科学研究 / 论文成果

发表的主要论文

# 论文标题 作者 期刊
1 A comprehensive analysis of water productivity in natural vegetation and various crops coexistent agro-ecosystems. Ren DY, Xu X, Engel B, Huang QZ, Xiong YW, Huo ZL, Huang GH*. Agricultural Water Management, 2021, 243: 106481
2 A model integrating the system dynamic model with the risk based two-stage stochastic robust programming model for agricultural ecological water resources management. Wang YZ, Fernald A, Guo P*. Stochastic Environmental Research and Risk Assessment, 2021, https://doiorg/101007/s00477-021-01972-8
3 Distributed AquaCrop simulation-nonlinear multi-objective dependent-chance programming for irrigation water resources management under uncertainty. Wang YZ, Guo SS, Yue Q, Mao XM, Guo P* Agricultural Water Management, 2021, 106752
4 Irrigation water resources management under uncertainty: An interval nonlinear double-sided fuzzy chance-constrained programming approach. Zhang CL, Guo P*, Huo ZL. Agricultural Water Management, 2021, 245: 106658
5 Modeling the behavior of shallow groundwater system in sustaining arid agroecosystems with fragmented land use. Xiao X, Xu X*, Ren DY, Huang QZ, Huang GH. Agricultural Water Management, 2021, 249: 106811
6 Predicting agroecosystem responses to identify appropriate water-saving management in arid irrigated regions with shallow groundwater: Realization on a regional scale. Xiong LY, Xu X*, Engel B, Xiong YW, Huang QZ, Huang GH. Agricultural Water Management, 2021, 247: 106713
7 Response of shelterbelt transpiration to shallow groundwater in arid areas. Du JL, Wang XW, Huo ZL*, Guan HD, Xiong YW, Huang GH. Journal of Hydrology, 2021, 592: 125611
8 Soil evaporation and its impact on salt accumulation in different landscapes under freeze–thaw conditions in an arid seasonal frozen region. Liu S, Huang QZ, Ren DY, Xu X, Xiong YW, Huang GH*. Vadose Zone Journal, 2021, e20098
9 Vine copula and cloud model-based programming approach for agricultural water allocation under uncertainty. Shan BY, Guo SS, Wang YZ, Li H, Guo P*. Stochastic Environmental Research and Risk Assessment, 2021, https://doiorg/101007/s00477-021-01985-3
# 论文标题 作者 期刊
1 A field validated surrogate model for optimum performance of irrigated crops in regions with shallow salty groundwater. Liu ZY, Huo ZL*, Wang CZ, Zhang LM, Wang XH, Huang GH, Xu X, Steenhuis TS*. Hydrology and Earth System Sciences Discussions, 2020, 1-53
2 A field-validated surrogate crop model for predicting root-zone moisture and salt content in regions with shallow groundwater. Liu ZY, Huo ZL*, Wang CZ, Zhang LM, Wang XH, Huang GH, Xu X, Steenhuis TS*. Hydrology and Earth System Sciences, 2020, 24 (8): 4213-4237
3 A full fuzzy-interval credibility-constrained nonlinear programming approach for irrigation water allocation under uncertainty. Yue Q, Zhang F, Zhang CL, Zhu H, Tang YK, Guo P*. Agricultural Water Management, 2020, 230: 105961
4 A fuzzy dependent-chance interval multi-objective stochastic expected value programming approach for irrigation water resources management under uncertainty. Wang YZ, Li Z, Liu L, Guo P*. Desalination and Water Treatment, 2020, 26521
5 A gaussian process-based iterative Ensemble Kalman Filter for parameter estimation of unsaturated flow. Liu K, Huang GH*, Jiang Z, Xu X, Xiong YW, Huang QZ, Šimůnek J. Journal of Hydrology, 2020, 589: 125210
6 A novel regional irrigation water productivity model coupling irrigation- and drainage-driven soil hydrology and salinity dynamics and shallow groundwater movement in arid regions in China. Xue JY, Huo ZL*, Wang S, Wang CZ, White I, Kisekka I, Sheng ZP, Huang GH, Xu X. Hydrology and Earth System Sciences, 2020, 24 (5): 2399-2418
7 A risk-based fuzzy boundary interval two-stage stochastic water resources management programming approach under uncertainty. Wang YZ, Li Z, Guo SS, Zhang F, Guo P*. Journal of Hydrology, 2020, 582: 124553.
8 A sustainable irrigation water management framework coupling water-salt processes simulation and uncertain optimization in an arid area. Li XM, Zhang CL, Huo ZL*, Adeloye AJ. Agricultural Water Management, 2020, 231: 105994
9 An improved interval-based fuzzy credibility-constrained programming approach for supporting optimal irrigation water management under uncertainty. Zhang CL, Li XM, Guo P, Huo ZL*. Agricultural Water Management, 2020, 238: 106185
10 Changing climate and implications for water use in the Hetao Basin, Yellow River, China. White I*, Xu TB, Zeng JC, Yu J, Ma X, Yang JZ, Huo ZL, Chen H. Proceedings of the International Association of Hydrological Sciences, 2020, 383: 51-59
11 Classification of the complex agricultural planting structure with a semi-supervised extreme learning machine framework. Feng ZY, Huang GH*, Chi DC. Remote Sensing, 2020, 12 (22): 3708
12 Comparison of ensemble data assimilation methods for the estimation of time-varying soil hydraulic parameters. Liu K, Huang GH*, Šimůnek J, Xu X, Xiong YW, Huang QZ. Journal of Hydrology, 2020, 125729
13 Effect of irrigation and fertilization regimes on grain yield, water and nitrogen productivity of mulching cultivated maize (Zea mays L.) in the Hetao Irrigation District of China. Li CJ, Xiong YW*, Cui Z, Huang QZ, Xu X, Han WG, Huang GH. Agricultural Water Management, 2020, 232: 106065
14 Energy fluxes and evapotranspiration over irrigated maize field in an arid area with shallow groundwater. Wang XW, Huo ZL*, Shukla MK, Wang XH, Guo P, Xu X, Huang GH. Agricultural Water Management, 2020, 228: 105922
15 Experimental investigation and simulation of nitrogen transport in a subsurface infiltration system under saturated and unsaturated conditions. Pan WY, Huang QZ, Xu ZH, Pang GB. Journal of Contaminant Hydrology, 2020, 231: 103621
16 Fuzzy multi-objective modelling for managing water-food-energy-climate change-land nexus towards sustainability. Yue Q, Zhang F, Wang YZ, Zhang XX, Guo P*. Journal of Hydrology, 2020, 125704
17 Grid-scale agricultural land and water management: A remote-sensing-based multiobjective approach. Tang YK, Zhang F, Engel B, Liu X, Yue Q, Guo P*. Journal of Cleaner Production, 2020, 265: 121792
18 Impact of irrigation and fertilization regimes on greenhouse gas emissions from soil of mulching cultivated maize (Zea mays L.) field in the upper reaches of Yellow River, China. Li CJ, Xiong YW*, Huang QZ, Xu X, Huang GH. Journal of Cleaner Production, 2020, 259: 120873
19 Irrigation water resources optimization with consideration of the regional agro-hydrological process of crop growth and multiple uncertainties. Wang YZ, Guo P*. Agricultural Water Management, 2020, 106630
20 Maize transpiration and water productivity of two irrigated fields with varying groundwater depths in an arid area. Wang XW, Guan HD, Huo ZL*, Guo P, Du JL, Wang XH. Agricultural and Forest Meteorology, 2020, 281: 107849
21 Modified Model for Simulating Water Flow in Furrow Irrigation. Liu K, Xiong YW, Xu X, Huang QZ, Huo ZL, Huang GH*. Journal of Irrigation and Drainage Engineering, 2020, 146 (6): 0602000
22 Monte Carlo-based agricultural water management under uncertainty: a case study of Shijin Irrigation District, China. Yang GQ, Li M, Guo P*. Journal of Environmental Informatics, 2020.
23 New perspective about application of extended Budyko formula in arid irrigation district with shallow groundwater. Chen H, Huo ZL*, Zhang L, White I. Journal of Hydrology, 2020, 582: 124496
24 Optimal irrigation water allocation in Hetao Irrigation District considering decision makers’ preference under uncertainties. Zhang XX, Guo P*, Zhang F, Liu X, Yue Q, Wang YZ. Agricultural Water Management, 2020, 106670
25 Optimization Assessment of Projection Methods of Climate Change for Discrepancies between North and South China. Lun YR, Liu L*, Wang RT, Huang GH. Water, 2020, 12 (11): 3106
26 Optimization-based water-salt dynamic threshold analysis of cotton root zone in arid areas. Wu H, Kang SZ, Li XJ, Guo P*, Hu SJ. Water, 2020, 12 (9): 2449.
