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Environmental Earth Sciences

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01.02.2015 | Original Article

Effects of water transfer on water quality and estimation of the pollutant fluxes from different sources into West Lake, Hangzhou City, China

verfasst von: Zanfang Jin, Lingxiao Chen, Feili Li, Zhiyan Pan, Mantong Jin

Erschienen in: Environmental Earth Sciences | Ausgabe 3/2015

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Abstract

Water transfer from the Qiantang River to the West Lake, Hangzhou City, China, has been performed since 1985 to improve the lake water quality. This study was conducted to assess the water quality and estimate the pollutant fluxes from different sources into the lake to enable better water quality management. Monthly variations in water quality variables, namely chemical oxygen demand (COD), 5-day biochemical oxygen demand (BOD₅), total phosphorus (TP), total nitrogen (TN), ammonium nitrogen (NH₄ ⁺-N), and nitrate nitrogen (NO₃ ⁻-N), and flow were analyzed for 1-year period from April 2012 to March 2013. The pollutant fluxes into the lake were mainly contributed by the water transferred from the Qiantang River, followed by runoff and rainfall. The results showed that the annual influxes of COD, BOD₅, TP, TN, NO₃ ⁻-N, and NH₄ ⁺-N into the lake were 1,595.3, 255.8, 8.2, 576.0, 360.3, and 84.2 t, respectively, while the annual fluxes out of the lake were 2,204.6, 301.8, 7.1, 336.5, 191.6, and 36.1 t, respectively. The annual net flux of pollutants in decreasing order was TN > NO₃ ⁻-N > NH₄ ⁺-N > TP > BOD₅ > COD, and nitrogen was found to be the major pollutant in the West Lake. It is recommended that the water transferred from the Qiantang River should be treated by chemical precipitation as well as denitrification technology to reduce the nitrogen concentration.

Vorheriger Artikel The effect of reclamation on the distribution of heavy metals in saline–sodic soil of Songnen Plain, China

Nächster Artikel Design and implementation of spatial database and geo-processing models for a road geo-hazard information management and risk assessment system

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Anderson KA, Downing JA (2006) Dry and wet atmospheric deposition of nitrogen, phosphorus and silicon in an agricultural region. Water Air Soil Pollut 176:351–374CrossRef

Bayram A, Onsoy H, Komurcu MI, Bulut VN (2012) Effects of Torul dam on water quality in the stream Harsit, NE Turkey. Environ Earth Sci 65(3):713–723CrossRef

Committee of Compiling Records of Hangzhou (CCRH) (2013) Statistical yearbook of Hangzhou City from 2000–2011. http://www.hangzhou.gov.cn/main/zjhz/hzgl/index.shtml. Accessed 12 June, 2012 (in Chinese)

De-Winnaar G, Jewitt GPW, Horan M (2007) A GIS-based approach for identifying potential runoff harvesting sites in the Thukela River basin, South Africa. Phys Chem Earth 32(15–18):1058–1067CrossRef

Dise NB, Stevens CJ (2005) Nitrogen deposition and reduction of terrestrial biodiversity: evidence from temperate grasslands. Sci China Ser C Life Sci 48:720–728

Drewry JJ, Newham LTH, Croke BFW (2009) Suspended sediment, nitrogen and phosphorus concentrations and exports during storm-events to the Tuross estuary, Australia. J Environ Manag 90(2):879–887CrossRef

Elci S, Selcuk P (2013) Effects of basin activities and land use on water quality trends in Tahtali Basin, Turkey. Environ Earth Sci 68(6):1591–1598CrossRef

Fornarelli R, Antenucci JP (2011) The impact of transfers on water quality and the disturbance regime in a reservoir. Water Res 45(18):5873–5885CrossRef

Galvez-Cloutier R, Saminathan SKM, Boillot C, Triffaut-Bouchet G, Bourget A, Soumis-Dugas G (2012) An evaluation of several in-lake restoration techniques to improve the water quality problem (eutrophication) of Saint-Augustin Lake, Quebec, Canada. Environ Manag 49(5):1037–1053CrossRef

GB11893-89 (1989) China’s national environmental protection standard “Standards for Surface Water”, Ministry of Environmental Protection of the People’s Republic of China

GB11914-89 (1989) China’s national environmental protection standard “Standards for Surface Water”, Ministry of Environmental Protection of the People’s Republic of China

GB3838-2002 (2002) China’s national standard “Standards for Surface Water Quality”, The Central People’s Government of the People’s Republic of China

Guo PY (2005) Eutrophication control of West Lake in Hangzhou City. Prev Control Water Pollut 31(128):9–11 (in Chinese)

HJ505-2009 (2009) China’s national environmental protection standard “Standards for Surface Water”, Ministry of Environmental Protection of the People’s Republic of China

