1. W.E. Forum, The Global Risks Report 2017, World Economic Forum, Geneva, 2017, pp. 10–15.
  2. L. Ge, G. Xie, C. Zhang, S. Li, Y. Qi, S. Cao, An evaluation of China’s water footprint, Water Resour. Manage., 25 (2011) 2633–2647.
  3. D. Tan, F. Hu, H. Thieriot, D. McGregor, Towards a Water & Energy Secure China, China Water Risk 2015.
  4. Y. Jiang, China’s water security: current status, emerging challenges and future prospects, Environ. Sci. Policy, 54 (2015) 106–125.
  5. V. Kumar, D.L. Vasto-Terrientes, A. Valls, M. Schuhmacher, Adaptation strategies for water supply management in a drought prone Mediterranean river basin: application of outranking method, Sci. Total Environ., 540 (2016) 344–357.
  6. L. Boithias, V. Acuna, L. Vergonos, G. Ziv, R. Marce, S. Sabater, Assessment of the water supply: demand ratios in a Mediterranean basin under different global change scenarios and mitigation alternatives, Sci. Total Environ., 470–471 (2014) 567–577.
  7. C. Wang, C.D. Whitehead, J. Chen, X. Liu, J. Chu, Options for the future: balancing urban water supply and demand in Beijing, Water Policy, 8 (2006) 97–110.
  8. S.K. Wei, Estimating water deficit and its uncertainties in waterscarce using integrated modeling approach, Water Sci. Eng., 5 (2012) 450–463.
  9. R.F. Bangash, A. Passuello, M. Hammond, M. Schuhmacher, Water allocation assessment in low flow river under data scarce conditions: a study of hydrological simulation in Mediterranean basin, Sci. Total Environ., 440 (2012) 60–71.
  10. C. Li, Y. Wang, G.Y. Qiu, Water and energy consumption by agriculture in the Minqin oasis region, J. Integr. Agric., 12 (2013) 1330–1340.
  11. W.Z. Song, Y. Yuan, Y.Z. Jiang, X.H. Lei, D.C. Shu, Rule-based water resource allocation in the Central Guizhou Province, China, Ecol. Eng., 87 (2016) 194–202.
  12. Y. Zhou, R. Tol, Implications of desalination for water resources in China – an economic perspective, Desalination, 164 (2004) 225–240.
  13. J. Zhao, H. Ni, X. Peng, J. Li, G. Chen, J. Liu, Impact of water price reform on water conservation and economic growth in China, Econ. Anal. Policy, 51 (2016) 90–103.
  14. A. Gu, F. Teng, Y. Wang, China energy-water nexus: assessing the water-saving synergy effects of energy-saving policies during the eleventh five-year plan, Energy Convers. Manage., 85 (2014) 630–637.
  15. Y. Qin, E. Curmi, G.M. Kopec, J.M. Allwood, K.S. Richards, China’s energy-water nexus – assessment of the energy sector’s compliance with the “3 Red Lines” industrial water policy, Energy Policy, 82 (2015) 131–143.
  16. H. Dong, Y. Geng, T. Fujita, M. Fujii, D. Hao, X. Yu, Uncovering regional disparity of China’s water footprint and interprovincial virtual water flows, Sci. Total Environ., 500–501 (2014) 120–130.
  17. P. Wu, C. Xia, F. Liu, Y. Wu, Y. He, An integrated water strategy based on the current circumstances in China, Appl. Math. Modell., 40 (2016) 8108–8124.
  18. J. Blasco, A. Navarro-Ortega, D. Barcelo, Towards a better understanding of the links between stressors, hazard assessment and ecosystem services under water scarcity, Sci. Total Environ., 503–504 (2015) 1–2.
  19. V. Smakhtin, C. Revenga, P. Doll, Taking into Account Environmental Water Requirements in Global-scale Water Resources Assessments, Comprehensive Assessment of Water Management in Agriculture – Report 2, International Water Management Institute (IWWI), 2004, pp. 1–32.
  20. C. Sullivan, J. Meigh, A. Giacomello, The water poverty index: development and application at the community scale, Nat. Resour. Forum, 27 (2003) 189–199.
  21. M. Aldaya, P. Martinez-Santos, M. Llamas, Incorporating the water footprint and virtual water into policy: reflections from the Mancha Occidental Region, Spain, Water Resour. Manage., 24 (2010) 941–958.
  22. A. Hoekstra, A. Chapagain, Water footprint of nations: water use by people as function of their consumption pattern, Water Resour. Manage., 21 (2007) 35–48.
  23. F. Pellicer-Martinez, J.M. Martinez-Paz, The water footprint as an indicator of environmental sustainability in water use at the river basin level, Sci. Total Environ., 571 (2016) 561–574.
  24. J. Gu, G. Huang, P. Guoe, N. Shen, Interval multistage jointprobabilistic integer programming approach for water resources allocation and management, J. Environ. Manage., 128 (2013) 615–624.
  25. M. Hojjat, M. Erik, Z. Mahdi, G. Nick, A new bankruptcy method for conflict resolution in water resources allocation, J. Environ. Manage., 144 (2014) 152–159.
  26. L. Jiang, F. Wu, Y. Liu, X. Deng, Modeling the impacts of urbanization and industrial transformation on water resources in China: an integrated hydro-economic CGE analysis, Sustainability, 6 (2014) 7586–7600.