27 Optimizing irrigation and drainage by considering agricultural hydrological process in arid farmland with shallow groundwater. Li XM, Zhang CL, Huo ZL*. Journal of Hydrology, 2020, 585: 124785
28 Phthalate esters (PAEs) in soil and vegetables in solar greenhouses irrigated with reclaimed water. Li Y, Huang GH, Zhang L, Gu H, Lou CH, Zhang H, Liu HL*. Environmental Science and Pollution Research, 2020, 27 (18): 22658-22669
29 Response of soil compaction to the seasonal freezing-thawing process and the key controlling factors. Wang XH, Wang CZ, Wang XW, Huo ZL*. Catena, 2020, 184: 104247
30 Responses of crop growth and water productivity to climate change and agricultural water-saving in arid region. Liu MH, Xu X*, Jiang Y, Huang QZ, Huo ZL, Liu L, Huang GH*. Science of The Total Environment, 2020, 703: 134621
31 The interval copula-measure Me based multi-objective multi-stage stochastic chance-constrained programming for seasonal water resources allocation under uncertainty. Wang YZ, Guo P*. Stochastic Environmental Research and Risk Assessment, 2020.https://doi.org/10.1007/s00477-020-01913-x
32 Towards sustainable water management in an arid agricultural region: A multi-level multi-objective stochastic approach. Zhang F, Guo SS, Liu X, Wang YZ, Engel B, Guo P*. Agricultural Systems, 2020, 182: 102848
33 Type-2 fuzzy mixed-integer bi-level programming approach for multi-source multi-user water allocation under future climate change. Yue Q, Wang YZ, Liu L, Niu J, Guo P*, Li P. Journal of Hydrology, 2020, 591: 125332
34 Understanding the Role of Shallow Groundwater in Improving Field Water Productivity in Arid Areas. Gao XY, Qu ZY*, Huo ZL, Tang PC, Qiao SS. Water, 2020, 12 (12): 3519
35 采用不同监测数据组合反演饱和均质石英砂水热运移参数. 潘梦绮, 黄权中*, 冯榕, 黄冠华. 农业工程学报, 2020, 36 (10): 75-82
36 非饱和状态不同润湿性多孔介质蒸发过程的研究. 张雪杨, 熊云武*, 黄冠华, 戴佳鱼. 2020 中国环境科学学会科学技术年会论文集 (第三卷), 2020
37 灌区广义水资源不确定性多目标优化配置. 岳琼, 郭萍*, 唐毅宽, 赵敏. 干旱地区农业研究, 2020, 38(04): 168-174, 183.
38 基于MODIS数据的河套灌区遥感干旱监测. 罗彪, 刘潇, 郭萍*. 中国农业大学学报, 2020, 25(10): 44-54
39 基于多目标模型的黑河中游绿洲用水结构优化配置. 王友芝, 郭萍*. 农业机械学报, 2020, 51(2): 299-307
40 基于渠系输水模拟与土壤水量平衡模拟的两级渠系优化配水模型. 潘琦,夏爽,郭珊珊,单宝英,郭萍*. 中国农业大学学报, 2020, 25(05): 151-162
41 考虑渠系渗漏的黄羊灌区农业水资源多目标优化配置研究. 潘琦,郭萍*,张帆,罗彪,张效星. 水资源与水工程学报, 2020, 31(04): 166-173
42 考虑水平衡的灌区水资源优化配置研究. 赵敏,郭萍*,张妍. 中国农业大学学报, 2020, 25(07): 91-102.
43 政策驱动下石羊河流域生态效应变化分析. 徐晓宇,郭萍*,张帆,武慧,郭文贤. 水土保持学报, 2020, 34(06): 185-191
# 论文标题 作者 期刊
1 Enhancing the capability of hydrological models to simulate the regional agro-hydrological processes in watersheds with shallow groundwater: Based on the SWAT framework. Xiong LY, Xu X*, Ren DY, Huang QZ, Huang GH. Journal of Hydrology 572: 1-16
2 Modeling and assessing agro-hydrological processes and irrigation water saving in the middle oasis of Heihe River basin. Xu X, Jiang Y, Liu MH, Huang QZ, Huang GH*. Agricultural Water Management, 2019, 211:152-164
3 Hydrological complexities in irrigated agro-ecosystems with fragmented land cover types: Insights from a distributed hydrological modeling method. Ren DY, Xu X*, B. Engel, Huang QZ, Huo ZL, Huang GH. Agricultural Water Management, 2019, 213: 868-881
4 Improving the estimation of hydraulic properties in heterogeneous media with the addition of heat loss: sandbox experiment and numerical modelling. Pan MQ, Huang QZ*, Xiong YW, Xu X, Huang GH. Vadose Zone Journal , 2019,18(1):180149
5 A coupled model for simulating water flow and solute transport in furrow irrigation. Liu K, Huang GH*, Xu X, Xiong YW, J. Šimůnek. Agricultural Water Management, 2019, 213:792-802
6 A conceptual agricultural water productivity model considering under field capacity soil water redistribution applicable for arid and semi-arid areas with deep ground water. Chen SL, Huo ZL*, Xu X, Huang GH. Agricultural Water Management, 2019, 213: 309-323
7 Optimization of planning structure in irrigated district considering water footprint under uncertainty. Liu X, Guo P*, Li FH, Zheng WS. Journal of Cleaner Production, 2019, 210: 1270-1280.
8 An interval multiobjective approach considering irrigation canal system conditions for managing irrigation water. Zhang F, Guo SS, Zhang CL, Guo P*. Journal of Cleaner Production, 2019, 211: 293-302.
9 A multi-risk assessment framework for agricultural land use optimization. Cui HJ, Guo P*, Li M, Guo SS, Zhang F. Stochastic Environmental Research and Risk Assessment, 2019,33(2): 563-579
10 Towards sustainable water resources planning and pollution control: Inexact joint-probabilistic double-sided stochastic chance-constrained programming model . Zhang CL, Guo SS, Zhang F, Bernard A. Engel., Guo, P*. Science of the Total Environment, 2019, 657: 73-86.
11 An inexact irrigation water allocation optimization model under future climate change. Wang YZ, Liu L, Guo P*, Zhang CL, Zhang F, Guo SS. Stochastic Environmental Research and Risk Assessment, 2019, 33(1):271-285
12 A nonlinear inexact two-stage management model for agricultural water allocation under uncertainty based on the Heihe river water diversion plan. Zhang CL, Yue Q, Guo P*. In ternational Journal of Environmental Research and Public Health, 2019, 16: 1884
13 A bi-level multi-objective linear fractional programming for water consumption structure optimization based on water shortage risk. Wang YZ, Liu L, Guo SS, Yue Q, Guo P*. Journal of Cleaner Production, 2019, 237: 117829
14 A bi-level multiobjective stochastic approach for supporting environment-friendly agricultural planting strategy formulation. Zhang F, Yue Q, Engel B, Guo SS, Guo P*, Li XL. Science of Total Environment, 2019, 693: 133593
15 A conceptual agricultural water productivity model considering under field capacity soil water redistribution applicable for arid and semi-arid areas with deep groundwater. Chen SL, Huo ZL*, Xu X, Huang GH. Agricultural Water Management, 2019, 213: 309-323
16 A coupled model for simulating water flow and solute transport in furrow irrigation. Liu K, Huang GH*, Xu X, Xiong YW, Huang QZ, Šimůnek J. Agricultural Water Management, 2019, 213: 792-802
17 A distributed interval nonlinear multiobjective programming approach for optimal irrigation water management in an arid area. Tang YK, Zhang F, Wang SF, Zhang XD, Guo SS, Guo P*. Agricultural Water Management, 2019, 220: 13-26
18 A Multi-Objective Hierarchical Model for Irrigation Scheduling in the Complex Canal System. Guo SS, Zhang F, Zhang CL, An CJ, Wang SF, Guo P*. Sustainability, 2019, 11(1): 24
19 A novel regional irrigation water productivity model coupling irrigation- and drainage-driven soil hydrology and salinity dynamics and shallow groundwater movement in arid regions in China. Xue JY, Huo ZL*, White I, Kisekka I, Sheng ZP, Wang S, Wang CZ, Huang GH, Xu X. Hydrology and Earth System Sciences Discussions, 2019, 1-36
20 A Price-Forecast-Based Irrigation Scheduling Optimization Model under the Response of Fruit Quality and Price to Water. Shan BY, Guo P*, Guo SS, Li Z. Sustainability, 2019, 11: 21245
21 A unique vadose zone model for shallow aquifers: the Hetao irrigation district, China. Liu ZY, Wang XW, Huo ZL*, Steenhuis TS. Hydrology and Earth System Sciences, 2019, 23 (7): 3097-3115
22 Agricultural production planning approach based on interval fuzzy credibility-constrained bi-level programming and Nerlove supply response theory. Zhang F, Engel B, Zhang C, Guo S, Guo P*, Wang SF. Journal of Cleaner Production, 2019, 223: 1158-1169
23 An improved intuitionistic fuzzy interval two-stage stochastic programming for resources planning management integrating recourse penalty from resources scarcity and surplus. Guo SS, Zhang F, Zhang CL, Wang YZ, Guo P*. Journal of Cleaner Production, 2019, 234: 185-199