HJ636-2012 (2012) China’s national environmental protection standard “Standards for Surface Water”, Ministry of Environmental Protection of the People’s Republic of China

Hu LM, Hu WP, Zhai SH, Wu HY (2010) Effects on water quality following water transfer in Lake Taihu, China. Ecol Eng 36:471–481CrossRef

Huang K, Zhuang GS, Xu C, Wang Y, Tang AH (2008) The chemistry of the severe acidic precipitation in Shanghai, China. Atmos Res 89:149–160CrossRef

Kadam AK, Kale SS, Pand NN, Pawar NJ, Sankhua RN (2102) Identifying potential rainwater harvesting sites of a semi-arid, basaltic region of Western India, using SCS-CN method. Water Resour Manag 26(9):2537–2554CrossRef

Kojima K, Murakami M, Yoshimizu C, Tayasu I, Nagata T, Furumai H (2011) Evaluation of surface runoff and road dust as sources of nitrogen using nitrate isotopic composition. Chemosphere 84(11):1716–1722CrossRef

Larssen T, Lydersen E, Tang D, He Y, Gao J, Liu H (2006) Acid rain in China. Environ Sci Technol 40:418–425CrossRef

Li LQ, Shan BQ, Yin CQ (2012) Stormwater runoff pollution loads from an urban catchment with rainy climate in China. Front Environ Sci Eng 6(5):672–677CrossRef

Li YP, Tang CY, Wang C, Tian W, Pan BZ, Hua L, Lau J, Yu ZB, Acharya K (2013) Assessing and modeling impacts of different inter-basin water transfer routes on Lake Taihu and the Yangtze River, China. Ecol Eng 60:399–413CrossRef

Liu Y, Tao Y, Wan KY, Zhang GS, Liu DB, Xiong GY, Chen F (2012) Runoff and nutrient losses in citrus orchards on sloping land subjected to different surface mulching practices in the Danjiangkou Reservoir area of China. Agric Water Manag 110:34–40CrossRef

Luo LC, Qin BQ, Yang LY, Song YZ (2007) Total inputs of phosphorus and nitrogen by wet deposition into Lake Taihu, China. Hydrobiologia 581:63–70CrossRef

Ma JL (1996) Assessment water quality of the West Lake following transfer water 9 years. Environ Pollut Control 18(5):31–34 (in Chinese)

Mao CZ, Yu XF, Shao XY (2010) Study on the annual variations of TN and TP and the eutrophication in Hangzhou West Lake. J Hydroecol 3(4):1–7 (in Chinese)

Marti CL, Mills R, Imberger J (2011) Pathways of multiple inflows into a stratified reservoir: Thomson Reservoir, Australia. Adv Water Resour 34(5):551–561CrossRef

Martin P, Joannon A, Piskiewicz N (2010) Temporal variability of surface runoff due to cropping systems in cultivated catchment areas: use of the DIAR model for the assessment of environmental public policies in the Pays de Caux (France). J Environ Manag 91(4):869–878CrossRef

Najar IA, Khan AB (2012) Assessment of water quality and identification of pollution sources of three lakes in Kashmir, India, using multivariate analysis. Environ Earth Sci 66(8):2367–2378CrossRef

Pang Y, Yan RR, Li YP (2008) Contribution of combined cation of exogenous source and internal load on water nutrient in Taihu Lake. J Hydraul Eng 39(9):1051–1059 (in Chinese)

Shen ZY, Hong Q, Yu H, Niu JF (2010) Parameter uncertainty analysis of non-point source pollution from different land use types. Sci Total Environ 408(8):1971–1978CrossRef

Ti CP, Xia YQ, Pan JJ, Gu GM, Yan XY (2011) Nitrogen budget and surface water nitrogen load in Changshu: a case study in the Taihu Lake region of China. Nutr Cycl Agroecosyst 91(1):55–66CrossRef

Tian YH, Yang LZ, Yin B, Zhu ZL (2011) Wet deposition N and its runoff flow during wheat seasons in the Tai Lake Region, China. Agric Ecosyst Environ 141:224–229CrossRef

Tsukuda S, Sugiyama M, Harita Y, Nishimura K (2006) Atmospheric phosphorus deposition in Ashiu, central Japan––source apportionment for the estimation of true input to a terrestrial ecosystem. Biogeochemistry 77(1):117–138CrossRef

USDA (U.S. Dept. of Agriculture Soil Conservation Service) (2004) National engineering handbook, Section 4, hydrology. Chapters 7, 8, 9, and 10. U.S. Government Printing Office. Washington, DC

Wang TJ, Jin LS, Li ZK, Lam KS (2000) A modeling study on acid rain and recommended emission control strategies in China. Atmos Environ 34:4467–4477CrossRef

