1. Zhao Y, Zhang M, Liu Z, et al. How Human Activities Affect Groundwater Storage[J]. Research, 2024, 7: 0369. (IF=11.036) (SCI一区)

2. Lan, Y., Gai, S., Cheng, K., Liu, Z., Antonietti, M., & Yang, F. Artificial Humic Acid Mediated Carbon–Iron Coupling to Promote Carbon Sequestration[J]. Research, 2024, 7: 0308.(2024). (IF=11.036) (SCI一区)

3. Yang, F., Lan, Y., Li, R., Fu, Q., Cheng, K., Liu, Z., & Antonietti, M. Anthropogenic soil as an environmental material, as exemplified with improved growth of rice seedlings[J]. Carbon Research, 2024, 3(1): 46.(中科院一区)

4. Shuang Gai, Bing Liu, Yibo Lan, Lin Han, Yixiong Hu, Guanghao Dongye, Kui Cheng, Zhuqing Liu, Fan Yang, Artificial humic acid coated ferrihydrite strengthens the adsorption of phosphate and increases soil phosphate retention[J]. Science of The Total Environment, 2024, 915: 169870. (IF=10.753) (SCI一区)

5. Jin Y, Yuan Y, Liu Z, et al. Effect of humic substances on nitrogen cycling in soil-plant ecosystems: Advances, issues, and future perspectives[J]. Journal of Environmental Management, 2024, 351: 119738. (IF=8.91) (SCI一区)

6. Zhao, Y., Hao, Y., Cheng, K., Wang, L., Dong, W., Liu, Z., & Yang, F. Artificial humic acid mediated migration of phosphorus in soil: Experiment and modelling[J]. Catena, 2024, 238: 107896. (IF=6.2) (SCI一区)

7. Zhao, Y., Song, J., Cheng, K., Liu, Z., & Yang, F. Migration and remediation of typical contaminants in soil and groundwater: A state of art review[J]. Land Degradation & Development, 2024, 35(8): 2700-2715. (IF=4.4) (SCI一区)

8. Yue, Yuan., Qingyu, Liu., ZHANG, S., Zhuqing, Liu., ZHANG, X., CHENG, K., & Fan, Yang. Exogenous application of artificial humic substance can improve soil properties and rice yield[J]. Pedosphere, 2024. (IF＝5.7) (SCI一区)

9. Chen, W., Xiang, Q., Li, Y., & Liu, Z. On the mechanisms of pressure drop and viscous losses in hydrofoil tip-clearance flows[J]. Energy, 2023, 269: 126712. (IF=9.0) (SCI一区)

10. Chen W, Li Y, Liu Z, et al. Understanding of energy conversion and losses in a centrifugal pump impeller[J]. Energy, 2023, 263: 125787. (IF=9.0) (SCI一区)

11. Peng X X, Gai S, Liu Z, et al. Effects of Fe3+ on hydrothermal humification of agricultural biomass[J]. ChemSusChem, 2024, 17(4): e202301227. (IF=9.140) (SCI二区)

12. Tang C, Gai S, Liu Z, et al. Sustainable phosphorus recycling: A review of advanced recovery methods with a focus on hydrothermal humification technology and potential phosphorus resources in China for this method[J]. Soil Use and Management, 2024, 40(1): e13001. (IF= 3.8) (SCI二区)

13. Zhao Y, Hao Y, Liu Z, et al. Effect of soil management practice on soil phosphorus dynamics: A meta‐analysis[J]. Soil Use and Management, 2024, 40(1): e12986. (IF=3.8) (SCI三区)

14. Zhao Y, Zhang M, Liu Z, et al. Migration and transformation of soil phosphorus by organic acids: A global meta-analysis[J]. Journal of Soils and Sediments, 2024, 24(2): 589-602. (IF=3.6) (SCI三区)

15. F. Yang*, Q. Fu, M. Antonietti*, Anthropogenic, carbon-reinforced soil as a living engineered material, Chemical Reviews, 123(2023)2420-2435. (IF=72.087) (SCI一区)

16. F. Yang*, C. Tang, M. Antonietti*, Natural and artificial humic substances to manage minerals, ions, water, and soil microorganisms, Chemical Society Reviews, 50(2021)6221-6239. (IF=60.615) (SCI一区)

