References

  1. S.Z. Peng, R.J. Ji, S.H. Yang, Construction and prospect of water-saving ecological irrigation district, Prog. Water Resour. Hydropower Sci. Technol., 34 (2014) 1–7.
  2. A. Brookers, Restoration and enhancement of engineered river channels: some European experience, Regulated River Res. Manage., 5 (1990) 45–56.
  3. B.J. Gu, C. Wang, P.F. Wang, Preliminary study on the concept and construction measures of ecological irrigation district, China Rural Water Hydropower, 12 (2005) 7–9.
  4. Z.P. Zhang, X. Han, Basic connotation of ecological irrigation district and evaluation index system, J. Anhui Agric. Sci., 37 (2009) 8621–8623.
  5. Z. Mao, Advocating the construction of a water-saving and ecological irrigation area, China Water Resour., (2004) 22–23.
  6. K.P. Jiang, Thoughts on the construction of ecological irrigation district, China Rural Water Hydropower, 2 (2004) 4–10.
  7. P.L. Yang, Y.K. Li, X.H. Zeng, Theoretical basis and supporting technology system of ecological irrigation district construction, China Water Resour., 14 (2009) 32–35, 52.
  8. Q.T. Zuo, X.Y. Zhang, Dynamic carrying capacity of water resources under climate change, J. Hydraul. Eng., 46 (2015) 387–395.
  9. X.Y. Zhang, X.F. Du, J.X. Xu, Analysis of water resources carrying capacity of Dagong irrigation area based on ecology, Yellow River, 41 (2019) 49–52, 57.
  10. K.Q. Zhao, Set Pair Analysis and Its Preliminary Application, Zhejiang Science and Technology Press, Hangzhou, 2000, pp. 9–42, 162–187.
  11. X.Y. Zhang, Q.X. Yang, X.F. Du, J. Tian, Application of set pair analysis model based on maximum similarity rules in groundwater level prediction, Desal. Water Treat., 121 (2018) 244–249.
  12. Z.L. Wang, N.N. Li, X.Q. Zhang, Assessment of regional water resources carrying capacity based on set pair analysis, Yellow River, 33 (2011) 40–42.
  13. W.S. Wang, Y.Q. Li, J.L. Jin, J. Ding, Set Pair Analysis of Hydrology and Water Resources, Science Press, Beijing, 2010, pp. 11–32, 72–90.
  14. S. Deka, O.P. Tripathi, A. Paul, Perception-based assessment of ecosystem services of Ghagra Pahar forest of Assam, Northeast India, Geol. Ecol. Landscapes, 3 (2019) 197–209, doi: 10.1080/24749508.2018.1553020.
  15. N.F.H. Nordin, T.S.H. Tg Mahassan, A.J.K. Chowdhury, Bacterial population study in oil-contaminated and uncontaminated soils, J. Clean WAS, 2 (2018) 06–09.
  16. D.M.E. Haque, T. Hayat, S. Tasnim, Time series analysis of subsidence in Dhaka City, Bangladesh using insar, Malaysian J. Geosci., 3 (2019) 32–44.
  17. S.H. Abd El-Aziz, Application of traditional method and water quality index to assess suitability of groundwater quality for drinking and irrigation purposes in south-western region of Libya, Water Conserv. Manage., 2 (2018) 20–30.
  18. T.J. Ogunkunle, O.A. Oyelami, A.O. Adepoju, Study of the phytodiversity along Antorun reservoir, near Ogbomoso, Nigeria, Environ. Ecosyst. Sci., 3 (2019) 1–12.
  19. H.W. Wang, X. Zhang, J.N. Qiu, Application of fuzzy set pair analysis in water resources safety assessment, J. Northwest Univ. Agric. For., 39 (2011) 209–214.
  20. B.H. Men, H.L. Liu, Evaluation of sustainable utilization of water resources in Beijing, Tianjin and Hebei based on fuzzy set pair analysis, J. North China Univ. Water Resour. Hydropower, 39 (2018) 79–88.
  21. H.B. Liu, Z.L. Liu, Recycling utilization patterns of coal mining waste in China, Resour. Conserv. Recyl., 54 (2010) 1331–1340.
  22. L. Kang Le, H.L. Du, X. Du, H.T. Wang, W.L. Ma, M.L. Wang, F.B. Zhang, Study on dye wastewater treatment of tunable conductivity solid-waste-based composite cementitious material catalyst, Desal. Water Treat., 125 (2018) 296–301.
  23. H. Wang, X.Q. An, Z.Y. Zhang, Effect of advanced treatment on ammonia nitrogen contained in secondary effluent from wastewater treatment plant, Fresen. Environ. Bull., 27 (2018) 2043–2050.
  24. H. Wang, H.Y. Zhong, G.Z. Bo, Existing forms and changes of nitrogen inside of horizontal subsurface constructed wetlands, Environ. Sci. Pollut. Res., 25 (2018) 771–781.
  25. S.K. Mandal, N. Das, Biodegradation of perylene and benzo [ghi] perylene (5–6 rings) using yeast consortium: Kinetic study, enzyme analysis and degradation pathway, J. Environ. Biol., 39 (2018) 5–15.
  26. J.Z. Wang, G.H. Zhang, J.M. Shen, Discussions on the basis and principles for selecting evaluation indexes of groundwater function, Hydrogeol. Eng. Geol., (2008) 76–81.
  27. J.H. Wang, Z.L. Zhai, X.F. Sang, Index system and evaluation criteria of water resources carrying capacity, J. Hydraul. Eng., 48 (2017) 1–7.
  28. X.C. Fan, M.C. Lyu, X.S. Wang, The concept, attribute and index system of ecological irrigation area, China Water Resour., 11 (2018) 51–53.
  29. H.J. Lei, X. Liu, H.W. Pan, Application comparison of water resources carrying capacity evaluation methods in irrigation districts, Chin. Agric. Sci. Bull., 29 (2013) 178–182.
  30. W. Wang, The Comprehensive Evaluation Index System and Evaluation Method of Ecological Irrigation Area, Zhejiang University, Zhejiang, 2015.
  31. X. Deng, J.M. Li, H.J. Zeng, Analytical hierarchy process weight calculating method and its application, Math. Pract. Theory, 42 (2012) 93–100.
  32. X.J. Dai, W. Tian, Selection of weighting method in water quality fuzzy evaluation model, J. Graduate Univ. Chin. Acad. Sci., 28 (2011) 169–176.
  33. X.Q. Zhang, C. Liang, Application of fuzzy matter element model based on entropy weight in comprehensive evaluation of water quality, J. Hydraul. Eng., 36 (2005) 1057–1061.
  34. W.H. Cao, Z. Guo, Optimization Techniques and Realization of Matlab, Chemical Industry Press, Beijing, 2005.