24 An interval multiobjective approach considering irrigation canal system conditions for managing irrigation water. Zhang F, Guo SS, Zhang CL, Guo P*. Journal of Cleaner Production, 2019, 211: 293-302
25 An Optimization-Evaluation Agricultural Water Planning Approach Based on Interval Linear Fractional Bi-Level Programming and IAHP-TOPSIS. Zhang Y, Zhang F, Zhu H, Guo P*. Water, 2019, 11: 1094
26 Analyzing spatiotemporal characteristics of soil salinity in arid irrigated agro-ecosystems using integrated approaches. Ren DY, Wei BY, Xu X*, Engel B, Li GY, Huang QZ, Xiong YW, Huang GH. Geoderma, 2019, 356: 113935
27 Assessing sustainability of agricultural water saving in an arid area with shallow groundwater. Xue JY, Huo ZL*, Huang QZ, Wang F, Boll J, Huang GH, Qu ZY. Irrigation and Drainage, 2019, 68 (2): 205-217
28 Drought risk evaluation model with interval number ranking and its application. Liu X, Guo P*, Tan Q, Xin JF, Li YF, Tang YK. Science of Total Environment, 2019, 685, 1042-1057
29 Effects of deficit irrigation with saline water on soil water-salt distribution and water use efficiency of maize for seed production in arid Northwest China. Yuan CF, Feng SY*, Huo ZL, Ji QY. Agricultural water management, 2019, 212: 424-432
30 Enhancing the capability of hydrological models to simulate the regional agro-hydrological processes in watersheds with shallow groundwater: Based on the SWAT framework. Xiong LY, Xu X*, Ren DY, Huang QZ, Huang GH. Journal of Hydrology, 2019, 572: 1-16
31 Hydrological complexities in irrigated agro-ecosystems with fragmented land cover types and shallow groundwater: Insights from a distributed hydrological modeling method. Ren DY, Xu X*, Engle B, Huang QZ, Xiong YW, Huo ZL, Huang GH. Agricultural water management, 2019, 213: 868-881
32 Impact of pore structure and morphology on flow and transport characteristics in randomly repacked grains with different angularities. Xiong YW*, Long XX, Huang GH, Furman A. Soils and Foundations, 2019, 59 (6): 1992-2006
33 Improving the Estimation of Hydraulic and Thermal Properties of Heterogeneous Media via the Addition of Heat Loss. Pan MQ, Huang QZ*, Feng R, Xu X, Xiong YW, Huang GH. Vadose Zone Journal, 2019, 18 (1): 1-12
34 Improving the representation of stomatal responses to CO2 within the Penman–Monteith model to better estimate evapotranspiration responses to climate change. Li XJ, Kang SZ*, Niu J, Huo ZL, Liu JZ. Journal of Hydrology, 2019, 572: 692-705
35 Modeling and assessing agro-hydrological processes and irrigation water saving in the middle Heihe River basin. Xu X, Jiang Y, Liu MH, Huang QZ, Huang GH*. Agricultural water management, 2019, 211: 152-164
36 Modeling and Assessing Regional Agro-hydrological Response to Water Saving Managements in an Arid Irrigated Catchment with Shallow Groundwater. Xiong LY, Xu X*, Huang GH. AGU Fall Meeting Abstracts 2019, B31L-2475
37 Multi-model projections of climate change in different RCP scenarios in an arid inland region, Northwest China. Wang RT, Cheng QY, Liu L*, Yan CR, Huang GH. Water, 2019, 11 (2): 347
38 Optimization of planning structure in irrigated district considering water footprint under uncertainty. Liu X, Guo P*, Li FH, Zheng WS. Journal of Cleaner Production, 2019, 210: 1270-1280
39 Optimization of water and fertilizer coupling system based on rice grain quality. Liu X, Li M, Guo P*, Zhang ZX. Agricultural Water Management, 2019, 221: 34-46
40 Parameters Estimation and Prediction of Water Movement and Solute Transport in Layered, Variably Saturated Soils Using the Ensemble Kalman Filter. Jiang Z, Huang QZ, Li GD, Li GY. Water, 2019, 11: 1520
41 Planning seasonal irrigation water allocation based on an interval multiobjective multi-stage stochastic programming approach. Zhang F, Guo P*, Engel B, Guo SS, Zhang CL, Tang YK. Agricultural Water Management, 2019, 223: 105692
42 Simulation of saline water irrigation for seed maize in arid northwest China based on SWAP model. Yuan CF, Feng SY*, Huo ZL, Ji QY. Sustainability, 2019, 11 (16): 4264
43 Soil properties and plant growth response to litter in a prolonged enclosed grassland of Loess Plateau, China. Xiong YW*, Yu B, Bai MT,Zhang XY, Huang GH, Furman A. Journal of Earth Science, 2019, 30 (5): 1041-1048
44 Towards sustainable water resources planning and pollution control: Inexact joint-probabilistic double-sided stochastic chance-constrained programming model. Zhang CL, Guo SS, Zhang F, Engel B, Guo P*. Science of the Total Environment, 2019, 657: 73-86
45 Vertical zonality of the water cycle and the impact of land-use change on runoff in the Qingshui River Basin of Wutai Mountain, China. Xu F, Jia YW, Peng H, Niu CW, Liu JJ, Hao CF, Huang GH. Hydrological Sciences Journal, 2019, 64 (16): 2080-2092
46 Water productivity evaluation under multi-gcm projections of climate change in oases of the heihe river basin, northwest china. Liu L*, Guo ZZ, Huang GH, Wang RT. International journal of environmental research and public health, 2019, 16 (10): 1706
47 河套灌区典型灌排单元农田耗水机制研究. 任东阳, 徐旭*, 黄冠华. 农业工程学报, 2019, 35 (1): 98-105
48 黑河中游农业水资源多目标优化配置. 张妍, 郭萍*, 张帆. 中国农业大学学报, 2019, 24(05): 185-192
49 基于Pareto解集的多目标农业水土资源优化配置模型. 郭萍*, 单宝英, 郭珊珊. 天津大学学报(自然科学与工程技术版), 2019, 52(10): 1008-1016
50 基于集合卡尔曼滤波法的二维土壤水流状态变量和参数联合估计. 刘琨, 黄冠华*. 水利学报,2019, 50 (3): 399-408
51 基于评价的水资源优化模型适用性比较. 张妍, 郭萍*, 张帆, 唐毅宽. 排灌机械工程学报, 2019, 37(02): 154-159
52 基于区间两阶段模糊可信性约束模型的灌区水资源优化配置. 岳琼, 郭萍*, 王友芝, 张成龙, 李鹏. 农业机械学报, 2019, 50(04): 228-235
53 基于遗传算法与方案优选的多目标优化模型求解方法. 单宝英, 郭萍*, 张帆, 郭珊珊. 中国农业大学学报, 2019, 24(06): 157-165
54 考虑气象因子的不确定性灌溉水资源优化配置. 德佳硕, 郭萍*, 张成龙, 岳琼, 单宝英. 排灌机械学报, 2019, 37(06): 540-544
# 论文标题 作者 期刊
1 AHC: An integrated numerical model for simulating the agro-ecosystems—model description and application. Xu X, Sun C, Neng FT, Fu J, Huang GH*. Ecological Modelling, 2018, 390:23-39
2 An integrated hydrological model for the restoration of ecosystems in arid regions: Application in Zhangye basin of the middle Heihe River basin, Northwest China. Liu MH, Xu X*, Jiang Y, Huang QZ, Huo ZL, Huang GH*. Journal of Geophysical Research: Atmospheres, 2018,123(22): 12564-12582
3 Impact of agricultural water-saving practices on regional evapotranspiration: the role of groundwater in sustainable agriculture in arid and semi-arid areas. Chen H, Huo ZL*, Dai XQ, Ma SY, Xu X, Huang GH. Agricultural and Forest Meteorology, 2018, 263:156–168
4 Shallow groundwater plays an important role in enhancing irrigation water productivity in an arid area: The perspective from a regional agricultural hydrology simulation. Gao XY, Huo ZL*, Xu X, Qu ZY, Huang GH, Tang PC, Bai YN. Agricultural Water Management, 2018,208: 43-58
5 Monte Carlo-based agricultural water management under uncertainty: a case study of Shijin Irrigation District, China. Yang G, Guo P*. Journal of Environmental Informatics, 2018.
6 Assessing sustainability of agricultural water saving in arid area with shallow groundwater. Xue JY, Huo ZL*, Huang QZ, Wang FX, Jan Boll, Huang GH, Qu ZY. Irrigation and Drainage, 2018, 68(2): 205-217
7 Estimating evapotranspiration of processing tomato under plastic mulched irrigation in the upper reaches of the Yellow river using the dual Kc model. Zhang HM, Huang GH*, Xu X, Xiong YW, Huang QZ. Water, 2018, 10, 1088
8 An inexact CVaR two-stage mixed-integer linear programming approach for agricultural water management under uncertainty considering ecological water requirement. Zhang CL, Guo P*. Ecological Indicators, 2018, 92:342–353.