17. F. Yang*, M. Antonietti*, The sleeping giant: A polymer view on humic matter in synthesis and applications, Progress in Polymer Science, 100(2020)101182. (IF=31.281) (SCI一区)

18. F. Yang*, M. Antonietti*, Artificial humic acids: sustainable materials against climate change, Advanced Science, 7(2020)1902992. (IF=17.521) (SCI一区)

19. F. Yang*, S. Zhang, J. Song, Q. Du, G. Li, N. Tarakina, M. Antonietti*, Synthetic humic acids solubilize otherwise insoluble phosphates to improve soil fertility, Angewandte Chemie International Edition, 58(2019)18813-18816. (IF=16.823) VIP paper (<5%) (SCI一区)

20. K. Liu*, B. Badamdorj, F. Yang*, M. J. Janik *, M. Antonietti*, Accelerated anti-markovnikov alkene hydrosilylation with humic-acid-supported electron-deficient platinum single atoms, Angewandte Chemie International Edition, 60(2021)2-9. (IF=16.823) (SCI一区)

21. S. Zhang, Q. Du, K. Cheng, M. Antonietti*, F. Yang*, Efficient phosphorus recycling and heavy metal removal from wastewater sludge by a novel hydrothermal humification-technique, Chemical Engineering Journal, 394(2020)124832. (IF=16.744) (SCI一区)

22. Q. Du, S. Zhang, J. Song, Y. Zhao, F. Yang*, Activation of porous magnetized biochar by artificial humic acid for effective removal of lead ions. Journal of Hazardous Materials, 389(2020)122115 (IF=14.224) (SCI一区)

23. X. Peng, S. Gai, K. Cheng, F. Yang*, Roles of humic substances redox activity on environmental remediation, Journal of Hazardous Materials, 435(2022)129070. (IF=14.224) (SCI一区)

24. Q. Du, G. Li, S. Zhang, J. Song, Y. Zhao, F. Yang*, High-dispersion zero-valent iron particles stabilized by artificial humic acid for lead ions removal, Journal of Hazardous Materials, 383(2020)121170. (IF=14.224) (SCI一区)

25. F. Yang*, Q. Du, L. Sui, K. Cheng, One-step fabrication of artificial humic acid-functionalized colloid-like magnetic biochar for rapid heavy metal removal, Bioresource Technology, 328(2021)124825. (IF=11.889) (SCI一区)

26. Q. Du, S. Zhang, M. Antonietti*, F. Yang*, Sustainable leaching process of phosphates from animal bones to alleviate the world phosphate crisis, ACS Sustainable Chemical& Engineering,  8(2020)9775-9782. (IF=9.224) (SCI一区)

27. C. Tang, F. Yang*, M. Antonietti*. Carbon materials advancing microorganisms in driving soil organic carbon regulation, Research, (2022)9857374. (IF=11.036) (SCI一区)

28. F. Yang*, S. Zhang, K. Cheng, M. Antonietti*, A hydrothermal process to turn waste biomass into artificial fulvic and humic acids for soil remediation, Science of the Total Environment, 686(2019)1140-1151. (IF=10.753) (SCI一区)

29. F. Yang*, N. Tarakina, M. Antonietti*, A stunt of sustainability: artificial humic substances can generate and stabilize single Fe species on mineral surfaces, ChemSusChem, 16(2023)e202300385. (IF=9.140) (SCI二区)

30. X. Peng, S. Gai, Z. Liu, K. Cheng, F. Yang*, Effects of Fe3+on hydrothermal humification of agricultural biomass., ChemSusChem, 17(2023)e202301227. (IF=9.140) (SCI二区)

31. S. Zhang, J. Song, Q. Du, Kui Cheng, F. Yang*, Analog synthesis of artificial humic substances for efficient removal of mercury, Chemosphere, 250(2020)126606. (IF=8.943) (SCI二区)

32. C. Tang, Y. Li, J. Song, M. Antonietti*, F. Yang*, Artificial humic substances improve microbial activity for binding CO2, iScience, 24(2021)102647. (IF=6.107) (SCI二区)

33. F. Yang*, S. Zhang, Q. Fu, M. Antonietti*, Conjugation of artificial humic acids with inorganic soil matter to restore land for improved conservation of water and nutrients, Land Degradation and Development, 31(2020)884-893. (IF=4.377) (SCI一区)

