShaoZhong, Ding RiSheng, Du TaiSheng, Tong Ling, Li SiEn. The dynamic yield response factor of alfalfa improves the accuracy of dual crop coefficient approach under water and salt stress. Water,2020,12(5):w12051224.（SCI）

（96）Shi Rongchao, Tong Ling, Du Taisheng, Shukla Manoj K. Response and Modeling of Hybrid Maize Seed Vigor to Water Deficit at Different Growth Stages. Water, 2020, 12(11):w12113289 .（SCI）

（97）Shen Qianxi, Ding Risheng, Du Taisheng, Tong Ling, Li Sien. Water Use Effectiveness Is Enhanced Using Film Mulch Through Increasing Transpiration and Decreasing Evapotranspiration. Water, 2019,11(6):w11061153.（SCI）

（98）Li Xiaojie, Kang Shaozhong, Li Fusheng, Zhang Xiaotao, Huo Zailin, Ding Risheng, Tong Ling, Du Taisheng, Li Sien. Light Supplement and Carbon Dioxide Enrichment Affect Yield and Quality of Off-Season Pepper. Agronomy Journal,2017,109(5):2107-2118.（SCI）

（99）Li Xiaolin, Zhang Xiaotao, Niu Jun, Tong Ling, Kang Shaozhong, Du Taisheng, Li Sien, Ding Risheng. Irrigation water productivity is more influenced by agronomic practice factors than by climatic factors in Hexi Corridor, Northwest China. Scientific Reports. 2016,6:37971.（SCI）

（100）Xue Fulan, Liu Weilu, Cao Heli, Song Lijin, Ji Shasha, Tong Ling, Ding Risheng. Stomatal conductance of tomato leaves is regulated by both abscisic acid and leaf water potential under combined water and salt stress. Physiologia Plantarum,2021,172(4):2070-2078.（SCI）

（101）Tian Haoyu, Yu Guo-An, Tong Ling, Li Renzhi, Huang He Qing, Bridhikitti Arika, Prabamroong Thayukorn. Water Quality of the Mun River in Thailand-Spatiotemporal Variations and Potential Causes. International Journal of Environmental Research and Public Health,2019, 16(20):3906.（SCI）

（102）Hu Meng, Kang Shaozhong, Du Taisheng, Tong Ling. Another view of gas exchange model: reflection of leaf surface air to stomatal conductance. Advanced Materials Research, 2010,113-116: 14-17. (SCI)

（103）Su Xiaoling, Kang Shaozhong, Li Fushe, Zhang Lu, Tong Ling. Benefits Evaluation of Water Resources Used for Ecosystem in Shiyang River Basin of Gansu Province. Transactions of Tianjin University, 2009,15(2):108-112.（EI）

（104）时荣超，佟玲*，杜太生，李栋浩，秦永辉，何柳月，白小锐. 改进AquaCrop-KR模拟不同水分和种植密度下制种玉米产量. 农业工程学报，2022，38(15)：63-69.（EI）

（105）缑天宇，佟玲*，康德奎，何玉江，王万祯，康绍忠，付静. 中国西北干旱区石羊河流域重点治理综合效应评价. 农业工程学报，2022，38(12)：74-84.（EI）

（106）吴宣毅，佟玲*，康德奎，王磊，马冬青，杨其锟，郭晓旭. 调亏灌溉对西北地区不同种植密度玉米耗水和产量的影响. 农业工程学报，2022，38(增)：59-67.（EI）

（107）汤博, 佟玲*, 康绍忠. 站点密度及插值方法对ET₀空间插值精度的影响. 农业工程学报, 2013, 29(13): 60-66. (EI)

（108）李小娟, 佟玲*, 康绍忠. 海河流域作物水分敏感系数空间分布. 农业工程学报, 2013, 29(14): 82-89. (EI)

（109）佟玲, 康绍忠, 杨秀英. 西北旱区石羊河流域作物耗水点面尺度转化方法的研究. 农业工程学报, 2006,22(10): 45-51.（EI）

（110）佟玲, 康绍忠, 粟晓玲. 石羊河流域气候变化对参考作物蒸发蒸腾量的影响. 农业工程学报, 2004,20(2): 15-18.

