References

  1. H.R. Safavi, M.H. Golmohammadi, S. Sandoval-Solis, Expert knowledge based modeling for integrated water resources planning and management in the Zayandehrud River Basin, J. Hydrol., 582 (2015) 773–789.
  2. A. Singh, Irrigation planning and management through optimization modelling, Water Resour. Manage., 28 (2014) 1–14.
  3. B. Yilmaz, N.B. Harmancioglu, An indicator based assessment for water resources management in Gediz River basin, Turkey, Water Resour. Manage., 24 (2010) 4359–4379.
  4. C. Pahl-Wostl, P. Jeffrey, N. Isendahl, M. Brugnach, Maturing the new water management paradigm: progressing from aspiration to practice, Water Resour. Manage., 25 (2011) 837–856.
  5. A.C. Liedloff, E.L. Woodward, G.A. Harrington, S. Jackson, Integrating indigenous ecological and scientific hydrogeological knowledge using a Bayesian Network in the context of water resource development, J. Hydrol., 499 (2013) 177–187.
  6. X.M. Song, F.Z. Kong, C.S. Zhan, Assessment of water resources carrying capacity in Tianjin City of China, Water Resour. Manage., 25 (2011) 857–873.
  7. V. Hackbart, Theory and practice of water ecosystem services valuation: where are we going?, Ecosyst. Serv., 23 (2017) 218–227.
  8. C. Villegas-Palacio, L. Berrouet, C. López, A. Ruiz, A. Upegui, Lessons from the integrated valuation of ecosystem services in a developing country: three case studies on ecological, sociocultural and economic valuation, Ecosyst. Serv., 22 (2016) 279–308.
  9. D.M. Cáceres, E. Tapella, F. Quétier, S. Díaz, The social value of biodiversity and ecosystem services from the perspectives of different social actors, Ecol. Soc., 20 (2015) 62–62.
  10. A. Pan, L. Chen, Decoupling and water footprint analysis of the coordinated development between water utilization and the economy in Hubei, Resour. Sci., 135 (2014) 1531–1544.
  11. C. Bao, D. He, Spatiotemporal characteristics of water resources exploitation and policy implications in the Beijing-Tianjin-Hebei urban agglomeration, Progr. Geogr., 36 (2017) 58–67.
  12. S. Jiang, J. Peng, Y. Song, R. Liu, M. Zhang, Analysis of water footprint and water resources carrying capacity in Shenyang in 2005–2012, J. Environ. Eng. Technol., 7 (2017) 15–23.
  13. Z. Zang, D. Zheng, C. Sun, Dynamic measurement of regional resource carrying capacity and resource load for water resources in Liaoning, Resour. Sci., 37 (2015) 52–60.
  14. H.-Z. Yu, M. Han, Spatial-temporal analysis of sustainable water resources utilization in Shandong Province based on water footprint, J. Nat. Resour., 32 (2017) 474–483.
  15. L. Kanta, E. Zechman, Complex adaptive systems framework to assess supply-side and demand-side management for urban water resources, J. Water Resour. Plann. Manage., 140 (2013) 75–85.
  16. P.M. Reed, D. Hadka, J.D. Herman, J.R. Kasprzyk, J.B. Kollat, Evolutionary multi-objective optimization in water resources: the past, present, and future, Adv. Water Resour., 51 (2013) 438–456.
  17. H.R. Maier, Z. Kapelan, J. Kasprzyk, J. Kollat, L.S. Matott, M.C. Cunha, G.C. Dandy, M.S. Gibbs, E. Keedwell, A. Marchi, A. Ostfeld, D. Savic, D.P. Solomatine, J.A. Vrugt, A.C. Zecchin, B.S. Minsker, E.J. Barbour, G. Kuczera, P.M. Reed, Evolutionary algorithms and other metaheuristics in water resources: current status, research challenges and future directions, Environ. Modell. Software, 62 (2014) 271–299.
  18. J. Liu, T. Dietz, S.R. Carpenter, M. Alberti, C. Folke, E. Moran, A.N. Pell, P. Deadman, T. Kratz, J. Lubchenco, E. Ostrom, Z. Ouyang, W. Provencher, C.L. Redman, S.H. Schneider, W.W. Taylor, Complexity of coupled human and natural systems, Science, 317 (2007) 1513–1516.
  19. Y. Geng, Eco-indicators: improve China’s sustainability targets, Nature, 477 (2011) 162–162.
  20. Q. Yang, B. Zhang, Research on the “Two-Oriented” Social Composite Index and Coordination Development Index, The IEEE International Conference on Information Management and Engineering, IEEE, Chengdu, China, 2010, pp. 476–481.
  21. G.-X. Wang, L.-K. Liang, F. Li, F. Li, S.Y. Jiang, X.W. Duan, An empirical research on the coupling coordinative relationship between regional tourism and informationization, J. Nat. Resour., 31 (2016) 1339–1350.
  22. P.F. Fan, L.T. Liang, Y.P. Li, L.Q. Duan, N.N. Wang, C.Y. Chen, Evaluation of coordinated development of urbanization from the perspective of system coupling in the Beijing-Tianjin-Hebei Region, Resour. Sci., 38 (2016) 2361–2374.
  23. L. Jiang, L. Bai, Y.-M. Wu, Coupling and coordinating degrees of provincial economy, resources and environment in China, J. Nat. Resour., 32 (2017) 788–799.
  24. H. Liu, H.-B. Deng, X.-F. Li, Research on the spatial and temporal difference of coordinated development between population urbanization and land urbanization in Yangtze River economic Belt, China Popul. Resour. Environ., 26 (2016) 160–166.
  25. Q. Yang, Y. Ding, B. de Vries, Q. Han, H. Ma, Assessing regional sustainability using a model of coordinated development index: a case study of mainland China, Sustainability, 6 (2014) 9282–9304.
  26. C.M. Brown, J.R. Lund, X. Cai, P.M. Reed, E.A. Zagona, A. Ostfeld, J. Hall, G.W. Characklis, W. Yu, L. Brekke, The future of water resources systems analysis: toward a scientific framework for sustainable water management, Water Resour. Res., 51 (2015) 6110–6124.
  27. V.K. Moghaddam, F. Changani, A. Mohammadi, M. Hadei, R. Ashabi, L.E. Majd, A.H. Mahvi, Sustainable development of water resources based on waste water reuse and upgrading of treatment plants: a review in the Middle East, Desal. Wat. Treat., 65 (2017) 463–473.
  28. J. Lai, L. Zhang, C. Duffield, A. Lu, Economic risk analysis for sustainable urban development: validation of framework and decision support technique, Desal. Wat. Treat., 52 (2017) 1109–1121.
  29. L. Kanta, E. Zechman, Complex adaptive systems framework to assess supply-side and demand-side management for urban water resources, J. Water Resour. Plann. Manage., 140 (2013) 75–85.