34. C. Tang, K. Cheng, B. Liu, M. Antonietti, F. Yang*. Artificial humic acid facilitates biological carbon sequestration under freezing-thawing conditions, Science of the Total Environment, 849(2022)157841. (IF=10.753) (SCI一区)

35. T. Lian*, Y. Wang, B. Wu, K. Liu, F. Yang, M. Antonietti, ‘Green-to-Green’: Iron oxides embedded in lignin-based carbon scaffolds for water remediation via oxidation excluding free-radical pathways, Journal of Hazardous Materials, 442(2023)130070 (IF=14.224) (SCI一区)

36. C. Tang, B. Liu, K. Cheng, M. Antonietti*, F. Yang*, Moderating carbon dynamics in black soil by combined application of biochar and artificial humic substance, Land Degradation&Development, 34(2023)1352-1362. (IF=4.377) (SCI一区)

37. Y. Yuan, C. Tang, Y. Xu, K. Cheng*, F. Yang*, Contribution of exogenous humic substances to phosphorus availability in soil-plant ecosystem: A review, Critical Reviews in Environmental Science and Technology, 53(2022)1085-1102. (IF=11.75) (SCI一区)

38. Y. Yuan, S. Gai, C. Tang, Y. Jin, K. Cheng, M. Antonietti, F. Yang*, Artificial humic acid improves maize growth and soil phosphorus utilization efficiency, Applied Soil Ecology, 179(2022)104587. (IF=5.509) (SCI二区)

39. K. Liu*, B. Badamdorj, F. Yang, M. J. Janik*, M. Antonietti*, Water acting as a catalytic promoter for electron-proton transfer in the Pt single atom catalyzed environmental reduction reactions, Applied Catalysis B: Environmental, 316(2022) 121641. (IF=24.319) (SCI一区)

40. F. Yang*, Y. Yuan, Q. Liu, X. Zhang, S. Gai, Y. Jin, K. Cheng, Artificial humic acid promotes growth of maize seedling under alkali conditions, Environmental Pollution, 327(2023)121588. (IF=9.988) (SCI一区)

41. X. Peng, S. Gai, K. Cheng, F. Yang*, Hydrothermal humification mechanism of typical agricultural waste biomass: A case study of corn straw, Green Chemistry, 25(2023)1503-1512. (IF=11.034) (SCI一区)

42. S. Ai, X. Meng, Z. Zhang, R. Li, W. Teng, K. Cheng*, F. Yang *, Artificial humic acid regulates the impact of fungal community on soil macroaggregates formation, Chemosphere, 332(2023)138822. (IF=8.943) (SCI二区)

43. Y. Jin, X. Zhang, Y. Yuan, Y. Lan, K. Cheng*, F. Yang *, Synthesis of artificial humic acid-urea complex improves nitrogen utilization, Journal of Environmental Management, 344(2023)118377. (IF=8.91) (SCI二区)

44. Y. Jin, Y. Yuan, Z. Liu, S. Gai, K. Cheng*, F. Yang *, Effect of humic substances on nitrogen cycling in soil-plant ecosystems: Advances, issues, and future perspectives, Journal of Environmental Management, 351(2024)119738. (IF=8.91) (SCI一区)

45. Z. Zhang, S. Ai, W. Teng, X. Meng, R. Li, F. Yang*, K. Cheng*, Artificial carbon materials’ impact on soil fertility and greenhouse gas emission, Journal of Soils and Sediments, 24(2024)1623-1638. (IF=3.6) (SCI三区)

46. Y. Lan, S. Gai, K. Cheng*, Z. Liu*, M. Antonietti. F. Yang*, Artificial humic acid mediated carbon-iron coupling to promote carbon sequestration, Research, 7(2024)0308. (IF=11.036) (SCI一区)

47. Y. Lan, Q. Fu, K. Cheng*, Z. Liu*, M. Antonietti. F. Yang*, Anthropogenic soil as an Environmental Material, as exemplified with improved growth of rice seedlings, Carbon Research, 344(2024)118377 (IF=3.6) (中科院一区)

48. Y Yuan, Q. Liu, S. Zhang, Z. Liu*, X. Zhang, K. Cheng, F. Yang*, Exogenous application of artificial humic substance can improve soil properties and rice yield, Pedosphere, 344(2024)118377. (IF＝5.7) (SCI二区)

