Abstract
The construction of a dam converts the natural streamflow to human control. It is necessary to learn the accumulated effect of cascade dams on hydrological characteristics, sediment and nutrient pollution discharge. The current research describes the analysis and simulation of streamflow, sand concentration and nutrient pollutant discharge alterations caused by the construction of a cascade of eight dams along the Longliu section of the upper stream of the Yellow River. The analysis shows that the maximum monthly streamflow difference between the inlet and outlet of the Longliu section decreased from 430 to 115 m3/s, after the appearance of the cascade dams between 1977 and 2006. In the same period, the correlation coefficient (R 2) of monthly streamflow between the inlet and outlet of Longliu dropped from 0.959 to 0.375. The peak of streamflow shifted from June to May and October. The difference in sand concentration between two sections decreased from 0.52 to 0.39 kg/m3, which was the direct consequence of the operation of the reservoirs. The R 2 value of sand concentrations of the inlet and outlet were also reduced from 0.504 to 0.356. A t-test analysis indicates that the original hydrological nature was significantly disturbed by the cascade dams. The influence of the dams on nutrient pollutant transport was simulated by the SWAT model. This simulation suggests that the cascade dams decreased the discharge of total nitrogen and total phosphorus from 15.4 × 103 t and 1,996 t to 0.4 × 103 t and 328 t, respectively. In conclusion, the accumulated impact of cascade dams on streamflow, sand concentration and nutrient pollutant discharge were analyzed, which were helpful for understanding the environmental features of the entire watershed.
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References
Abbaspour KC, Yang J, Maximov I, Siber R, Bogner K, Mieleitner J, Zobrist J, Srinivasan R (2007) Modelling hydrology and water quality in the pre-alpine/alpine Thur watershed using SWAT. J Hydrol 333(2–4):413–430
Ahmet K, Kadri Y, Cengiz O (2006) Effects of Kilickaya Dam on concentration and load values of water quality constituents in Kelkit Stream in Turkey. J Hydrol 317(1–2):17–30
Arnold JG, Srinivasan R, Muttiah RS, Williams JR (1998) Large area hydrologic modeling and assessment Part I: model development. J Am Water Resour Assoc 34(1):73–89
Cai XM, Rosegrant MW (2004) Optional water development strategies for the Yellow River Basin: balancing agricultural and ecological water demands. Water Resour Res 40(8):W08S04
Cheng HG, Ouyang W, Hao FH (2007) The non-point source pollution in livestock-breeding areas of the Heihe River basin in Yellow River. Stoch Env Res Risk A 21(3):213–221
Chu ZX, Zhai SK (2008) Yangtze River sediment: in response to three gorges reservoir (TGR) water impoundment in June 2003. J Coast Res 24(1A):30–39
El-Shafie A, Abdin AE, Noureldin A, Taha MR (2009) Enhancing inflow forecasting model at aswan high dam utilizing radial basis neural network and upstream monitoring stations measurements. Water Resour Manage 23(11):2289–2315
Genereux DP, Leahy S, Mitasova H, Kennedy CD, Corbett DR (2008) Spatial and temporal variability of streambed hydraulic conductivity in West Bear Creek, North Carolina, USA. J Hydrol 358(93–94):332–353
Hart DD, Poff NL (2002) A special section on dam removal a driver restoration. Bioscience 52(8):653–655
Holvoet K, Gevaert V, van Griensven A, Seuntjens P, Vanrolleghem PA (2007) Modelling the effectiveness of agricultural measures to reduce the amount of pesticides entering surface waters. Water Resour Manage 21(12):2027–2035
Hsieh CD, Yang WF (2007) Optimal nonpoint source pollution control strategies for a reservoir watershed in Taiwan. J Environ Manag 85:908–917
Isik S, Dogan E, Kalin L, Sasal M, Agiralioglu N (2008) Effects of anthropogenic activities on the Lower Sakarya River. Catena 75(2):172–181
Jeong KS, Kim DK, Joo GJ (2007) Delayed influence of dam storage and discharge on the determination of seasonal proliferations of Microcystis aeruginosa and Stephanodiscus hantzschii in a regulated river system of the lower Nakdong River (South Korea). Water Res 41(6):1269–1279
Jung KW, Yoon CG, Jang JH, Kong DS (2008) Estimation of pollutant loads considering dam operation in Han River Basin by BASINS/Hydrological Simulation Program-FORTRAN. Water Sci Technol 58(12):2329–2338
Kummu M, Varis O (2007) Sediment-related impacts due to upstream reservoir trapping, the Lower Mekong River. Geomorphology 85(3–4):275–293
Lehner B, Czisch G, Vassolo S (2005) The impact of global change on the hydropower potential of Europe: a model-based analysis. Energy Policy 33:839–855
Li QK, Ij HE, Hu YW, Sun J (2007) Unit-analysis-based assessment of agricultural non-point source pollution in Qingtongxia irrigation area. J Ecol Rural Environ 23(4):33–36
Liu JY, Liu ML, Zhuang DF, Zhang ZX, Deng XZ (2003) Study on spatial pattern of land-use change in China during 1995–2000. Science in China (Series D) 46(4):373–387