9 Prediction of consumptive use under different soil moisture content and soil salinity conditions using artificial neural network models. Qi YB, Huo ZL, Feng SY, Adeloye, AJ, Dai XQ. Irrigation and Drainage, 2018, 67, 615-624
10 Impact of biochar addition on soil properties and water-fertilizer productivity of tomato in semi-arid region of Inner Mongolia, China. Li CJ, Xiong YW*, Qu ZY, Xu X, Huang GH. Geoderma. 2018, 331:100-108
11 Long-term groundwater dynamics affected by intense agricultural activities in oasis areas of arid inland river basins, Northwest China. Liu MH, Jiang Y, Xu X*, Huang QZ, Huo ZL, Huang GH. Agricultural Water Management. 2018, 203: 37–52
12 A. Furman. Quantitative Assessment of the Heterogeneity and Reproducibility of Repacked Silica Sand Columns. Xiong YW, Dai JY, Zhang XY, Huang GH* Vadose Zone Journal. 2018, 16(13):0120
13 Growth responses of crops and natural vegetation to irrigation and water table changes in an agro-ecosystem of Hetao, upper Yellow River basin: Scenario analysis on maize, sunflower, watermelon and tamarisk Chinese. Ren DY, Xu X*, B. Engel, Huang GH. Agricultural Water Management. 2018, 199: 93–104
14 Untangling the effects of shallow groundwater and deficit irrigation on irrigation water productivity in arid region: New conceptual model. Xue JY, Huo ZL*, Wang FX, Kang SZ, Huang GH. Science of the Total Environment. 2018, 619-620:1170–1182
15 Analyzing the Role of Shallow Groundwater Systems in the Water Use of Different Land-Use Types in Arid Irrigated Regions. Ren DY, Xu X*, Huang QZ, Huo ZL ,Xiong YW, Huang GH. Water ,2018,10(5):634
16 Drip irrigation enhances shallow groundwater contribution to crop water consumption in an arid area. Wang XW, Huo ZL*, Guan HD, Guo P, Qu ZY. Hydrological Processes, 2018, 32 (6), 747-758.
17 Shallow groundwater plays an important role in enhancing irrigation water productivity in an arid area: the perspective from a regional agricultural hydrology simulation. Gao XY, Huo ZL*, Xu X, Qu ZY, Huang GH, Tang PC, Bai YN. Agricultural Water Management, 2018, 208C, 43-58
18 Quantifying long-term responses of crop yield and nitrate leaching in an intensive farmland using agro-eco-environmental model. Sun Mei, Huo ZL*, Zhen YX Science of the Total Environments, 2018, 613-614C:1003-1012
19 Regional water use structure optimization under multiple uncertainties based on water resources vulnerability analysis. Li RH, Guo P*. Water Resources Management, 2018, 32: 1827-1847.
20 An Interval-based Fuzzy Chance-constrained Irrigation Water Allocation model with double-sided fuzziness. Zhang CL, Bernard A. Engel, Guo P*. Agricultural Water Management, 2018, 210: 22-31.
21 Double-sided stochastic chance-constrained linear fractional programming model for managing irrigation water under uncertainty. Zhang CL, Bernard A. Engel, Guo P*. Journal of Hydrology, 2018, 564: 467-475.
22 An inexact robust two-stage mixed-integer linear programming approach for crop area planning under uncertainty. Zhang CL, Engel, B. A., Guo P*. Journal of Cleaner Production, 2018, 204: 489-500.
23 An interval nonlinear multiobjective programming model with fuzzy-interval credibility constraint for crop monthly water allocation. Zhang F, Zhang CL, Guo P*. Agricultural Water Management, 2018, 209: 123-133.
24 Inexact nonlinear improved fuzzy chance-constrained programming model for irrigation water management under uncertainty. Zhang CL, Zhang F, Guo SS, Liu X, Guo P*. Journal of Hydrology, 2018, 556: 397-408
25 Nitrogen and Organics Removal during Riverbank Filtration along a Reclaimed Water Restored River in Beijing, China. Pan WY, Huang QZ*, Huang GH. Water, 2018, 10(4) 1-16
26 基于遥感反演河套灌区土壤盐分分布及对作物生长的影响. 黄权中,徐 旭,吕玲娇,任东阳,柯隽迪,熊云武,霍再林,黄冠华. 农业工程学报, 2018, 34(1), 101-109
# 论文标题 作者 期刊
1 Effects of water stress on processing tomato yield, quality and water use efficiency with plastic mulched drip irrigation in sandy soil of the Hetao Irrigation District. Zhang HM, Xiong YW, Huang GH, X Xu, Huang QZ*. Agricultural Water Management. 2017, 179: 205–214
2 Modeling and assessing the function and sustainability of natural patches in salt-affected agro-ecosystems: Application to tamarisk (Tamarix chinensis Lour.) in Hetao, upper Yellow River basin. Ren DY, Xu X*, T. B. Ramos, Huang QZ, Huo ZL, Huang GH. Journal of Hydrology. 2017, 552: 490–504
3 Evaluation on the responses of maize (Zea mays L.) growth, yield and water use efficiency to drip irrigation water under mulch condition in the Hetao irrigation District of China. Liu HJ, Wang X, Zhang X, Zhang L, Li Y, Huang GH*. Agricultural Water Management. 2017, 179 : 144–157
4 Effect of soil moisture-based furrow irrigation scheduling on melon (Cucumis melo L.) yield and quality in an arid region of Northwest China. Wang J, Huang GH *, Li J, Zheng JH, Huang QZ, Liu HJ. Agricultural Water Management. 2017, 179 : 167-176
5 Removal of Nitrogen and COD from Reclaimed Water during Long-Term Simulated Soil Aquifer Treatment System under Different Hydraulic Conditions. Pan WY, Xiong YW, Huang QZ*, Huang GH. Water, 2017, 9(10), 1-18.
6 Deficit irrigation enhances contribution of shallow groundwater to crop water consumption in arid area. Gao XY, Bai YN, Huo ZL*, Xu. X, Huang GH, Xia Y, T. S. Steenhuis. Agricultural Water Management. 2017, 185: 116-125
7 Evaluating the effects of irrigation water salinity on water movement, crop yield and water use efficiency by means of a coupled hydrologic/crop growth model. Wang XP, Liu GM, Yang JS, Huang GH *, Yao RJ. Agricultural Water Management. 2017, 185:13-26
8 Water saving practices enhance regional efficiency of water consumption and water productivity in an arid agricultural area with shallow groundwater. Xue JY, Guan HD, Huo ZL*, Wang FX, Huang GH, Jan Boll. Agricultural Water Management. 2017, 194: 78–89
9 An interval multistage joint-probabilistic chance-constrained programming model with left-hand-side randomness for crop area planning under uncertainty. Zhang CL, Li M, Guo P*. Journal of Cleaner Production, 2017, 167: 1276-1289.
10 A multi-objective fuzzy programming model for optimal use of irrigation water and land resources under uncertainty in Gansu Province, China. Ren CF, Guo P*, Tan Q, Zhang LD. Journal of Cleaner Production, 2017, 164: 85-94.
11 A generalized fuzzy credibility-constrained linear fractional programming approach for optimal irrigation water allocation under uncertainty. Zhang CL, Guo P*. Journal of Hydrology, 2017, 553: 735-749.
12 Integrated interval multi-objective two-stage stochastic programming and AHP method for regional water allocation under uncertainty. Zhang F, Guo SS, Ren CF, and Guo P*. Journal of Water Resources Planning and Management, 2017.
13 Modeling contribution of shallow groundwater to evapotranspiration and yield of maize in an arid area. Gao XY, Huo ZL*, Qu ZY, Xu X, Huang GH, T.S. Steenhuis. Scientific Reports 2017,7: 1-13
14 A flexible decision support system for irrigation scheduling in an irrigation district in China . Yang GQ, Liu L, Guo P*,Li M Agricultural Water Management, 2017, 179: 378-389
15 A simulation-based inexact fuzzy semi-infinite programming method for agricultural cultivated area planning in the Shiyang River basin . Gui ZY, Li M, Guo P*. Journal of Irrigation and Drainage Engineering, 2017,143(2): 0001118
16 不同补水方式下砂壤土渗滤系统对硝态氮去除效果. 潘维艳, 黄权中,张子元, 黄冠华. 农业工程学报, 2017, 33(8), 197-203
17 采用基因表达式编程的沟灌入渗模型参数估计方法. 刘琨, 黄冠华. 水利学报, 2017, 48(11), 1293-1302
18 基于热失踪的饱和层状介质水热参数反演. 潘梦绮, 黄权中,冯榕,黄冠华. 水利学报, 2017, 48(11), 1363-1372
19 北京市东南郊灌区土壤和农产品酞酸酯污染风险评估. 李艳,刘洪禄,顾华,黄权中,黄冠华,李垒. 农业工程学报, 2017, 33(18): 203-212
# 论文标题 作者 期刊
1 Global sensitivity analysis and calibration of parameters for a physically-based agro-hydrological model. Xu X, Sun C, Huang GH*, Mohanty B P. Environmental Modelling & Software, 2016, 83: 88-102
2 Modeling and assessing field irrigation water use in a canal system of Hetao, upper Yellow River basin: Application to maize, sunflower and watermelon. Ren DY, Xu X*, Hao YY, Huang GH. Journal of Hydrology, 2016, 532: 122-139
3 The effect of N rates on yields and nitrogen use efficiencies during four years of wheat-maize rotation cropping seasons. Li YK, Liu HL, Huang GH. Agronomy Journal, 2016, 108: 1-13
4 Optimizing regional irrigation water use by integrating a two-level optimization model and an agro-hydrological model. Jiang Y, Xu X*, Huang QZ, Huo ZL, Huang GH. Agricultural Water Management. 2016, 178: 76-88
5 Estimating groundwater evapotranspiration from irrigated cropland incorporating root zone soil texture and moisture dynamics. Wang XW, Huo ZL*, Feng SY, Guo P, Guan HD. Journal of Hydrology, 2016, 543, 501-509
6 Uncertainty and sensitivity assessments of an agricultural-hydrological model (RZWQM2) using the GLUE method. Sun M, Zhang X, Huo ZL, Feng SY*, Huang GH, Mao XM. Journal of Hydrology. 2016, 534: 19-30
7 Nitrate nitrogen accumulation and leaching pattern at a winter wheat-summer maize cropping field in the North China Plain. Li YK, Liu H, Huang GH, Zhang R, Yang H. Environment Earth Sciences. 2016, 75: 118
8 Impacts of agricultural water saving practice on regional groundwater and water consumption in an arid region with shallow groundwater. Chen H, Liu ZY, Huo ZL, Qu ZY, Xia YH, Fernald, A. Environmental Earth Sciences, 2016, 75, 16:1204
9 Analysis of the contribution of groundwater to evapotranspiration in an arid irrigation district with shallow water table. Liu ZQ, Chen H, Huo ZL, et al.. Agricultural Water Management, 2016, 171, 131-141
10 Groundwater simulation for efficient water resources management in Zhangye Oasis. Chen SL, Yang W, Huo ZL, Huang GH. Northwest China Environment Earth Sciences, 2016, 75: 647
11 Integrated agriculture water management optimization model for water saving potential analysis . Zhang DM, Guo P*. Agricultural Water Management, 2016, 170: 5-19.
