发表的主要论文
| # | 论文标题 | 作者 | 期刊 |
|---|---|---|---|
| 1 | Analytical expressions of drainable and fillable porosity for layered soils under shallow groundwater environments. | Xiao X., X. Xu, G. Huang. | Water Resources Research, 2022, 58, e2021WR030682 |
| 2 | Effects of lignite bioorganic product on sunflower growth, water and nitrogen productivity in saline-sodic farmlands at Northwest China. | Chen Z., Y. Li, X. Zhang, Y. Xiong, Q. Huang, S. Jin, S. Sun, D. Chi, G. Huang. | Agricultural Water Management, 2022, 271, 107806 |
| 3 | Effects of organic amendment incorporation on maize (Zea mays L.) growth, yield and water-fertilizer productivity under arid conditions. | Zhang W., Y. Xiong, Y. Li, Y. Qiu, G. Huang. | Agricultural Water Management, 2022, 269, 107663 |
| 4 | Modeling and assessing water and nutrient balances in a tile-drained agricultural watershed in the U.S. Corn Belt. | Wang R., G. Huang, X. Xu, D. Ren, J. Gou, Z. Wu. | 4.Agricultural Water Management, 2022, 267, 107637 |
| 5 | A novel efficient method for land cover classification in fragmented agricultural landscapes using sentinel satellite imagery. | Li X., C. Sun, H. Meng, X. Ma, G. Huang, X. Xu. | Remote Sensing, 2022, 14, 2045 |
| 6 | A classification-based spatiotemporal adaptive fusion model for the evaluation of remotely sensed evapotranspiration in heterogeneous irrigated agricultural area. | Wang S., C. Wang, C. Zhang, J. Xue, P. Wang, X. Wang, W. Wang, X. Zhang, W. Li, G. Huang, Z. Huo. | Remote Sensing of Environment, 2022, 273, 112962 |
| 7 | Spatio-temporal variation of irrigation water requirements for wheat and maize in the Yellow River Basin, China, 1974–2017. | Liu Y., Y. Lin, Z. Huo, C. Zhang, C. Wang, J. Xue, G. Huang. | Agricultural Water Management, 2022, 262, 107451 |
| 8 | Modeling and assessing water and nutrient balances in a tile-drained agricultural watershed in the U.S. Corn Belt. | Ren D., B. Engel, J. A. Vera Mercado, T. Guo, Y. Liu, G. Huang, | Water Research, 2022, 210, 117976 |
| 9 | Effects of the lignite bioorganic fertilizer on greenhouse gas emissions and pathways of nitrogen and carbon cycling in saline-sodic farmlands at Northwest China. | Chen ZJ, Huang GH*, Li Y, Zhang XC, Xiong YW, Huang QZ, Jin S. | Journal of Cleaner Production, 2022, 130080. |
| 10 | Estimating sunflower canopy conductance under the influence of soil salinity. | Wang WS, Rong Y, Wang XW, Wang CZ, Zhang CL, Huo ZL*, Huang GH. | Agricultural and Forest Meteorology. 2022, 314: 108778. |
| 11 | Effects of irrigation and fertilization on grain yield, water and nitrogen dynamics and their use efficiency of spring wheat farmland in an arid agricultural watershed of Northwest China. | Li Y, Huang GH*, Chen ZJ, Xiong YW, Huang QZ, Xu X, Huo ZL. | Agricultural Water Management, 2022, 260. |
| 12 | Pore-network model to quantify internal structure and hydraulic characteristics of randomly packed grains with different morphologies. | Xiong YW*, Dong L, Long XX, Chen MH, Huang GH. | Granular Matter, 2022, 24. |
| # | 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 |
| 10 | Modeling agro-hydrological processes and analyzing water use in a super-large irrigation district (Hetao) of arid upper Yellow River basin. | Xiong LY, Xu X, Engel B, Huang QZ, Huo ZL, Xiong YW, Han WG, Huang GH. | Journal of Hydrology, 2021, 603: 127014. |
| 11 | Impact of short-term organic amendments incorporation on soil structure and hydrology in semiarid agricultural lands. | Dong L, Zhang WT, Xiong YW*, Zou JY, Huang QZ, Xu X, Ren P, Huang, GH. | International Soil and Water Conservation Research, 2021. |
| 12 | Parameterization and modeling of paddy rice (Oryza sativa L. ssp. japonica) growth and water use in cold regions: Yield and water-saving analysis. | Gao Y, Xu X*, Sun C, Ding SB, Huo ZL, Huang GH. | Agricultural Water Management, 2021, 250: 106864. |
| 13 | Evaporation-induced salt crystallization and feedback on hydrological functions in porous media with different grain morphologies. | Dong L, Xiong YW*, Huang QZ, Xu X, Huo ZL, Huang GH. | Journal of Hydrology, 2021, 598: 126427. |
| 14 | Comparison of ensemble data assimilation methods for the estimation of time-varying soil hydraulic parameters. | Kun L, Huang GH*, Simunek JJ, Xu X, Xiong YW, Huang QZ. | Journal of Hydrology,2021, 125729. |
| 15 | A simulation-based optimization model for watershed multi-scale irrigation water use with considering impacts of climate changes. | Jiang Y, Xiong LY, Xu ZX*, Huang, GH. | Journal of Hydrology, 2021, 598: 126395. |
| 16 | Impact of biochar and lignite‐based amendments on microbial communities and greenhouse gas emissions from agricultural soil. | Li CJ, Xiong YW*, Zou JY, Dong L, Ren P, Huang GH. | Vadose Zone Journal, 2021, 20. |
| 17 | Improved analytical expressions for transient specific yield in shallow groundwater drainage. | Xiao X, Xu X*, Huang GH. | Journal of Hydrology, 2021, 597: 126186. |
| 18 | Modeling the effects of temperature on the migration and transformation of nitrate during riverbank filtration using HYDRUS-2D. | Pan WY, Huang QZ*, Huang GH, Xing LT. | Science of The Total Environment, 2021, 783: 146656. |
| 19 | Variation and attribution of water use efficiency in sunflower and maize fields in an irrigated semi‐arid area. | Wang WS, Wang XW, Huo ZL*, Rong Y, Huang QZ, Huang GH. | Hydrological Processes, 2021, 35. |
| 20 | Pedotransfer functions for estimating soil water retention properties of northern China agricultural soils: Development and needs*. | Xu X, Li HW, Sun C, Ramos T, Darouich H, Xiong YW, Qu ZY, Huang GH.. | Irrigation and Drainage, 2021, 70. |
| 21 | 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. |
| 22 | A semianalytical solution of the modified two‐dimensional diffusive root growth model. | Wang J, Huang GH, Zhan HB, Mohanty B. Li JS, Zotarelli L. | Vadose Zone Journal, 2021, 20. |
| 23 | 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. |
| # | 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 |