（111）张鑫，佟玲*，李思恩，康绍忠. 干旱区两种微气象学法测定农田蒸散发的比较研究. 水利学报,2011,42(12): 1470 -1478. (EI)

（112）孙庆宇, 佟玲*, 张宝忠, 汤博, 康绍忠. 参考作物蒸发蒸腾量计算方法在海河流域的适用性. 农业工程学报, 2010,26(11):68-72.（EI）

（113）佟玲，戴永辉，陈阳，王璐，刘丽平.水盐胁迫下老化生物炭对温室气体与玉米生长的影响.农业机械学报，2023,54(9):386-395.（EI）

（114）马士萌，佟玲*，王素芬，赵引，马冬青，李德智.灌水技术参数对覆膜制种玉米生长与蒸腾耗水的影响.农业机械学报，2023,54(9):396-406.（EI）

（115）丁日升, 康绍忠, 张彦群, 佟玲, 李思恩. 干旱内陆区玉米田水热通量特征及主控因子研究. 水利学报,2014,45(3):312-319. （EI）

（116）陈世超,杜太生,王素芬,韩万海,董平国,佟玲,胡铁民.基于农田管理分区的制种玉米产量估算与限制因子评价.农业工程学报,2020,36(15):128-133.（EI）

（117）郑睿,康绍忠,佟玲,李思恩.不同天气条件下荒漠绿洲区酿酒葡萄植株耗水规律.农业工程学报,2012,28(20):99-107. (EI)

（118）马黎华, 康绍忠, 粟晓玲, 佟玲. 农作区净灌溉需水量模拟及不确定性分析. 农业工程学报, 2012, 28(8):11-18. (EI)

（119）孙月,毛晓敏,杨秀英,佟玲,唐敏华. 西北灌区地下水矿化度变化及其对作物的影响. 农业工程学报, 2010, 26(2): 103-108.（EI）

（120）张晓涛, 康绍忠, 王鹏新, 佟玲. 估算区域蒸发蒸腾量的遥感模型对比分析.农业工程学报, 2006,22(7): 6-13.（EI）

（121）贾宏伟, 康绍忠, 张富仓, 佟玲, 姚立民. 石羊河流域平原区土壤水分入渗特性空间变异的研究. 水科学进展, 2006, 17(4): 471-476.（EI）

（122）姚立民,李伏生,佟玲,谢恒星.土壤水分有效性对梭梭苗根系导水率的动态影响.农业机械学报,2011,42(05):68-72.（EI）

（123）李栋浩,姜雪连,佟玲*. 种植密度对制种玉米根冠生长及耗水量的影响. 排灌机械工程学报,2014,12:1091-1097.

（124）时荣超，佟玲*，何柳月，姜雪连.种植密度对制种玉米耗水量的影响及模型验证.灌溉排水学报,2017,36(4):66-71.

（125）时荣超，佟玲*.不同种植密度下制种玉米液流变化及其影响因子分析.灌溉排水学报,2018,37(3):1-8.

（126）马冬青,佟玲*,吴宣毅,李德智,杨胜举,王璐.不同种植密度和土壤水分条件下大田玉米冠层光结构分析.干旱地区农业研究,2020,38(4): 259-265.

（127）李德智,佟玲*,吴宣毅,马冬青,杨胜举,王璐,郑静.不同滴头流量和灌水频率对玉米产量、耗水及水分利用效率的影响.水资源与水工程学报,2020,31(4): 208-215.

（128）杨胜举, 佟玲*, 吴宣毅, 陈阳. 玉米冠层辐射分布和产量对种植密度和水分的响应研究. 灌溉排水学报, 2021, 40(8): 19-26, 34.

（129）刘丽平,张克寒,佟玲*,等.Meta分析滴灌灌溉量及品种对玉米产量和水分利用效率的影响.中国农业大学学报,2025,30(01):1-13.

（130）赵金淼,佟玲*,岳琼,郑静,黄鑫,李鹏.基于遥感数据的不确定性的农业水资源优化配置研究—以漳河灌区为例.中国农业大学学报,2022,27(4):244-255.

（131）黄鑫,佟玲*,康德奎,何玉江,王万祯,杨胜举. 种植密度和水分胁迫对玉米灌浆特性与源库关系的影响. 灌溉排水学报，2022,41(6):12-20.

（132）郑静, 佟玲*, 赵金淼, 吴宣毅, 李鹏. 基于田间调查数据分析漳河灌区水稻灌溉水生产力分布异质性及其影响因素. 中国农业气象, 2022,43(8):612-621.

（133）张克寒，郑静，佟玲*.探讨不同情景下水稻产量和灌溉水生产力的提升方法——以湖北漳河灌区为例.中国农业大学学报,2023,28(7):151-163.

（134）马一宁,丁日升，佟玲*，康绍忠，李思恩，杜太生.2009–2016 年中国农业大学石羊河实验站玉米日耗水量数据集.中国科学数据,2023,8(4): 1-11.