49. Y. Li, M. Zhang, X. Wang, S. Ai, X. Meng, Z. Liu*, F. Yang*, K. Cheng*. Synergistic enhancement of cadmium immobilization and soil fertility through biochar and artificial humic acid-assisted microbial-induced calcium carbonate precipitation, Journal of Hazardous Materials, 476(2024)135140. (IF=14.224)（SCI一区）

50. S. Ai, X. Wang, J. Zhu, X. Meng, Z. Liu*, F. Yang*, K. Cheng*. Microbial community assemblage altered by coprecipitation of artificial humic substances and ferrihydrite: Implications for carbon fixation pathway transformation, Science of the total environment. 951 (2024)174838. (IF=9.800)（SCI一区）

51. X. Peng, R. Li, C. Tang, W. Teng, K. Cheng, Z. Liu, F. Yang*, Effects of artificial humic acid on decomposition of returning straw and enhancement of carbon sequestration, Applied Soil Ecology, 2024, Accept. (IF=4.8) (SCI二区)

52. Y Li, B. Liu, Y. Li, X. Meng, M. Zhang, X. Wang, S Ai, F Yang, K Cheng*, The effect of Pb transformation on the insoluble hematite-humic substance composite material in the presence of Shewanella putrefaciens. Colloids and Surfaces A: Physicochemical and Engineering Aspects (IF 4.9) (SCI二区)

53. S. S. Wang, S. Gai, K. Cheng, Z. Q. Liu*, M. Antonietti*, F. Yang*, Artificial humic acid mediated Fe(II) regeneration to restart Fe(III)/PMS for the degradation of atrazine, Separation and Purification Technology, Major revise. (SCI 一区 TOP, IF= 8.1)

54. H. Qiao, Z Liu, X. Peng, H. Hu, K Cheng*, F Yang*, Significance of humic matters-soil mineral interactions for environmental remediation: A review, Chemosphere, 365 (2024) 143356. (IF 8.1) (SCI二区)

55. X. Peng, K. Cheng , Y. Yuan, S. Chen, Y. Chen, H. Qiao, Z. Liu, F. Yang*, Foliar application of iron strengthened- artificial humic acid promotes nitrogen fixation and improves soybean yield. (2024) Industrial Crops & Products (IF 5.6) (SCI一区)

56. Z. Zhang, Y. Qiao, D. Xie, Z. Liu, Y. Zhao*, F. Yang*, Artificial humic acid promotes carbon sequestration in rice-soil system. Pedosphere, (IF=5.2) (SCI二区)

57. Peixi Tang, Nan Li, Mo Li*, Fan Zhang, Qiang Fu, Yaowen Xu, Dong Liu. Rice irrigation water efficiency improvement: An AquaCrop-based optimization modeling approach. European Journal of Agronomy, 2023, 148,126867. (中科院一区)

58. Mo Li, Yingshan Chen, Dong Liu, Min Xue, Yijia Wang, Qiang Fu. Synergetic management of the water-energy-food nexus for cropland ecosystems under climate change: Toward a multistakeholder-based systematic optimization approach. Renewable Energy, 2024, 220, 119597. (中科院一区)

59. Mo Li, Wuyuan Liu, Qiang Fu, Dong Liu, Tianxiao Li, Yaowen Xu, Ruochen Shang. Multi-layer multi-objective cooperative regulation of agricultural water resources in large agricultural irrigation areas based on runoff prediction. Computers and Electronics in Agriculture, 2023, 208, 107761. (中科院一区)

60. Mo Li, Li Zhao, Chenglong Zhang, Yangdachuan Liu, Qiang Fu. Optimization of agricultural resources in water-energy-food nexus in complex environment: A perspective on multienergy coordination. Energy Conversion and Management, 2022, 258: 115537. (中科院一区)

61. Mo Li, Xiaoxu Cao, Dong Liu, Qiang Fu, Tianxiao Li, Ruochen Shang. Sustainable management of agricultural water and land resources under changing climate and socio-economic conditions: A multi-dimensional optimization approach. Agricultural Water Management, 2022, 259: 107235. (中科院一区)

62. Mo Li, Qiang Fu, Vijay P. Singh, Dong Liu, Tianxiao Li, Yan Zhou. Managing agricultural water and land resources with tradeoff between economic, environmental, and social consideration: a multi-objective non-linear optimization model under uncertainty. Agricultural Systems, 2020, 178: 102685. (中科院一区)