12 An efficient irrigation water allocation model under uncertainty . Li M, Guo P*, Singh V P. Agricultural Systems, 2016, 144: 46-57
13 Risk Assessment for ecological planning of Aarid Inland River basins under hydrological and management uncertainties . Gu JJ, Li M, Guo P*, et al.. Water Resources Management, 2016, 30 (4): 1415-1431
14 Biobjective optimization for efficient irrigation under fuzzy uncertainty . Li M, Guo P*, Singh V P. Journal of Irrigation and Drainage Engineering, 2016, 142 (8): 05016003
15 An uncertainty-based framework for agricultural water-land resources allocation and risk evaluation . Li M, Guo P*, Singh V P, Yang GQ. Agricultural Water Management, 2016, 177: 10-23
16 Achieving the objective of ecological planning for arid inland river basin under uncertainty based on ecological risk assessment . Gu JJ, Guo P*, Huang GH. Stochastic Environmental Research and Risk Assessment, 2016, 30 (5): 1485-1501
17 Impact of saline water irrigation on water use efficiency and soil salt accumulation for spring maize in arid regions of China. Wang QM, Huo ZL, Zhang LD, Wang JH, Zhao Y. Agricultural Water Management, 2016, 163, 125-138
18 An innovative method for water resources carrying capacity research-Metabolic theory of regional water resources. Ren CF, Guo P*, Li M, Li RH. Journal of Environmental Management, 2016, 167: 139-146
19 An improved solving approach for interval-parameter programming and application to an optimal allocation of irrigation water problem . Yang GQ, Guo P*, Li M, Fang SQ, Zhang LD. Water Resources Management, 2016, 30 (2): 701-729
20 基于排队理论的灌区渠系地表水及地下水优化配置模型. 杨改强, 郭萍, 李睿环, 等. 农业工程学报, 2016, 32 (6): 115-120
# 论文标题 作者 期刊
1 Assessment of irrigation performance and water productivity in irrigated areas of the middle Heihe River basin using a distributed agro-hydrological model. Jiang Y., X. Xu*, Huang QZ, Huo ZL,Huang GH*. Agricultural Water Management. 2015, 147: 67-81
2 Multi-dimensional critical regulation control modes and water optimal allocation for irrigation system in the middle reaches of Heihe River basin, China . Li M, Guo P*, Zhang LD, Zhao J. Ecological Engineering, 2015, 76: 166-177
3 Stemflow of water on maize and its influencing factors. Liu H, R. Zhang, L. Zhang, X. Wang, Y. Li, Huang GH. Agricultural Water Management. 2015, 158: 35-41
4 Comparison of spring maize root water uptake models under water and salinity stress validated with field experiment data. Wang QM, Huo ZL*,Feng SY. Irrigation and Drainage, 2015, 64:669-682
5 Optimization of the irrigation water resources for Shijin irrigation district in north China . Yang G, Guo P*, Huo LJ, Ren CF. Agricultural Water Management, 2015, 158: 82-98
6 A coupled random fuzzy two-stage programming model for crop area optimization—A case study of the middle Heihe River basin, China . Li M, Guo P*. Agricultural Water Management, 2015, 155: 53-66
7 Groundwater recharge and capillary rise in irrigated areas of the upper Yellow river basin assessed by an agro-hydrological model. Xu X, Sun C*, Qu ZY, Huang QZ, T. B. Ramos, Huang GH. Irrigation and Drainage. 2015, 64(5):587-599
8 An assessment of irrigation practices: Sprinkler irrigation of winter wheat in the North China Plain. Wang XP, Huang GH*, Yang JS, Huang QZ, Liu HJ, Yu L. Agricultural Water Management. 2015, 159: 197-208
9 Soil salt and groundwater change in flood irrigation field and uncultivated land: a case study based on 4-year field Observations. Gao XY, Huo ZL, Bai YN, Feng SY, Huang GH, Shi HB, Qu ZY. Environment Earth Sciences. 2015,73(5):2127-2139
10 河套灌区土壤水盐和作物生长的HYDRUS-EPIC 模型分布式模拟. 郝远远,徐旭,任东阳,黄权中,黄冠华. 农业工程学报, 2015, 31(11): 110-116
11 麦秸覆盖条件下土壤蒸发阻力及蒸发模拟. 李艳, 刘海军, 黄冠华. 农业工程学报, 2015, 31(1): 98-106
# 论文标题 作者 期刊
1 Evaluation of soil water dynamics and crop yield under furrow irrigation with a two-dimensional flow and crop growth coupled model. Wang J, Huang GH*,Zhan HB, Mohanty BP, Zheng JH, Huang QZ, Xu X. Agricultural Water Management.,2014, 141:10-22
2 Quantitative estimation of climate change effects on potential evapotranspiration in Beijing during 1951–2010. Liu H, Li Y, J. Tanny, Zhang R, Huang G. Journal of Geographical Sciences,2014,24(1):93-112
3 Evaluation of spatial interpolation methods for groundwater level in an arid inland oasis, northwest China. Yao LQ, Huo ZL*, Feng SY, Mao XM, Kang SZ, Chen J, Xu, JJ, Steenhuis, TS . Environmental Earth Sciences, 2014, 71: 1911-1924
4 An Optimization Model for Crop Deficit Irrigation System under Uncertainty. Guo P, Chen XH, Tong L, Li JB, Li M. Engineering Optimization, 2014, 46 (1): 1-14
5 Inexact Fuzzy Chance-Constrained Nonlinear Programming Approach for Crop Water Allocation under Precipitation Variation and Sustainable Development . Guo P, Wang X, Zhu H, Li M. Journal of Water Resources Planning and Management, 2014, 140 (9): 05014003
6 Fuzzy chance-constrained linear fractional programming approach for optimal water allocation . Guo P, Chen X, Li M, Li JB. Stochastic Environmental Research and Risk Assessment, 2014, 28 (6): 1601-1612
7 IB-ICCMSP: An integrated irrigation water optimal allocation and planning model based on inventory theory under uncertainty. Li M, Guo P, Yang GQ ,Fang SQ. Water Resources Management, 2014, 28 (1): 241-260
8 A multi-objective optimal allocation model for irrigation water resources under multiple uncertainties . Li M, Guo P. Applied Mathematical Modelling, 2014, 38 (19-20): 4897–4911
9 Monthly Optimal Reservoirs Operation for Multicrop Deficit Irrigation under Fuzzy Stochastic Uncertainties . Zhang LD, Guo P*, Fang S,et al. Journal of Applied Mathematics, 2014, 25 (1): 155-184
10 Optimal allocation of water resources model for different growth stages of crops under uncertainty. Fu YH, Li M, Guo P*. Journal of Irrigation and Drainage Engineering, 2014, 140 (6):05014003
11 Deficit Irrigation Optimization Model for Crop Area Allocation Under Uncertainties in Shiyang River Basin, China . Zhang LD, Guo P*, Li M, Fang SQ. Sensor Letters, 2014, volume 12: 867-875 (9)
12 A decision-support system for cropland irrigation water management and agricultural non-point sources pollution control. Li M, Guo P*, Liu X, Huang GH, Huo ZL. Desalination and Water Treatment, 2014, 52(25-27): 5106-5117
13 Flow of water in porous media with saturation overshoot: A review. Xiong YW Journal of Hydrology, 2014, 510: 353-362
14 土壤水盐与玉米产量对地下水埋深及灌溉响应模拟 郝远远, 徐旭, 黄权中, 黄冠华 农业工程学报, 2014, 30(20),128-136 .
