, 2005, Yang et al , 2006, Yang et al , 2011, Rossi et al , 2009,

, 2005, Yang et al., 2006, Yang et al., 2011, Rossi et al., 2009, Dang et al., 2010 and Wang et al., 2011). Large dams and reservoirs commonly reduce river discharges to the sea (Vörösmarty et al., 1997). A global estimate reveals that greater than 50% of basin-scale sediment flux in regulated basins is potentially trapped in artificial impoundments (Vörösmarty et al., 2003). Sedimentation also typically increases in riverbeds as a result of a loss of energy in the reduced flow, in addition http://www.selleckchem.com/products/Cisplatin.html to the entrapment of materials by the dams. Additionally, large dams regulate river flows between wet and dry seasons, for

flood-control and water consumption, which can further lead to significant reductions in water and sediment fluxes to the sea. In the Nile River, for example, sediment is sequestrated in Lake Nasser behind the High Dam, the extensive barrages, and in drainage and irrigation Sorafenib cost channels within the lower Nile delta, so that essentially no sediment

reaches Egypt’s Mediterranean coast (Stanley, 1996 and Milliman, 1997). Similarly, the Manwan reservoir in the upper reaches of Vietnam’s Mekong River (also known as the Langcangjiang River in China) have trapped a majority of the river’s sediment load since its construction in 1993 (Wang et al., 2011). More impressive has been the constructions of the world’s largest dams (>100 m in height) in Thymidylate synthase China’s Changjiang and Huanghe drainage basins, which are largely responsible for changing the rivers’ transport of material to the sea. The Huanghe once annually contributed ∼6% of the world’s terrestrial sediment supply to the global ocean. Now, dramatic changes have occurred, including a ∼90% reduction in annual water and sediment flux, ∼70% loss in suspended sediment

concentration, and coarsening grain sizes (Wang et al., 2011 and Yu et al., 2013). These changes induced by humans are so substantial that few large rivers around the world can match them. Previous work has addressed changes in the water and sediment delivery to the sea by the Huanghe (Yang et al., 1998, Xu, 2003, Wang et al., 2006, Wang et al., 2007, Wang et al., 2011 and Miao et al., 2011). Few papers, however, have directly quantified the effects of individual dams on the Huange. In this paper, we review the changes on the Huanghe caused by dams and focus on the effect of individual dams. In particular, we outline the Water-Sediment Modulation (WSM) though Xiaolangdi dam in regulating water and sediment delivery to the sea. Installed in 2002, WSM was designed to mitigate infilling of sediment behind the Xiaolangdi dam, and to scour the riverbeds in the lower reaches of the Huanghe that had been elevated due to sediment accumulation. The WSM serves as an example of river management for large dams in an era when storage capacity will soon be filled.

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