（135）康绍忠,杜太生,李思恩,佟玲,丁日升,牛俊,毛晓敏,郝新梅,黄兴法,王凤新.基于“五链环”野外综合实训平台的“四融合”人才培养模式探索与实践.学位与研究生教育,2020,(10):1-6.

（136）康绍忠,佟玲. 深刻认识区域水循环演变规律确立合理的绿洲灌溉农业规模. 中国水利,2013,(5):22-25.

（137）粟晓玲, 康绍忠, 佟玲. 内陆河流域生态系统服务价值的动态估算方法与应用—以甘肃河西走廊石羊河流域为例. 生态学报, 2006,26(6): 2011-2019.

（138）龚道枝, 康绍忠, 佟玲, 丁日升. 分根交替灌溉对土壤水分分布与桃树根茎液流动态的影响. 水利学报, 2004, (10): 112-118.

（139）姚立民,李伏生,申孝军, 佟玲.土壤因素对根系导水率影响的研究进展.西北农林科技大学学报(自然科学版),2011,39(05):65-72.

（140）佟玲, 康绍忠, 粟晓玲. 区域作物耗水时空分布影响的研究进展. 节水灌溉, 2004, (1): 3-6.

（141）佟玲, 康绍忠, 杨秀英, 粟晓玲. 石羊河流域参考作物蒸发蒸腾量空间分布规律的研究. 沈阳农业大学学报, 2004,35(6): 432-435.

（142）孙月,毛晓敏,沈清林,佟玲,董正举. 石羊河流域地下水埋深时空变化规律研究.干旱区资源与环境,2009,23(12):112-117.

（143）李小娟,牛俊,佟玲,陆红娜,丁日升,李思恩.结合信息熵和模糊优选的种植结构优化模型.东北农业大学学报,2022,53(09): 1-7, 16.

（144）李思恩,康绍忠,朱治林,杜太生,佟玲,李伏生.应用涡度相关技术监测地表蒸发蒸腾量的研究进展.中国农业科学,2008,(09):2720-2726.

（145）田皓予,佟玲,余国安, Arika Bridhikitti.不同空间尺度河流水质与土地利用关系分析——以泰国蒙河流域为例.农业环境科学学报,2020,39(09):2036-2047.

（146）陆红娜,康绍忠,杜太生,佟玲,丁日升,李思恩.农业绿色高效节水研究现状与未来发展趋势.农学学报,2018,8(01):155-162.

（147）南彩艳,粟晓玲,佟玲,李楷,史银军,徐万林,杨雪菲.关中地区水土资源承载力复合指标体系及综合评价.干旱地区农业研究,2011,29(06):164-172.

（148）吴迪,孟伟超,薄晓东,佟玲,杜太生.不同地面灌溉方式对制种玉米产量与水分利用效率的影响.灌溉排水学报,2014,33(Z1):185-188.

（149）张晓琳,霍再林,佟玲.石羊河流域主要作物节水灌溉效益评价.中国农村水利水电,2014,(08):15-17+21.

（150）吕廷波,佟玲.基于首尾测定法的石羊河流域灌溉水利用率估算及分析.石河子大学学报(自然科学版),2010,28(02):232-236.

（151）史艳萍,佟玲,马黎华.绿洲发展生态价值与社会经济价值的综合分析.水资源与水工程学报,2021,32(02):103-108+115.

（152）田皓予,佟玲,余国安, Arika Bridhikitti.1997-2017年泰国蒙河流域水环境时空变化分析.水资源与水工程学报,2019,30(06):30-38.

（153）粟晓玲,陈勇,佟玲,沈清林,张永明.石羊河流域水资源利用格局变化的水文与环境效应及合理配置.水资源与水工程学报,2004,(03):5-9+18.

二、著作、授权专利、软件著作与标准

（1）合著《西北旱区流域尺度水资源转化规律及其节水调控模式—以甘肃石羊河流域为例》（中国水利水电出版社, 2009.6），获国家科学技术学术著作出版基金资助，并被评为全国“三个一百”原创图书出版工程，且为全书统稿人之一.

（2）合著《海河流域农田水循环过程与农业高效用水机制》（科学出版社，2013,3），获国家出版基金资助，为全书统稿人之一.

（3）合著《中国北方主要作物需水量与耗水管理》（中国水利水电出版社,2018.10）,获国家科学技术学术著作出版基金资助，并获第五届中国出版政府奖图书奖提名奖，任该书学术秘书.

（4）张宝忠,刘文辉,魏征,韩松俊,佟玲,王雅琦,李果,李庆鑫,郭竞阳,韩聪颖.一种考虑陆气耦合作用的地表蒸散发估算方法，发明专利，专利号：ZL 2024 1 1469942.4，2025年04月22日.