# 论文标题 作者 期刊
1 Assessing the effects of water table depth on water use, soil salinity and wheat yield: Searching for a target depth for irrigated areas in the upper Yellow River basin. Xu X, Huang GH*, Sun C, Pereira L.S, Ramosd T.B, Huang QZ, Hao YY. Agricultural Water Management, 2013, 125: 46-60
2 Responses of drip irrigated tomato (Solanum lycopersicum L.) yield, quality and water productivity to various soil matric potential thresholds in an arid region of Northwest China. Zheng JH, Huang GH*, Jia DD, Wang J, Mota M, Pereira L.S, Huang QZ, Xu X, Liu HJ. Agricultural Water Management, 2013, 129: 181-193
3 Effects of water deficits on growth, yield, and water productivity of drip irrigated onion (Allium cepa L.) in an arid region of Northwest China. Zheng JH, Huang GH*, Wang J, Huang QZ, Pereira L.S, Xu X, Liu HJ. Irrigation Science, 2013, 31(5): 995-1008
4 Effect of climate change on reference evapotranspiration and aridity index in arid region of China. Huo ZL, Dai XQ, Feng SY*, Kang SZ, Huang GH. Journal of Hydrology, 2013, 492: 24-34
5 Effects of deficit irrigation with saline water on spring wheat growth and yield in arid Northwest China. Jiang J, Huo ZL*, Feng SY, Kang SZ, Wang FX, Zhang CB. Journal of Arid Land, 2013, 5(2): 143-154
6 Inexact stochastic dynamic programming method and application to water resources management in Shandong China under uncertainty. Gu JJ, Guo P*, Huang GH. Stochastic Environmental Research and Risk Assessment, 2013, 27(5): 1207-1219
7 An inexact fuzzy-parameter two-stage stochastic programming model for irrigation water allocation under uncertainty. Li M, Guo P*, Fang SQ, Zhang LD. Stochastic Environmental Research and Risk Assessment, 2013, 27(6): 1441-1452
8 Optimization of industrial structure considering the uncertainty of water resources. Ren CF, Guo P*, Li M, Gu JJ. Water Resources Management, 2013, 27(11): 3885-3898
9 Interval multistage joint-probabilistic integer programming approach for water resources allocation and management. Gu JJ, Huang GH*, Guo P, Shen N. Journal of Environmental Management, 2013, 128: 615-624
10 Simulation and optimization for crop water allocation based on crop water production functions and climate factor under uncertainty. Tong FF, Guo P*. Applied Mathematical Modelling, 2013, 37(14-15): 7708–7716
11 Bilevel Multiobjective Programming Applied to Water Resources Allocation. Fang SQ, Guo P*, Mo L, Zhang LD. Mathematical Problems in Engineering, 2013, 2013
12 Greenhouse Irrigation Optimization Decision Support System. Zhang DM, Guo P, Liu X, Chen JL, Jiang C. International Conference on Computer and Computing Technologies in Agriculture , 2013: 10-23
13 农田水盐运移与作物生长模型耦合及验证. 徐旭, 黄冠华, 黄权中. 农业工程学报, 2013, 29(4) :110-117
# 论文标题 作者 期刊
1 Integration of SWAP and MODFLOW-2000 for modeling groundwater dynamics in shallow water table areas. Xu X, Huang GH*, Zhan HB, Qu ZY, Huang QZ. Journal of Hydrology, 2012, 412: 170-181
2 Integrated neural networks for monthly river flow estimation in arid inland basin of Northwest China. Huo ZL, Feng SY*, Kang SZ, Huang GH, Wang FX, Guo P. Journal of Hydrology, 2012, 420: 159-170
3 Analytical solution to subsurface air pressure in a three-layer unsaturated zone with atmospheric pressure changes. Li J, You KH, Zhan HB*, Huang GH*. Transport in porous media, 2012, 93(3): 461-474
4 Irrigation scheduling strategies based on soil matric potential on yield and fruit,quality of mulched-drip irrigated chili pepper in Northwest China. Liu HJ, Yang HY, Zheng JH, Jia DD, Wang J, Li Y, Huang GH*. Agricultural Water Management, 2012, 115: 232-241
5 Estimating mass fractal dimension of soil using artificial neural networks for improved prediction of water retention curve. Ghanbarian-Alavijeh B, Taghizadeh-Mehrjardi R, Huang GH. Soil Science, 2012, 177: 471-479
6 Determining Air Permeability in Reclaimed Coastal Land Based on Tidal Fluctuations. Li J, Zhan HB*, Huang GH*, You KH. Environmental Earth Sciences, 2012,66:1259-1268
7 A mobile–immobile model with an asymptotic scale-dependent dispersion function. Gao GY, Zhan HB*, Feng SY*, Fu BJ, Huang GH. Journal of Hydrology, 2012, 424: 172-183
8 Effect of irrigation amount and water salinity on water consumption and water productivity of spring wheat in northwest China. Jiang J, Huo ZL*, Feng SY*, Zhang CB. Field Crops Research, 2012, 137: 78-88
9 Artificial Neural Network models for reference evapotranspiration in an arid area of Northwest China. Huo ZL, Feng SY*, Kang SY, Dai XQ. Journal of Arid Environments, 2012, 82: 81-90
10 Effect of groundwater level depth and irrigation amount on water fluxes at water table and water use of wheat. Huo ZL, Feng SY*, Huang GH, Zheng YY, Wang YH. Guo P. Irrigation and Drainage, 2012, 61(3): 348-356
11 Simulation of hydrology following various volumes of irrigation to soil with different depths to the water table. Huo ZL*, Feng SY, Dai XQ, Zheng Y, Wang Y. Soil use and management, 2012, 28(2): 229-239
12 SIFNP: Simulation-Based Interval-Fuzzy Nonlinear Programming for Seasonal Planning of Stream Water Quality Management. Zhu H, Huang GH*, Guo P. Water, Air, and Soil Pollution, 2012, 223(5): 2051-2072
13 Inexact two-stage stochastic partial programming: application to water resources management under uncertainty. Fan YR, Huang GH*, Guo P, Yang AL. Fan YR, Huang GH*, Guo P, Yang AL. Stochastic Environmental Research and Risk Assessment, 2012, 26(2): 281-293
14 不同耕作措施对土壤水分和青贮夏玉米水分生产率的影响. 李艳, 刘海军, 黄冠华. 农业工程学报, 2012, 28(14): 91-98
15 基于遗传算法的田间尺度土壤水力参数与溶质运移参数优化. 徐旭, 屈忠义, 黄冠华. 水利学报, 2012, 43(7): 808-815
16 承压含水层中非达西径向稳定流动抽水模拟试验. 李健, 黄冠华, 文章, 詹红兵. 水利学报, 2012, 43(1): 76-83
# 论文标题 作者 期刊
1 Numerically modelling groundwater in an arid area with ANN-generated dynamic boundary conditions. Huo ZL, Feng SY*, Kang SZ, Mao XM, Wang FX. Hydrological Prcossess, 2011, 25: 705-713
2 Using MODFLOW and GIS to assess changes in groundwater dynamics in response to water saving measures in irrigation districts of the upper Yellow River basin. Xu X, Huang GH*, Qu ZY, Pereira LS. Water Resources Management, 2011, 25: 2035-2059
3 Effect of permeability variations on solute transport in highly heterogeneous porous media. Wang KL, Huang GH*. Advances in Water Resources, 2011, 34: 671-683
4 Responses of winter wheat evapotranspiration and yield to sprinkler irrigation regimes. Liu HJ, Yu LP, Luo Y, Wang XP, Huang GH*. Agricultural Water Management, 2011, 98: 483-492
5 Integrated neural networks to estimate the monthly river flow of an arid inland basin in Northwest China. Huo ZL, Feng SY*, Kang SZ, Huang GH, Wang FX, Guo P. Journal of hydrology, 2012, 420: 159-170
6 Groundwater simulation using a numerical model under different water resources management scenarios in an arid region of China. Feng SY, Huo ZL*, Kang SZ, Tang ZJ, Wang FX. Environmental Earth Science, 2011, 62, 961-971
7 Optimization of the industrial structure facing sustainable development in resource-based city subjected to water resources under uncertainty. Gu JJ, Guo P*, Huang GH, Shen N. Stochastic Environmental Research and Risk Assessment, 2013, 27(3): 659-673
8 Non-Darcian flow to a well in leaky aquifers using the Forchheimer equation. Wen Z, Huang GH*, Zhan HB. Hydrogeology Journal, 2011,19: 563-573
9 Solutions for non-Darcian flow to an extended well. Wen Z, Huang GH*, Zhan HB. Ground Water, 2011, 49(2): 280-285
10 Constant-head test in leaky aquifers with a finite-thickness skin. Wen Z, Huang GH*, Zhan HB. Journal of Hydrology, 2011, 399:326-334
11 Tide-induced airflow in a two-layered coastal land with atmospheric pressure fluctuations. Li J, Zhan HB*, Huang GH, You KH. Advances in Water Resource, 2011, 34:649-658
12 On the Applicability of linearization method of vapor flow in porous media. Li J, Zhan HB*, Huang GH, You KH. Transport in Porous Media, 2011, 87:815-834
13 A review of fractal, prefractal and pore-solid-fractal models for parameterizing the soil water retention curve. Ghanbarian-Alavijeh B, Milla´n H, Huang GH. Canadian Journal of Soil Science, 2011, 91: 1-14
14 Inexact Fuzzy-Stochastic Quadratic Programming Approach for Waste Management under Multiple Uncertainties. Guo P, Huang GH. Engineering Optimization, 2011,43 (5): 525-539
15 干旱区膜下滴灌条件下洋葱水分生产函数与优化灌溉制度. 郑建华, 黄冠华, 黄权中, 王军, 贾冬冬, 张柯桢. 农业工程学报, 2011, 27(8): 25-30
16 区域尺度农田水盐动态模拟模型—GSWAP. 徐旭, 黄冠华, 屈忠义, 黄权中. 农业工程学报, 2011, 27(7): 58-63
17 土壤水氮迁移转化与作物生长耦合模拟. 王相平, 黄冠华, 于利鹏, 黄权中. 农业工程学报, 2011, 27(3): 19-25
# 论文标题 作者 期刊
1 Assessing the groundwater dynamics and predicting impacts of water-saving in the Hetao Irrigation District, Yellow River basin. Xu X, Huang GH*, Qu ZY, L. S. Pereira. Agricultural Water Management, 2010, 98:301-313
2 Estimating van Genuchten soil hydraulic parameters from the fractal dimension. Ghanbarian-Alavijeh B., A. M. Liaghat, Huang GH*, M. Th. van Genuchten. Pedosphere, 2010, 20(4): 456–465
3 A new mobile-immobile model for reactive solute transport with scale-dependent dispersion. Gao GY, Zhan HB, Feng SY, Fu BJ, Ma Y, and Huang GH. Water Resources Research, 2010, 46,W08533,
4 Interval-parameter semi-infinite fuzzy-stochastic mixed-integer programming approach for environmental management under multiple uncertainties. Guo P, Huang GH. Waste Management, 2010,30(3):521-531.
