Recent Changes of Water Discharge and Sediment Load in the Buyuan River Basin, China

Rong Hua Zhong; Xiu Bin He; Kai Dao Fu

doi:10.4028/www.scientific.net/AMM.405-408.2089

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 405-408Recent Changes of Water Discharge and Sediment...

Recent Changes of Water Discharge and Sediment Load in the Buyuan River Basin, China

Abstract:

Changes in stream flow and sediment load in the Buyuan River Basin is a focus due to its vital ecological niche in supply feeding and spawning habitats for upstream migrant fish species of Mekong River. Based on the precipitation and water discharge series data (19592008), and sediment load series data (19932008), the runoff and sediment discharge variation and its response to precipitation has been analyzed. The results shown that, during the study period of 19592008 at the Manan gauging station, annual runoff of Buyuan River has generally decreased, but not significant at the 95% confidence level. However, the decline trend of sediment load was obvious for gauged period from 1993 to 2008. The seasonal runoff distribution in the Buyuan River was uneven and demonstrated an observably unimodal distribution. Both water discharge and sediment load are largely derived from wet season (from Jun to Nov), especially in flood season from July to September. During the study period 1993-2008, both annual and monthly observed value of water discharge and sediment load had coincident changing processes. Double mass curves indicated decreasing precipitation was the main reason for runoff reduction in the Buyuan River Basin; declining rainfall and water discharge were two key factors for sediment load reduction. In 2002, however, sediment discharge undergone abrupt change due to huge peak discharge and two consecutive years strong precipitation in the Buyuan River Basin.

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Periodical:

Applied Mechanics and Materials (Volumes 405-408)

Pages:

2089-2095

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.405-408.2089

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Online since:

September 2013

Authors:

Rong Hua Zhong, Xiu Bin He, Kai Dao Fu

Keywords:

Buyuan River Basin, Sediment Load Variation, Water Discharge Change

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References

[1] Walling, D. E., and D. Fang: Global and Planetary Change, Vol. 39 (2003), pp.111-126.

Google Scholar

[2] Qiang Z., Chongyu X., Xiaohong C., et al.: Hydrological Processes, 2012. 26(10): pp.1495-1508.

Google Scholar

[3] Chuanyou C.: Journal of Natural Resources, 1992, pp.312-328. (In Chinese).

Google Scholar

[4] X.X. LU., R.Y. Siew: Hydrology and Earth System Sciences, 2005. 2(6): pp.2287-2325.

Google Scholar

[5] Kaidao F., Daming H. and Sahojuan L.: Chinese Science Bulletin, 2006. 51(22): pp.119-126.

Google Scholar

[6] Kummu, M, O. Varis: Geomorphology, 2007. 85(3): pp.275-293.

Google Scholar

[7] Daming H., Yan F., Shu G., et al.: Chinese Science Bulletin, 2006. 51(22): pp.16-24.

Google Scholar

[8] Daming H., Jiang L., Jinming H., et al.: Chinese Science Bulletin, 2007. 52(2): pp.1-9.

Google Scholar

[9] Kaidao F., Bin S., Daming H., et al.: Journal of Geographical Sciences, 2012. 22(5): pp.874-884.

Google Scholar

[10] K. Bin, Lisa P., Yungang L., et al.: Chinese Journal of Oceanology and Limnology, 2009. 27(2): pp.400-407.

Google Scholar

[11] Bin K., Daming H.: Resources Science, 2007(5): pp.195-200. (In Chinese).

Google Scholar

[12] Bin K., Daming H., Lisa P, et al.: Reviews in Fish Biology and Fisheries, 2009. 19(4): pp.465-480.

Google Scholar

[13] Bin K., Wenxian H., Wenlong Q., et al.: Progress in Fishery Sciences, 2010(3): pp.6-14. (In Chinese).

Google Scholar

[14] Junxing Y., Xiaoyong C. and Yinrui C.: Zoological Research, 2007(1): pp.63-67. (In Chinese).

Google Scholar

[15] Chenghu Z., Qicheng T.: Natural resources, 1989(4): pp.39-44. (In Chinese).

Google Scholar

[16] Singh, V., Jain, S. Kand Shukla,S.: International Journal of Civil and Structural Engineering, 2010. 2(1): pp.205-221.

Google Scholar