63. Mo Li, Yaowen Xu, Qiang Fu, Vijay P. Singh, Dong Liu, Tianxiao Li. Efficient irrigation water allocation and its impact on agricultural sustainability and water scarcity under uncertainty. Journal of Hydrology, 2020, 586: 124888. (中科院一区)

64. Mo Li, Jiang Li, Vijay P. Singh, Qiang Fu, Dong Liu, Gaiqiang Yang. Efficient allocation of agricultural land and water resources for soil environment protection using a mixed optimization-simulation approach under uncertainty. Geoderma, 2019, 353: 55-69. (中科院一区)

65. Mo Li, Qiang Fu, Vijay P. Singh, Yi Ji, Dong Liu, Chenglong Zhang, Tianxiao Li. An optimal modelling approach for managing agricultural water-energy-food nexus under uncertainty. Science of the Total Environment, 2019, 651: 1416-1434. (中科院一区)

66. Mo Li, Qiang Fu, Vijay P. Singh, Dong Liu, Tianxiao Li. Stochastic multi-objective modeling for optimization of water-food-energy nexus of irrigated agriculture. Advances in Water Resources, 2019, 127: 209-224.(中科院二区)

67. Renjie Hou, Zhongying Qi, Li Tianxiao*, Qiang Fu*, Fanxiang Meng, Dong Liu, Qinglin Li, Hang Zhao, Pengfei Yu. Mechanism of snowmelt infiltration coupled with salt transport in soil amended with carbon-based materials in seasonally frozen areas[J]. Geoderma, 2022, 420: 115882

68. Li Yanxin, Liu Deping, Li Tianxiao*, Fu Qiang*, Liu Dong, Hou Renjie, Meng Fanxiang, Li Mo, Li Qinglin. Responses of spring soil moisture of different land use types to snow cover in Northeast China under climate change background[J]. Journal of Hydrology, 2022, 608: 127610

69. Li Qinglin, Fu Qiang*, Li Tianxiao*, Liu Dong, Hou Renjie, Li Mo, Gao Yu. Biochar impacts on the soil environment of soybean root systems[J]. Science of The Total Environment, 2022, 821: 153421

70. Xu Song, Fu Qiang, Li Tianxiao*, Meng Fanxiang*, Liu Dong, Hou Renjie, Li Mo, Li Qinglin. Spatiotemporal characteristics of the soil freeze-thaw state and its variation under different land use types - A case study in Northeast China[J]. Agricultural and Forest Meteorology,2022, 312: 108737

71. Xue Ping, Fu Qiang, Li Tianxiao*, Liu Dong*, Hou Renjie, Li Qinglin, Li Mo, Meng Fanxiang. Effects of biochar and straw application on the soil structure and water-holding and gas transport capacities in seasonally frozen soil areas[J]. Journal of Environmental Management, 2022, 301(1): 113943

72. Li Yunlong, Fu Qiang, Li Tianxiao*, Liu Dong*, Hou Renjie, Li Qinglin, Ji Yi, Li Mo, Meng Fanxiang. Snow melting water infiltration mechanism of farmland freezing-thawing soil and determination of meltwater infiltration parameter in seasonal frozen soil areas[J]. AGRICULTURAL WATER MANAGEMENT, 2021， 258:107165.

73. Zuo Yutian, Meng Fanxiang, Li Tianxiao*, Fu Qiang, Liu Dong, Hou Renjie, Li Qinglin, Li Mo. Effect of biochar application on freezing-thawing deformation of farmland soil during freeze–thaw cycling[J]. Geoderma, 2022, 405(1): 115510.

74. Yang Xuechen, Liu Deping, Fu Qiang**, Li Tianxiao*, Hou Renjie, Li Qinglin, Li Mo, Meng Fanxiang. Characteristics of greenhouse gas emissions from farmland soils based on a structural equation model: Regulation mechanism of biochar[J]. Environmental Research, 2022, 206, 112303

75. Fu Qiang, Hou Renjie, Li Tianxiao*, Li Yue, Liu Dong, Li Mo. A New Infiltration Model for Simulating Soil Water Movement in Canal Irrigation under Laboratory Conditions[J]. Agricultural Water Management, 2019, 213: 433-444