5 An inexact fuzzy-chance-constrained two-stage mixed-integer linear programming approach for flood diversion planning under multiple uncertainties. Guo P, Huang GH. and Li YP. Advances in Water Resources2010, 33:81-91.
6 Inexact Fuzzy-Stochastic Programming for Water Resources Management under Multiple Uncertainties. Guo P, Huang GH and Li YP. Environmental Modeling and Assessment2010, 15(2):111-124.
7 Interval-fuzzy possibilistic mixed integer linear programming for environmental management under uncertainty. Li YP, Huang GH and Guo P, Nie, S.L. The International Journal of Environment and Pollution 2010,42(1):107-124.
8 A two-stage programming approach for water resources management under randomness and fuzziness. Guo P, Huang GH., Zhu H. and Wang XL. Environmental Modeling and Software,2010,25(12):1573-1581
9 宁夏引黄灌区春小麦微咸水灌溉管理的模拟. 杨建国, 黄冠华, 叶德智, 徐旭, 王军, 黄权中, 邰日坤, 王诗景, 孟令广. 农业工程学报, 2010, 26(4): 49-56
10 微咸水灌溉对土壤水盐动态与春小麦产量的影响. 王诗景, 黄冠华, 杨建国, 王军, 邰日坤, 孟令广. 农业工程学报, 2010, 26(5): 27-31
11 二维强非均质含水层中渗透系数空间变异对污染物迁移的影响. 王开丽, 黄冠华. 水利学报, 2010, 41(4): 437-445
12 强变异渗透系数对地下水和溶质迁移影响的模拟研究. 王开丽, 黄冠华. 水动力学研究与进展, 2010, 25(4): 542-550
13 不同数学模型模拟非均质土壤溶质大尺度运移的对比分析. 高光耀, 冯绍元, 黄冠华, 詹红兵. 水利学报, 2010, 41(2): 162-172
14 基于蒸发皿水面蒸发量制定冬小麦喷灌计划. 刘海军, 黄冠华, 王明强, 于利鹏, 叶德智, 康跃虎, 刘士平, 张寄阳. 农业工程学报, 2010, 26(1): 11-17
15 喷灌灌水量对冬小麦生长、耗水与水分利用效率的影响. 于利鹏, 黄冠华, 刘海军, 王相平, 王明强. 应用生态学报, 2010, 21 (8):2031-2037
16 西北内陆旱区不同沟灌水肥对甜瓜.水分利用效率和品质的影响. 王 军, 黄冠华, 郑建华. 中国农业科学,2010,43(15):3168-3175
# 论文标题 作者 期刊
1 A finite element solution for the fractional advection-dispersion equation. Huang QZ, Huang GH, Zhan HB. Advances in Water Resources, 2008, 31: 1578-1589
2 Evidence of one-dimensional scale-dependent fractional advection dispersion equation. Huang GH, Huang QZ. Zhan HB. Journal of Contaminant Hydrology, 2006, 85: 53-71
3 Evaluation of soil water retention curve with pore-solid fractal model. Huang GH, Zhang RD. Geoderma, 2005, 127: 52-61
4 Laboratory experiment on drip emitter clogging with fresh water and treated sewage effluent. Liu HJ, Huang GH. Agricultural Water Management, 2009, 96: 745-756
5 Evaluation on the irrigation and fertilization management practices under the application of treated sewage water in Beijing, China. Wang XP, Huang GH. Agricultural Water Management, 2008, 95: 1011-1027
6 Evaluation anomalous solute transport in large heterogeneous soil column with mobile-immobile model. Gao GY, Feng SY, Zhan HB, Huang GH, Mao XM. ASCE Journal of Hydrologic Engineering, 2009, 14(9): 966-974
7 Comparison of alternative models for simulating anomalous solute transport in a large heterogeneous soil column. Gao GY, Zhan HB, Feng SY, Huang GH, Mao XM. Journal of Hydrology, 2009, 377: 391-404
8 Two-dimensional solute transport in an aquitard-aquifer system. Zhan HB, Wen Z*, Huang GH, Sun DM. Journal of Contaminant Hydrology, 2009, 107, 162-174
9 A numerical solution for non-Darcian flow in a confined aquifer using the power law function. Wen Z, Huang GH, Zhan HB. Journal of Hydrology, 2009, 364 : 99–106
10 Interval-Parameter Fuzzy-Stochastic Semi-Infinite Mixed-Integer Linear Programming for Waste Management under Uncertainty. Guo P, Huang GH, He L, Li HL. Environmental Modeling and Assessment, 2009,14(4): 521-537
11 Interval-parameter Two-stage Stochastic Semi-infinite Programming: Application to Water Resources Management under Uncertainty. Guo P*, Huang GH, He L*, Zhu H*. Water Resources Management, 2009,23: 1001–1023
12 Two-Stage Fuzzy Chance-Constrained Programming: Application to Water Resources Management under Dual Uncertainties. Guo P, Huang GH. Stochastic Environmental Research and Risk Assessment, 2009, 23: 349-359
13 A dual-interval vertex analysis method and its application to environmental decision making under uncertainty. Li Y, Huang GH, Guo P*, Nie SL. European Journal of Operational Research, 2009,200(2): 536-550
14 A Fuzzy Robust Nonlinear Programming Model for Stream Water Quality Management. Zhu, H, Huang GH, Guo P*, Qin XS. Water Resources Management, 2009, 23: 2913–2940
15 Inexact fuzzy-stochastic mixed-integer programming approach for long-term planning of waste management – Part A: Methodology. Guo P, Huang GH. Journal of Environmental Management 2009,91: 461–470
16 Inexact fuzzy-stochastic mixed-integer programming approach for long-term planning of waste management–Part B: Case Study. Guo P*, Huang GH. Journal of Environmental Management 2009,91: 441–460
17 Non-Darcian flow to a well in an aquifer-aquitard system. Wen Z, Huang GH, Zhan HB. Advances in Water Resources, 2008, 31: 1754–1763
18 ITSSIP: Interval-parameter Two-stage Stochastic Semi-infinite Programming for Environmental Management under Uncertainty. Guo P, Huang GH, He L* Sun BW. Environmental Modeling and Software, 2008,23: 1422-1437
19 ISMISIP: An Inexact Stochastic Mixed Integer Linear Semi-infinite Programming Approach for Solid Waste Management and Planning under Uncertainty. Guo P, Huang GH, He L. Stochastic Environmental Research and Risk Assessment, 2008, 22: 759-775
20 Inexact Stochastic Quadratic Programming Approach for Municipal Solid Waste Management. Guo P, Huang GH, Li YP. Journal of Environmental Engineering and Science, 2008, 7: 569-579
21 Transpiration measurement of banana (Musa sp.) plants with the thermal dissipation probe method. Liu HJ, Cohen S, Tanny J, Lemcoff JH, Huang GH. Plant and Soil, 2008, 308: 227-238
22 Estimation of banana (Musa sp.) plant transpiration using a standard 20 cm pan in a greenhouse. Liu HJ, Cohen S, Tanny J, Lemcoff JH, Huang GH. Irrigation and Drainage Systems, 2008, 22: 311-323
23 Non-Darcian flow towards a large-diameter vertical well in porous media with considering wellbore storage. Wen Z, Huang GH, Zhan HB. Pedosphere, 2008, 18(3): 288-303
24 Two-region non-Darcian flow toward a well in a confined aquifer. Wen Z, Huang GH, Zhan HB, Li J. Advances in Water Resources, 2008, 31: 818-827
25 An analytical solution for non-Darcian flow in a confined aquifer using the power law function. Wen Z, Huang GH, Zhan HB. Advances in Water Resources, 2008, 31: 44-55
26 Effect of climate changes and water-related human activities on annual stream flows of the Shiyang river basin in arid northwest China. Huo ZL, Feng SY, Kang SZ, Li WC, Chen SJ. Hydrological Processes, 2008, 22(16): 3155-3167
27 Neural Network to simulate regional ground water levels affected by human activities. Feng SY, Kang SZ, Huo ZL,Chen SJ, Mao XM. Ground Water, 2008, 46: 80-90
28 Simulation of effects of agricultural activities on groundwater level by combining FEFLOW and GIS. Huo ZL, Feng SY, Kang SZ, Cen SJ, Ma Y. New Zealand Journal of Agricultural Research, 2007, 50: 839-846
29 Response of water-land environment to human activities in the arid Minqin oasis, Northwest China. Huo ZL, Feng SY, Kang SZ, Dai XQ, Li WC, Chen SJ. Arid Land Research and Management, 2007,21, 21-36
30 Modeling solute transport in one-dimensional homogeneous and heterogeneous soil columns with continuous time random walk. Xiong YW, Huang GH, Huang QZ. Journal of Contaminant Hydrology, 2006, 86: 163-175
31 Modeling soil water retention curve with a fractal method. Huang GH, Zhang RD, Huang QZ. Pedosphere, 2006, 16: 137-146
32 Non-Darcian flow in a single vertical fracture toward a well. Wen Z, Huang GH, Zhan HB. Journal of Hydrology, 2006, 330: 698-708
33 Modeling contaminant transport in homogeneous porous media with fractional advection-dispersion equation. Huang GH, Huang QZ, Zhan HB, Chen J, Xiong YW, Feng SY. Science in China, Ser. D Earth Sciences 2005, 48: 295-302
34 Sustainable Soil Use in the UK. Nigel W, Huang QZ, K. Yilmaz et al. LANDWARDS, 2005,60(3): 13-21
35 Modeling soil water regime and corn yields considering climatic uncertainty. Huang GH. Plant and Soil , 2004, 259 (1-2): 221-229
36 Stochastic analysis of unsaturated flow with the log- normal distribution of Hydraulic conductivity. Huang GH, Zhang RD. J. Hydrodynamics, Ser. B, 2003, 6: 1-15
37 北京地区典型冷季型草坪草灌水量模拟研究. 刘丽芳, 黄冠华, 何建平, 李绍森, 汪宏玲. 农业工程学报, 2009, 25(1), 64-68.
