Abstract
River water has dual functions; it can be withdrawn for agricultural, industrial, and domestic uses and provides eco-environmental water (EEW) for riverine systems. A concept of intensity of ecological function of river water (IEFRW) has been put forward, and an integrated water quantity and quality evaluation method in combination with eco-environmental water requirements has been developed for a river. Based on the monthly data of water quality and quantity as well as the withdrawals during 1997 to 1999, an integrated evaluation of water resources has been conducted for the Yellow River. The results indicated that actual IEFRW can directly reflect the health state of riverine ecosystems. The actual increments of water resources availabilities caused by providing EEW for the riverine systems were lower than the eco-environmental water requirements of the riverine ecosystem, leading to the intermittent interruption of river flow and other eco-environmental problems of the Yellow River.
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Azevedo DL, Gabrief T, Gates TK et al (2000) Integration of water quantity and quality in strategic river basin planning. Water Resour Plann Manage 126(2):85–97. doi:10.1061/(ASCE)0733-9496(2000)126:2(85)
Bhakdisongkhram T, Koottatep S, Towprayoon S (2007) A water model for water and environmental management at Mae Moh Mine area in Thailand. Water Resour Manage 21:1535–1552. doi:10.1007/s11269-006-9103-6
Campbell SG, Hanna RB, Flug M et al (2001) Modeling Klamath River system operations for quantity and quality. Water Resour Plann Manage 127(5):284–294. doi:10.1061/(ASCE)0733-9496(2001)127:5(284)
Croke BFW, Ticehurst JL, Letcher RA, Norton JP, Newham LTH, Jakeman AJ (2007) Integrated assessment of water resources: Australian experiences. Water Resour Manage 21(1):351–373. doi:10.1007/s11269-006-9057-8
Dai T, Labadie JW (2001) River basin network model for integrated water quantity/quality management. Water Resour Plann Manage 127(5):295–305. doi:10.1061/(ASCE)0733-9496(2001)127:5(295)
Falkenmark M (2004) Towards integrated catchment management: opening the paradigm locks between hydrology, ecology and policy-making. Int J Water Resour Dev 20(3):275–281. doi:10.1080/0790062042000248637
Hughes DA, O’Keeffe J, King J (1997) Development of a reservoir release operating rule model to simulate demands for instream flow requirements and water resources. IAHS publication 240:321
Khan S (2004) Integrating hydrology with environment, livelihood and policy issues: the Murrumbidgee model. Int J Water Resour Dev 20(3):415–429. doi:10.1080/0790062042000248538
Koel TM, Sparks RE (2002) Historical patterns of river stage and fish communities as criteria for operations of dams on the Illinois River. River Res Appl 18(1):3–19. doi:10.1002/rra.630
Loomis JB, Quattlebaum K, Brown TC, Alexander SJ (2003) Expanding institutional arrangements for acquiring water for environmental purposes: transactions evidence for the Western United States. Int J Water Resour Dev 19(1):21–28. doi:10.1080/713672720
Luiten JPA, Groot S (1992) Modeling quantity and quality of surface waters in the Netherlands: policy analysis of water management for the Netherlands. Eur Water Pollut Control 2:23–33
Ministry of Water Resources (1980) Guidebook on chemical analysis of inland surface waters. Water Conservancy Press, Beijing, China (in Chinese)
Ministry of Water Resources (1985) Water quality monitoring standard. Water Conservancy Press, Beijing, China (in Chinese)
Paredes J, Lund J (2006) Refill and drawdown rules for parallel reservoirs: quantity and quality. Water Resour Manage 20:359–376. doi:10.1007/s11269-006-0325-4
Plate EJ (1993) Sustainable development of water resources: a challenge to science and engineering. Water Int 18:84–93
Said A (2006) The implementation of a Bayesian network for watershed management decisions. Water Resour Manage 20:591–605. doi:10.1007/s11269-006-3088-z
Shiau JT, Wu FC (2004) Assessment of hydrologic alterations caused by Chi-Chi diversion Weir in Chou-Shui Creek, Taiwan: opportunities for restoring natural flow conditions. River Res Appl 20(4):401–412. doi:10.1002/rra.762
Smakhtin V, Revenga C, Döll P (2004) A pilot global assessment of environmental water requirements and scarcity. Water Int 29(3):307–317
Suen J-P, Eheart JW (2006) Reservoir management to balance ecosystem and human needs: incorporating the paradigm of the ecological flow regime. Water Resour Res 42:W03417. doi:10.1029/2005WR004314
Sun T, Yang ZF, Cui BS (2008) Critical environmental flows to support integrated ecological objectives for the Yellow River Estuary, China. Water Resour Manage. doi:10.1007/s11269-007-9205-9
Suzuki M (1998) A look at technology’s role in sustainable water management. Water Qual Int 5:9–16
Vijayan G, Nathan NS, Subramanian RS et al (1999) Management of water resources for quality and quantity. Journal of Indian Water Works Association, January–March, pp 43–46
Wang JF, Cheng GD, Gao YG, Long AH, Xu ZM, Li X et al (2008) Optimal water resource allocation in arid and semi-arid areas. Water Resour Manage 22(23):239–258. doi:10.1007/s11269-007-9155-2
Xia J, Takeuchi K (1999) Barriers to sustainable management of water quality and quantity. Hydrol Sci J 44:462–474
Xia XH, Yang ZF, Huang GH et al (2004a) Integrated water quantity and quality evaluation of the Yellow River. Water Int 29(4):423–431
Xia XH, Zhang X, Yang ZF et al (2004b) Water quality and quantity evaluation of the Yellow River. J Nat Resour 19(3):293–299 (in Chinese)
Yang Z, Cui B, Liu J (2005) Estimation methods of eco-environmental water requirements: case study. Sci China Ser D Earth Sci 48(8):1280–1292. doi:10.1360/02yd0495
Yang ZF, Liu JL, Sun T et al (2006) Environmental flows in basins. Science Press, Beijing, pp 97–114 (in Chinese)
YRCC (Yellow River Conservancy Commission) (1985) Planning program of water quality monitoring of the Yellow River. The Yellow River Publishing House of the Water Resources, Zhengzhou, China (in Chinese)
YRCC (Yellow River Conservancy Commission) (1997–1999) Water yearbook of the Yellow River. The Yellow River Publishing House of the Water Resources, Zhengzhou, China (in Chinese)
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Xia, X., Yang, Z. & Wu, Y. Incorporating Eco-environmental Water Requirements in Integrated Evaluation of Water Quality and Quantity—A Study for the Yellow River. Water Resour Manage 23, 1067–1079 (2009). https://doi.org/10.1007/s11269-008-9315-z
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DOI: https://doi.org/10.1007/s11269-008-9315-z