76. Fu Qiang, Zhao Hang, Li Tianxiao*, Hou Renjie, liu Dong, Ji Yi, Zhou Zhaoqiang, Yang Liyan. Effects of biochar addition on soil hydraulic properties before and after freezing-thawing[J]. Catena, 2019, 176: 112-124

77. Xu Song, Liu Deping, Li Tianxiao*, Fu Qiang*, Liu Dong, Hou Renjie, Meng Fanxiang, Li Mo, Li Qinglin. Spatiotemporal evolution of the maximum freezing depth of seasonally frozen ground and permafrost continuity in historical and future periods in Heilongjiang Province, China[J]. Atmospheric Research, 2022, 274: 106195

78. Li Qinglin, Li Tianxiao, Liu Dong*, Fu Qiang*, Hou Renjie, Cui Song. The effect of biochar on the water-soil environmental system in freezing-thawing farmland soil: The perspective of complexity[J]. Science of the Total Environment, 2022, 807: 150746

79. Li Tianxiao, Yu Pengfei, Liu Dong*, Fu Qiang*, Hou Renjie, Zhao Hang, Xu Song, Zuo Yutian, Xue Ping. Effects of Biochar on Sediment Transport and Rill Erosion after Two Consecutive Years of Seasonal Freezing and Thawing[J]. Sustainability, 2021, 13（13）: 6984.

80. Li Tianxiao, Zhou Zhaoqiang, Fu Qiang*, Liu Dong, Li Mo, Hou Renjie, Pei Wei, Li Linqiu. Analysis of precipitation changes and its possible reasons in Songhua River Basin of China[J]. Journal of Water and Climate Change, 2020, 11(3): 839-864

81. Mu Zhifan, Li Tianxiao, Liu Dong*, Fu Qiang*, Hou Renjie, Li Qinling, Ji Yi, Cui Song, Li Mo. How soil texture, channel shape and cross-sectional area affect moisture dynamics and water loss in irrigation channels [J]. Hydrological Processes, 2021, 35(4): e14155

82. Zhang Liangliang, Li Tianxiao, Liu Dong*, Fu Qiang*, Li Mo, Abrar Faiz Muhammad, Ali Shoaib, Imran Khan Muhammad. Spatial variability and possible cause analysis of regional precipitation complexity based on optimized sample entropy[J]. Quarterly Journal of the Royal Meteorological Society, 2020, 146(732): 3384-3398

83. Wang Zhen, Li Tianxiao, Liu Dong*, Fu Qiang*, Hou Renjie, Li Qinglin, CuiSong, Li Mo. Research on the adsorption mechanism of Cu and Zn by biochar under freeze-thaw conditions[J]. Science of the Total Environment, 2021, 774: 145194

84. Jiang Ruiqi, Li Tianxiao, Liu Dong*, Fu Qiang*, Hou Renjie, Li Qinglin, Cui Song, Li Mo. Soil infiltration characteristics and pore distribution under freezing-thawing conditions[J]. CRYOSPHERE, 2021, 15(4): 2133-2146

85. 李天霄, 付强, 孟凡香. 黑龙江省农业水土资源时空匹配格局研究[J]. 东北农业大学学报, 2017, 48(6): 51-58

86. 李天霄, 付强, 孟凡香, 等. 黑龙江省降水变化趋势及其对农业生产的影响研究[J]. 灌溉排水学报, 2017, 36(5): 103-108

87. 李天霄, 付强, 孟凡香, 等. 区域月降水量周期特征及影响因子分析[J]. 节水灌溉, 2017, (7): 57-60

88. 李天霄, 付强, 孟凡香, 等. 三江平原年降水量1959-2013年演变趋势及突变分析[J]. 中国农村水利水电, 2016, (9): 201-204

89. 李天霄，付强，彭胜民，基于DPSIR模型的水土资源承载力评价，东北农业大学学报，2012, 43（8）：128~134

90. Li Tianxiao, Fu Qiang, Meng Fanxiang, Wang Zilong, Wang Xiaowei.Study on Partial Least-Squares Regression Model of Simulating Freezing DepthBased on Particle Swarm Optimization[J]. Journal of Computers, 2011, 6(3):532~539

91. 李天霄，白雪峰，刘东. 基于AHP的方正县农民用水户协会影响因素评价研究[J]. 节水灌溉, 2011, (7): 1-3，6