38 再生水滴灌对灌水器堵塞影响的实验研究 刘海军, 黄冠华, 王鹏超, 农业工程学报, 2009, 25(9): 15-20
39 喷灌冬小麦耗水与棵间蒸发试验. 于利鹏, 黄冠华, 刘海军, 王相平, 王明强. 中国农业科学, 2009, 42(9): 3179-3186
40 网室内作物蒸散量的变化和影响要素研究. 刘海军, 黄冠华, Shabtai Cohen , Josef Tanny. 中国生态农业学报, 2009, 17(3): 484−488
41 考虑弥散尺度效应的溶质径向运移动力学模型及半解析解. 高光耀, 冯绍元, 霍再林, 詹红兵, 黄冠华. 水利学报, 2009, 24(2): 156-161
42 承压含水层中大口井附近非达西流近似解析解与数值解. 文章, 黄冠华, 李健, 詹红兵. 水利学报, 2009, 40, 864-869
43 承压含水层中“扩展”井附近非达西流数值解. 文章, 黄冠华, 李健, 詹红兵. 水利学报, 2009, 40, 398-402
44 越流含水层中抽水井附近非达西流数值解. 文章, 黄冠华, 李健, 詹红兵. 水动力学研究与进展, 2009, 24, 447-454
45 承压含水层中抽水井附近非达西流近似解析解. 文章, 黄冠华, 李健, 詹红兵. 水利学报, 2008, 39(7): 815-821
46 两种不同介质中非达西流实验研究. 李健, 黄冠华, 文章, 詹红兵. 水利学报, 2008, 39(6): 726-732
47 用涡度相关法测定网室内香蕉树蒸散量. 刘海军, 黄冠华, Josef Tanny, Shabtai Cohen. 农业工程学报, 2008, 24(9): 1-5
48 饱和非均质土壤中溶质大尺度运移的两区模型模拟. 高光耀, 冯绍元, 黄冠华. 土壤学报, 2008, 45(3): 398-404
49 盐分对土壤氮转化的影响. 李建兵,黄冠华. 环境科学研究, 2008, 21(5): 98-103
50 温室内香蕉树蒸腾量预报的试验研究. 刘海军, 黄冠华, Josef Tanny, Shabtai Cohen. 农业工程学报, 2007, 3: 174-179
51 应用热扩散法测定香蕉树蒸腾速率. 刘海军, Shabtai COHEN, Josef TANNY, 黄冠华. 应用生态学报, 2007, 18 (1): 35-40
52 一维均质与非均质土柱中溶质迁移的分数微分对流-弥散模拟. 陈静, 黄冠华, 黄权中. 水科学进展, 2006, 3: 299-304
53 非均质土柱中溶质迁移的连续时间随机游走模拟. 熊云武, 黄冠华, 黄权中. 水科学进展, 2006, 6:797-802
54 非均质土柱中溶质迁移的连续时间随机游走模拟. 熊云武, 黄冠华, 黄权中. 水科学进展, 2006, 6: 797-802
55 短期再生水灌溉对土壤-作物中重金属分布影响的试验研究. 巫常林, 黄冠华, 刘洪禄, 吴文勇, 许翠平. 农业工程学报, 2006, 22(7): 91-96
56 NaCl对粉壤土氨挥发和硝化反硝化的影响. 李建兵,黄冠华. 农业环境科学学报, 2006, 25(4): 945-948
57 均质介质中污染物迁移的分数微分对流—弥散模拟. 黄冠华, 黄权中, 詹红兵, 陈静, 熊云武, 冯绍元. 中国科学D辑, 地球科学, 2005, 35(增刊I): 249-254
58 污水灌溉对土壤浸提液元素浓度变化影响的田间试验研究. 李法虎, 黄冠华, 邓健. 农业工程学报, 2005, 21(11): 124-129
59 冬小麦再生水灌溉条件下水分与氮素利用效率的研究. 黄冠华, 查贵峰, 冯绍元, 齐志明. 农业工程学报, 2004, 1: 65-68
60 NaCl对夏玉米吸氮和生长影响的试验研究. 刘志伟, 黄冠华. 植物营养与肥料学报, 2004, 2: 132-136
61 水力传导度空间变异性的分形模拟研究进展. 黄冠华, Hongbin Zhan, 叶自桐. 水科学进展, 2003,14(2): 236-241
62 污水灌溉条件下草坪草需水规律与灌溉制度初步研究. 杨建国, 黄冠华, 黄权中, 刘红, 何建平, 孟光辉. 草地学报, 2003, 11(4): 329-333
63 夏玉米污水灌溉条件下水分与氮素利用效率的研究. 查贵峰, 黄冠华, 冯绍元, 齐志明. 夏玉米污水灌溉条件下水分与氮素利用效率的研究.
64 污水灌溉对草坪土壤与植株氮含量影响的试验研究. 黄冠华, 杨建国, 黄权中. 农业工程学报, 2002, 18(3): 22-25
65 土壤颗粒分形特征及其应用. 黄冠华, 詹卫华. 土壤学报, 2002, 39(4): 490-497
66 土壤水分特性曲线的分形模拟. 黄冠华, 詹卫华. 水科学进展, 2002, 13(1): 55-60
67 土壤水力特性分形特征的研究进展. 詹卫华, 黄冠华. 水科学进展, 2000: 11(4) 457-462
# 专利名称 作者 专利号
1 草坪污水灌溉系统[P]. 黄冠华,杨建国,黄权中. 北京:CN1526271,2004-09-08.
2 一种灌水量测量报警装置[P]. 黄冠华,李永强,刘婴谷,郑耀泉. 北京:CN2840220,2006-11-22.
3 一种便携式灌水量测量报警装置[P]. 黄冠华,傅德永,刘婴谷,郑耀泉. 北京:CN2867310,2007-02-07.
4 一种模拟抽水井附近非达西流动的试验装置[P]. 黄冠华,文章,李健,黄权中. 北京:CN101046438,2007-10-03.
5 一种测量饱和土壤溶液中盐分浓度的装置[P]. 黄冠华,孙宇瑞,黄权中,马道坤,熊云武,王开丽. 北京:CN101144788,2008-03-19.
6 一种太阳能抽水蓄能的智能滴灌系统[P]. 黄权中,黄冠华,江政,郝远远,张慧萌,任东阳,李维垚. 北京:CN103828696A,2014-06-04.
7 一种点阵式土壤负压/含水量测量装置[P]. 黄权中,黄冠华,张奥,徐旭,熊云武,刘冰倩,李维垚,于兵. 北京:CN103837665A,2014-06-04.
# 软件著作权 登记号
1 农业水文-生态系统模拟软件 农业水文-生态系统模拟软件,
2 土壤水氮迁移转化与作物生长耦合模拟模型软件 登记号:2010SRBJ3455
3 土壤水氮迁移转化与作物生长耦合模拟模型软件V1.0 登记号:2010SRBJ3400
4 农田排水再利用软件V1.0 登记号:2009SRBJ0933
5 溶质迁移的FADE模拟软件V1.0 登记号:2009SRBJ2609

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