Lopez-Moreno JI, Vicente-Serrano SM, Begueria S, Garcia-Ruiz JM, Portela MM, Almeida AB (2009) Dam effects on droughts magnitude and duration in a transboundary basin: the Lower River Tagus, Spain and Portugal. Water Resour Res 45(5):W02405
Maszlea DR, Whiteheadb PG, Johnson RC (1998) Hydrological studies of schistosomiasis transport in Sichuan Province, China. Sci Total Environ 216(3):193–203
MEP (Ministry of Environmental Protection of China) (2010) http://jcs.mep.gov.cn/hjzl/zkgb/2009hjzkgb/201006/t20100603_190435.htm
Mishra A, Kar S, Singh VP (2007) Prioritizing structural management by quantifying the effect of land cover and land cover on watershed runoff and sediment yield. Water Resour Manage 21:1899–1913
Muhammetoglu A, Muhammetoglu H, Oktas S, Ozgokcen L, Soyupak S (2005) Impact assessment of different management scenarios on water quality of Porsuk River and dam system - Turkey. Water Resour Manage 19(2):199–210
Nislow KH, Magilligan FJ, Fassnacht H, Bechtel D, Ruesink A (2002) Effects of dam impoundment on the flood regime of natural floodplain communities in the upper Connecticut river. J Am Water Resour Assoc 38(6):1533–1548
Ouyang W, Skidmore AK, Hao FH, Toxopeus AG, Ali A (2009a) Accumulated effects on landscape pattern by hydroelectric cascade exploitation in the Yellow River basin from 1977-2006. Landsc Urban Plan 93(3–4):163–171
Ouyang W, Wang XL, Hao FH, Srinivasan R (2009b) Temporal-spatial dynamics of vegetation variation on non-point source nutrient pollution. Ecol Model 220(20):2702–2713
Ouyang W, Skidmore AK, Hao FH, Wang TJ (2010) Soil erosion dynamics response to landscape pattern. Sci Total Environ 408(6):1358–1366
Poff NL, Olden JD, Merritt DM, Pepin DM (2007) Homogenization of regional river dynamics by dams and global biodiversity implications. Proc Natl Acad Sci U S A 104(14):5732–5737
Pringle CM, Freeman MC, Freeman BJ (2000) Regional effects of hydrologic alterations on river macrobiotic in the New World: tropical temperate comparisons. Bioscience 50:8207–8231
Richter BD, Thomas GA (2007) Restoring environmental flows by modifying dam operations. Ecology and society 12(1):12
Richter BD, Baumgartner JV, Powell J, Braun DP (1996) A method for assessing hydrologic alteration within ecosystems. Conserv Biol 10(4):1163–1174
Richter BD, Baumgartner JV, Wigington R, Braun DP (1997) How much water does a river need? Freshw Biol 37(1):231–249
Rustomji P, Zhang XP, Hairsine PB, Zhang L, Zhao J (2008) River sediment load and concentration responses to changes in hydrology and catchment management in the Loess Plateau region of China. Water Resour Res 44:W00A04
Shah Z, Kumar MD (2008) In the midst of the large dam controversy: objectives, criteria for assessing large water storages in the developing world. Water Resour Manage 22(12):1799–1824
Stave J, Oba G, Stenseth NC (2005) Nordal I Environmental gradients in the Turkwel riverine forest, Kenya: hypotheses on dam-induced vegetation change. For Ecol Manag 212(1–3):184–198
Topping DJ, Rubin DM, Melis TS (2007) Coupled changes in sand grain size and sand transport driven by changes in the upstream supply of sand in the Colorado River: relative importance of changes in bed-sand grain size and bed-sand area. Sediment Geol 202(3):538–556
Wang GQ, Wu BS, Wang ZY (2005) Sedimentation problems and management strategies of Sanmenxia Reservoir, Yellow River, China. Water Resour Res 41(9):W09417
Wang HJ, Yang ZS, Saito Y (2006) Interannual and seasonal variation of the Huanghe (Yellow River) water discharge over the past 50 years: connections to impacts from ENSO events and dams. Glob Planet Change 50(3–4):212–225
Yang ST, Cheng HG, Bu QS, Zhang JY, Shi XX (2006) Estimation of soil erosion and its application in assessment of the absorbed nitrogen and phosphorus load in China. Acta Scientiae Circumstantiae 26(3):366–374
Yang T, Zhang Q, Chen YD, Tao X, Xu CY, Chen X (2008) A spatial assessment of hydrologic alteration caused by dam construction in the middle and lower Yellow River, China. Hydrol Process 22(18):3829–3843
Zeilhofer P, de Moura RM (2009) Hydrological changes in the northern Pantanal caused by the Manso dam: impact analysis and suggestions for mitigation. Ecol Eng 35(1):105–117
Zhang J, Yu ZG, Lui SM, Liu SM, Xu H, Liu MG (1997) Dynamics of nutrient elements in three estuaries of North China: the Luanhe, Shuangtaizihe, and Yalujiang. Estuaries 20(1):110–123
Zhang N, He DW, Chen JS, Cui SB (2003) A preliminary study on nitrogen contamination in the Yellow River system, China. Environ Chem 2(22):105–110
Zhang XS, Srinivasan R, Bosch D (2009) Calibration and uncertainty analysis of the SWAT model using genetic algorithms and Bayesian model averaging. J Hydrol 374(3–4):307–317
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Ouyang, W., Hao, F., Song, K. et al. Cascade Dam-Induced Hydrological Disturbance and Environmental Impact in the Upper Stream of the Yellow River. Water Resour Manage 25, 913–927 (2011). https://doi.org/10.1007/s11269-010-9733-6
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DOI: https://doi.org/10.1007/s11269-010-9733-6