Impact of the Sanmenxia and Xiaolangdi Reservoirs Operation on the Hydrologic Regime of the Lower Yellow River
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Volume 21, Issue 3
Abstract
To evaluate the alteration of the hydrologic regime in the lower Yellow River caused by the different operational modes of the Sanmenxia and Xiaolangdi Reservoirs, daily stream flow data obtained from the Huayuankou Hydrological Station between 1949 and 2010 were analyzed. The hydrologic regimes before and after different reservoir operations were quantitatively analyzed using the range of variability approach (RVA) based on the indicators of hydrologic alteration (IHA). The results showed that the hydrologic regime of the lower Yellow River changed significantly after the reservoirs began operation, In addition, there was a significant difference in ecohydrological characteristics between operation modes. This research further explains the hydrologic regime of the river. It can be used for future water resources management and ecological scheduling within the lower Yellow River Basin.
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Acknowledgments
This study was jointly supported by National Science Foundation of China (NSFC), Grant Nos. 51179148 and 51179149, and the Key Innovation Group of Science and Technology of Shaanxi (2012KCT-10). Sincere gratitude is extended to the editor and anonymous reviewers for their professional comments, which greatly improved the presentation of the paper.
References
Chen, J. G., Zhou, W. H., and Chen, Q. (2012). “Reservoir sedimentation and transformation of morphology in the lower Yellow River during 10 year’s initial operation of the Xiaolangdi reservoir.” J. Hydrodyn., 24(6), 914–924.
Gao, B., Yang, D. W., and Yang, H. B. (2013). “Impact of the Three Gorges Dam on flow regime in the middle and lower Yangtze River.” Quat. Int., 304(5), 43–50.
Gong, L. L., Huang, Q., Sun, Q. G., and Zhang, H. B. (2013). “Response of hydrological condition to different reservoir operation mode on the upper reaches of the Yellow River.” J. Arid Land Resour. Environ., 27(2), 143–149 (in Chinese).
Hu, W. W., Wang, G. X., Deng, W., and Li, S. N. (2008). “The influence of dams on ecohydrological conditions in the Huaihe River basin, China.” Ecol. Eng., 33(3–4), 233–241.
Meng, J., Li, L., Hao, Z. C., Wang, J. H., and Shao, Q. X. (2014). “Suitability of TRMM satellite rainfall in driving a distributed hydrological model in the source region of Yellow River.” J. Hydrol., 509(2), 320–332.
Richter, B. D., Baumgartner, J. V., Powell, J., and Braun, D. P. (1996). “A method for assessing hydrologic alteration within ecosystems.” Conserv. Biol., 10(4), 1163–1174.
Richter, B. D., Baumgartner, J. V., Wigington, R., and Braun, D. (1997). “How much water does a river need?” Freshwater Biol., 37(1), 231–249.
Richter, B. D., and Thomas, G. A. (2007). “Restoring environmental flows by modifying dam operations.” Ecol. Soc., 12(1), 132–144.
Shiau, J. T., and Wu, F. C. (2004). “Feasible diversion and in stream flow release using range of variability approach.” J. Water Resour. Plann. Manage., 395–404.
Shields, F. D., Jr., and Knight, S. S. (2013). “Floodplain restoration with flood control: Fish habitat value of levee borrow pits.” Ecol. Eng., 53, 217–227.
Wang, L. Y., Ceng, Q. H., Yan, Y., Hu, F. J., and Hao, J. (2013). “Influence of Gangkouwan Reservoir on hydrological regime of lower reaches.” Water Resour. Power, 31(2), 15–18 (in Chinese).
Wu, W., Xu, Z. X., and Liu, X. C. (2012). “Impact of Baoji water diversion works on the hydrologic regime in the Wei River basin.” Procedia Environ. Sci., 13, 1653-1662.
Yang, G., Wu, J. Y., and Yan, L. (2013). “Flow reversal and entropy generation due to buoyancy assisted mixed convection in the entrance region of a three dimensional vertical rectangular duct.” Int. J. Heat Mass Transfer, 67(4), 741–751.
Yang, T., Zhang, Q., Chen, Y., Tao, X., Xu, C., and Chen, X. (2008). “A spatial assessment of hydrologic alteration caused by dam construction in the middle and lower Yellow River, China.” Hydrol. Processes, 22(18), 3829–3843.
Yang, Z. F., Yan, Y., and Liu, Q. (2012). “Assessment of the flow regime alterations in the lower Yellow River, China.” Ecol. Inf., 10(7), 56–64.
Zhang, H. B., Wang, Y. M., Huang, Q., and Lei, Y. (2008). “Effects of reservoir engineering based on RVA upon river flow regime.” J. Xi’an Univ. Technol., 24(3), 262–267 (in Chinese).
Zhang, M., Shao, M. L., Xu, Y. Y., and Cai, Q. H. (2010). “Effect of hydrological regime on the macroinvertebrate community in Three-Gorges Reservoir, China.” Quat. Int., 226(1–2), 129–135.
Zou, Z. H., Li, Q. F., Xia, Z. Q., Li, Y., Ma, Y., and Guo, J. (2007). “Human-induced alterations in the flow regime of the Hanjiang River.” Water Resour. Power, 25(4), 33–35 (in Chinese).
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© 2015 American Society of Civil Engineers.
History
Received: Mar 29, 2014
Accepted: Jul 15, 2015
Published online: Dec 11, 2015
Published in print: Mar 1, 2016
Discussion open until: May 11, 2016
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