  27. A. Psomas, Y. Panagopoulos, D. Konsta, M. Mimikou, Designing water efficiency measures in a catchment in Greece using WEAP and SWAT models, Procedia Eng., 162 (2016) 269–276.
  28. D. Yates, J. Sieber, D. Purkey, A. Huber-Lee, WEAP21 – a demand-, priority-, and preference-driven water planning model, Water Int., 30 (2005) 487–500.
  29. G.W. Partnership, Integrated Water Resources Management in Mediterranean, GWP-Med and MIO-ECSDE, Athen, 2002.
  30. L.L. Dale, N. Karali, D. Millstein, M. Carnall, S. Vicuña, N. Borchers, An integrated assessment of water-energy and climate change in Sacramento, California: how strong is the nexus?, Clim. Change, 132 (2015) 223–235.
  31. M. Maliehe, D.M.M. Mulungu, Assessment of water availability for competing uses using SWAT and WEAP in South Phuthiatsana catchment, Lesotho, Phys. Chem. Earth, Parts A/B/C, (2017) 44–57.
  32. V.K. Mehta, O. Aslam, L. Dale, N. Miller, D.R. Purkey, Scenariobased water resources planning for utilities in the Lake Victoria region, Phys. Chem. Earth, Parts A/B/C, 61–62 (2013) 22–31.
  33. M.D. Omar, A.M. Moussa, Water management in Egypt for facing the future challenges, J. Adv. Res., 7 (2016) 403–412.
  34. Y. Li, H. Li, A WEAP-based model for the management of water quality and safety in Xitiaoxi watershed, Adv. Water Sci., 21 (2010) 666–673.
  35. L. Yu, Optimized Allocation of Water Resources in Ningxia Yellow River Basin on WEAP Model, Southwest University, Chongqing, 2014 (in Chinese).
  36. X. Li, Y. Zhao, C. Shi, J. Sha, Z.L. Wang, Y. Wang, Application of Water Evaluation and Planning (WEAP) model for water resources management strategy estimation in coastal Binhai New Area, China, Ocean Coastal Manage., 106 (2015) 97–109.
  37. W. Wan, J. Yin, J. Zhao, X. Lei, W. Liao, T. Qin, Sustainability evaluation of Beijing water deployment model before and after south-to-north water diversion, South-to-North Water Transfer Water Sci. Technol., 14 (2016) 62–69 (in Chinese).
  38. S.T. Li, X.Y. Xu, South-to-North Water Transfer and China Development, Economic Science Press, Beijing, 2004 (in Chinese).
  39. S. Wei, A. Lei, S.N. Islam, Modeling and simulation of industrial water demand in Beijing, Front. Environ. Sci. Eng. China, 4 (2010) 91–101.
  40. M.Y. Han, G.Q. Chen, M.T. Mustafa, T. Hayat, L. Shao, J.S. Li, Embodied water for urban economy: a three-scale input–output analysis for Beijing 2010, Ecol. Modell., 318 (2015) 19–25.
  41. P. Wu, W. Zhang, Water crisis and sustainable water resource utilization in Beijing, J. Liaoning Tech. Univ., 24 (2005) 436–439 (in Chinese).
  42. Z. Wang, K. Huang, S. Yang, Y. Yu, An input–output approach to evaluate the water footprint and virtual water trade of Beijing, China, J. Cleaner Prod., 42 (2013) 172–179.
  43. B.M.S. Bureau, Beijing Statistical Yearbook 2014, China Statistics Press, Beijing, 2014 (in Chinese).
  44. Y. Wang, L. Liu, Water: how much the shortfall in Beijing is? Beijing Stat., 6 (2002) 18–19 (in Chinese).
  45. Group PIB, Beijing’s Water Crisis 1949–2008 Olympics, China Heritage Quart., 2008 (in Chinese).
  46. Authority BW, Beijing Water Resources Bulletin, Beijing, 2014 (in Chinese).
  47. S. Wu, The Research of China’s Water Service Integration System – The Case of Hangzhou, Zhejiang University, 2007 (in Chinese).
  48. J. Sieber, D. Purkey, WEAP User Guide, SEI-US Center, SEI, 2015.
  49. H. Cao, X. Gu, L. Guo, Dynamic disequilibrium and restoration mechanism of Beijing’s water resources in a supply-demand perspective, China Environ. Sci., 35 (2015) 1271–1280 (in Chinese).
  50. A. Falkenma, Society’s interaction with the water cycle: a conceptual framework for a more holistic approach, Hydrol. Sci. J., 42 (1997) 451–466.
  51. H.L. Fu, X.J. Liu, Research on the phenomenon of Chinese Residents’ spiritual contagion for the reuse of recycled water based on SC-IAT, Water, 9 (2017) 846.
  52. Z.G. Li, C. Han, T.Y. Gu, Potential of economic utilization of biomass waste for gasification purposes, Energy Sources Part B. DOI:10.1080/15567249.2017.1410593.
  53. H. Wang, Y. Jia, Theory and study methodology of dualistic water cycle in river basins under changing conditions, Shui Li Xue Bao, 47 (2016) 1219–1226 (in Chinese).
  54. Y. Lu, X. Zhang, S. Chen, L. Shao, H. Sun, Changes in water use efficiency and water footprint in grain production over the past 35 years: a case study in the North China Plain, J. Cleaner Prod., 116 (2016) 71–79.