Wang FE, Tian P, Yu J, Lao GM, Shi TC (2011a) Variations in pollutant fluxes of rivers surrounding Taihu Lake in Zhejiang Province in 2008. Phys Chem Earth 36(9–11):366–371CrossRef

Wang X, Hao FH, Cheng HG, Yang ST, Zhang X, Bu QS (2011b) Estimating non-point source pollutant loads for the large-scale basin of the Yangtze River in China. Environ Earth Sci 63(5):1079–1092CrossRef

Webb BW, Phillips JM, Walling DE (2000) A new approach to deriving ‘best-estimate’ chemical fluxes for rivers draining the LOIS study area. Sci Total Environ 251:45–54CrossRef

Welch EB (2009) Phosphorus reduction by dilution and shift in fish species in Moses Lake, WA. Lake Reserv Manag 25(3):276–283CrossRef

Wilson C, Weng QH (2010) Assessing surface water quality and its relation with urban land cover changes in the Lake Calumet Area, Greater Chicago. Environ Manag 45:1096–1111CrossRef

Wu J, Yu ZM (2001) The succession of phytoplankton and the ecological effects of eutrophication control measures in Hangzhou West. China Environ Sci 21(6):540–544 (in Chinese)

Xie YX, Xiong ZQ, Xing GX, Yan XY, Shi SL, Sun GQ, Zhu ZL (2008) Source of nitrogen in wet deposition to a rice agroecosystem at Tai lake region. Atmos Environ 42(21):5182–5192CrossRef

Xu LG, Zhang Q, Li HP, Viney NR, Xu JT, Liu J (2007) Modeling of surface runoff in Xitiaoxi catchment, China. Water Resour Manag 21(8):1313–1323CrossRef

Yan X, Jin JY, He P, Liang MZ (2008) Recent advances on the technologies to increase fertilizer use efficiency. Agric Sci China 7(4):469–479CrossRef

Yang R, Hayashi K, Zhu B, Li FY, Yan XY (2010) Atmospheric NH₃ and NO₂ concentration and nitrogen deposition in an agricultural catchment of Eastern China. Sci Total Environ 408(20):4624–4632CrossRef

Yu FC, Fang GH, Ru XW (2010) Eutrophication, health risk assessment and spatial analysis of water quality in Gucheng Lake, China. Environ Earth Sci 59(8):1741–1748CrossRef

Zhang H, Huang GH (2011) Assessment of non-point source pollution using a spatial multicriteria analysis approach. Ecol Model 222(2):313–321CrossRef

Zhang HP, Zhu YP, Li FP, Chen L (2011) Nutrients in the wet deposition of Shanghai and ecological impacts. Phys Chem Earth 36(9–11):407–410CrossRef

Zhang ZY, Kong LL, Zhu L, Xia JH, Patricia X (2012) Fate characteristics of nitrogen in runoff from a small agricultural watershed on the south of Huaihe River in China. Environ Earth Sci 66(3):835–848CrossRef

Zhao X, Yan XY, Xiong ZQ, Xie YX, Xing GX, Shi SL, Zhu ZL (2009) Spatial and temporal variation of inorganic nitrogen wet deposition to the Yangtze River Delta Region, China. Water Air Soil Pollut 203(1–4):277–289CrossRef

Zhao GJ, Gao JF, Tian P, Tian K, Ni GH (2011) Spatial-temporal characteristics of surface water quality in the Taihu Basin, China. Environ Earth Sci 64(3):809–819CrossRef

Zhou QX, Gibson CE, Foy RH (2000) Long-term changes of nitrogen and phosphorus loadings to a large lake in north-west Ireland. Water Res 34(3):922–926CrossRef

Zhou QX, Gibson CE, Zhu Y (2001) Evaluation of phosphorus bioavailability in sediments of three contrasting lakes in China and the UK. Chemosphere 42(2):221–225CrossRef

Zhu GW (2009) Spatio-temporal distribution pattern of water quality in Taihu Lake and its relation with cyanobacterial blooms. Resour Environ Yangtze Basin 18(5):439–445 (in Chinese)

Titel: Effects of water transfer on water quality and estimation of the pollutant fluxes from different sources into West Lake, Hangzhou City, China
verfasst von: Zanfang Jin
Lingxiao Chen
Feili Li
Zhiyan Pan
Mantong Jin
Publikationsdatum: 01.02.2015
Verlag: Springer Berlin Heidelberg
Erschienen in: Environmental Earth Sciences / Ausgabe 3/2015
Print ISSN: 1866-6280
Elektronische ISSN: 1866-6299
DOI: https://doi.org/10.1007/s12665-014-3456-6

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