（5）康绍忠,周惠萍,陈金亮,佟玲.一种基于果径无损观测的番茄果实糖分高效预测改进方法，发明专利，专利号：ZL 2021 1 0638085.6，2024年09月13日.

（6）丁日升,廖祺,杜太生,康绍忠,佟玲,陈金亮,康健.作物灌溉的控制方法、装置、设备、存储介质及产品，发明专利，专利号：ZL 2023 1 1814287.7，2024年07月16日.

（7）丁日升，薛富岚，佟玲，康绍忠，杜太生. 基于气孔脆弱特性的灌溉曲线确定方法及装置，发明专利，专利号：ZL 2022 1 0074518.4，2023年04月28日.

（8）王素芬，黄好思，康绍忠，佟玲，郝新梅.一种区域作物耗水时空格局优化设计方法，发明专利，专利号：ZL201210343189.5，2015年2月4日.

（9）丁日升，谷书杰，廖祺，康绍忠，杜太生，佟玲，李思恩. 植物灌溉决策系统和方法，发明专利，专利号：ZL202110303094.X，2021年10月15日.

（10）郭萍，岳琼，佟玲，王素芬，徐晓宇. 灌区配水多过程调控决策支持系统V1.0. 2020SRBJ0340，2020.03.01.

（11）丁日升，黄奕，佟玲.一年生作物高效灌溉预报系统V1.0. 2021SRBJ0937，2021.08.27.

（12）李国山，佟玲，彭治云等.石羊河流域中部绿洲灌区制种玉米节水高效栽培技术规程.甘肃省地方标准，DB62/T2554-2014.2015年1月20日实施.

三、获得表彰奖励

（1）西北旱区制种玉米水热通量监测与模拟及综合调控模式，2019年中国农业节水科技一等奖（第1名）

（2）干旱内陆区流域尺度水资源转化规律及其农业节水调控模式，2012年度教育部高校科技进步一等奖（第8名）

（3）西北内陆干旱区主要作物水肥一体化关键技术创新与集成应用，2022年度教育部高校科技进步一等奖（第9 名）

（4）海河流域农田水循环过程与农业高效用水模式，2013年大禹水利科学技术一等奖（第10名）

（5）旱区农田蒸散发长期定位观测、模拟与机理研究，2021年中国农业节水科技一等奖（第7名）

（6）西北旱区典型作物节水耐盐机理与协同调控技术，2023年中国农业节水科技一等奖（第8名）

（7）石羊河流域节水灌溉标准化技术体系规程研究，2020年度甘肃省科技进步二等奖（第5名）

（8）温室作物节水调质高效灌溉技术研究与应用，2015年度教育部高校科技进步二等奖（第11名）

（9）西北地区农业高效用水原理与技术研究及应用，2006年度国家科技进步二等奖（第13名）

（10）《中国北方主要作物需水量与耗水管理》（中国水利水电出版社, 2018. 10），第五届中国出版政府奖图书奖提名奖

（11）《西北旱区流域尺度水资源转化规律及其节水调控模式—以甘肃石羊河流域为例》（中国水利水电出版社, 2009.6），全国“三个一百”原创图书出版工程

（12）创建“五链环”野外综合实训平台与“四融合”人才培养模式的探索及其实践，2018年第三届中国学位与研究生教育学会研究生教育成果特等奖（第4名）

（13）创建“五位一体”野外科研-生产综合实训平台，培养“四能融合”高素质人才，2018年中国农业大学研究生教育成果特等奖（第4名）

（14）“三种课堂”协同互补的顶天立地育人新模式创建与实践，2021年中国农业大学教学成果一等奖（第9名）

（15）张宝忠,魏征,李益农,佟玲,李仰斌,陈鹤,韩聪颖,张绍强,岳琼,章少辉,王雅琦,谢崇宝,刘浏,郝新梅.现代灌区用水调控技术与应用，中国水利水电科学研究院2023年度科学技术奖一等奖（第4名）

（16）石羊河流域节水灌溉标准化技术体系规程研究，2015年甘肃省水利科技进步一等奖（第5名）

（17）佟玲，康绍忠，粟晓玲在农业工程学报2004，20（2）发表的论文“石羊河流域气候变化对参考作物蒸发蒸腾量的影响”，荣获中国农业工程学会三十周年优秀论文奖

（18）2019年中国农业工程学会工作突出贡献奖

（19）2008年、2012年被评为中国农业工程学会先进工作者

（20）中国农业大学2014年度优秀教师

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