Analysis of point source pollution and water environmental quality variation trends in the Nansi Lake basin from 2002 to 2012

详细信息    查看全文

• 作者：Weiliang Wang ; Xiaohui Liu ; Yufan Wang…
• 关键词：Nansi Lake ; Point source pollution ; Water environmental quality ; Economy ; Relativity
• 刊名：Environmental Science and Pollution Research
• 出版年：2016
• 出版时间：March 2016
• 年：2016
• 卷：23
• 期：5
• 页码：4886-4897
• 全文大小：945 KB
• 参考文献：Al-Mulali U, Saboori B, Ozturk I (2015) Investigating the environmental Kuznets curve hypothesis in Vietnam. Energy Policy 76:123–131CrossRef
  An WC, Li XM (2009) Phosphate adsorption characteristics at the sediment-water interface and phosphorus fractions in Nansi Lake, China, and its main inflow rivers. Environ Monit Assess 148(1–4):173–184CrossRef
  Bu HM, Meng W, Zhang Y (2011) Nitrogen pollution and source identification in the Haicheng River basin in northeast China. Science of the Total Environment 409(18):3394–3402CrossRef
  Bhattacharya A, Gupta A, Kaur A et al (2015) Simultaneous bioremediation of phenol and Cr (VI) from tannery wastewater using bacterial consortium. International Journal of Applied Sciences and Biotechnology 3(1):50–55CrossRef
  Chu L, Wang J, Dong J et al (2012) Treatment of coking wastewater by an advanced Fenton oxidation process using iron powder and hydrogen peroxide. Chemosphere 86(4):409–414CrossRef
  DB37/599-2006. Discharge standard of water pollutants for the route of South-To-North Water Diversion Project in Shandong Province.
  Daly H E. Economics, ecology, ethics: Essays toward a steady-state economy [M]. San Francisco: WH Freeman, 1980
  Dinda S (2004) Environmental Kuznets curve hypothesis: a survey. Ecol Econ 49(4):431–455CrossRef
  Edwin DO, Zhang XL, Yu T (2010) Current status of agricultural and rural non-point source pollution assessment in China: a review. Environ Pollut 158(5):1159–1168CrossRef
  Huang M, Ma Y, Wan J et al (2012) Modelling a paper-making wastewater treatment process by means of an adaptive network-based fuzzy inference system and principal component analysis. Industrial & Engineering Chemistry Research 51(17):6166–6174CrossRef
  Jahan MAA, Akhtar N, Khan NMS et al (2015) Characterization of tannery wastewater and its treatment by aquatic macrophytes and algae. Bangladesh Journal of Scientific and Industrial Research 49(4):233–242CrossRef
  Kaika D, Zervas E (2013) The environmental Kuznets curve (EKC) theory. Part B: Critical issues Energy Policy 62:1403–1411
  Li HL, Gao H, Zhu C et al (2009) Spatial and temporal distribution of polycyclic aromatic hydrocarbons (PAHs) in sediments of the Nansi Lake. China Environmental Monitoring and Assessment 154(1–4):469–478CrossRef
  Li G, Yu J, Zhang YH et al (2013) Study on treatment of wastewater from papermaking using Fenton oxidation. Advanced Materials Research 726:1760–1763CrossRef
  Liu Y, Tian H, Si A (2012) Gliding arc discharge for decolorization and biodegradability of azo dyes and printing and dyeing wastewater. Plasma Chemistry and Plasma Processing 32(3):597–607CrossRef
  Pang Y, Long TY, Chen F, Gao X (2002) Water pollution investigation in Shandong province along the east line of south to north water transfer project. Water & Wastewater Engineering 28(8):19–21
  Sun Z, Wei B, Su W et al (2011) Evapotranspiration estimation based on the SEBAL model in the Nansi Lake wetland of China. Mathematical and Computer Modelling 54(3):1086–1092CrossRef
  Stern DI, Common MS, Barbier EB (1996) Economic growth and environmental degradation: the environmental Kuznets curve and sustainable development. World Dev 24(7):1151–1160CrossRef
  Sivakumar D (2015) Hexavalent chromium removal in a tannery industry wastewater using rice husk silica. Global Journal of Environmental Science and Management 1(1):27–40
  Tian C, Pei H, Hu W et al (2012) Variation of cyanobacteria with different environmental conditions in Nansi Lake. China Journal of Environmental Sciences 24(8):1394–1402 (in Chinese) CrossRef
  USEPA (United States Environmental Protection Agency). National management measures for the control of non-point pollution from agriculture. EPA-841-B-03–004. Washington, DC: US Environmental Protection Agency, Office of Water, 2003. pp. 2–8
  Wei C (2012) Pollution control principles and technology applications in the treatment of coking wastewater from coal chemical industry. Environmental Chemistry 31(10):1465–1472 (in Chinese)
  Wu H, Wang S (2012) Impacts of operating parameters on oxidation–reduction potential and pretreatment efficacy in the pretreatment of printing and dyeing wastewater by Fenton process. J Hazard Mater 243:86–94CrossRef
  Wu ZH, Qiao HT, Fu SS et al (2006) Effect of South-to-North water transfer on environment of Nansi Lake and defending strategies. Journal of Qingdao Technological University 27(1):1–7 (in Chinese)
  Yang Y, Yan B, Shen W (2010a) Assessment of point and nonpoint sources pollution in Songhua River watershed, northeast China by using revised water quality model. Chinese Geographical Science 20(1):30–36CrossRef
  Yu HB, Xi BD, Jiang JY (2011) Environmental heterogeneity analysis, assessment of trophic state and source identification in Chaohu Lake. China Environmental Science and Pollution Research 18(8):1333–1342CrossRef
  Yao H, Qian X, Yin H et al (2014) Regional risk assessment for point source pollution based on a water quality model of the Taipu River. China Risk Analysis 122(59):1–13
  Yang Q, Wang J, Wang H et al (2012) Evolution of the microbial community in a full-scale printing and dyeing wastewater treatment system. Bioresour Technol 117:155–163CrossRef
  Yuan X, Sun H, Guo D (2012) The removal of COD from coking wastewater using extraction replacement–biodegradation coupling. Desalination 289:45–50CrossRef
  Zhang LX, Ulgiati S, Yang ZF et al (2011) Emergy evaluation and economic analysis of three wetland fish farming systems in Nansi Lake area. China Journal of Environmental Management 92(3):683–694
  Zhou S, Watanabe H, Wei C et al (2015) Reduction in toxicity of coking wastewater to aquatic organisms by vertical tubular biological reactor. Ecotoxicol Environ Saf 115:217–222CrossRef
  
• 作者单位：Weiliang Wang (1)
  Xiaohui Liu (1)
  Yufan Wang (1)
  Xiaochun Guo (2)
  Shaoyong Lu (2)
  
  1. College of geography and environment, Shandong Normal University, Wenhuadong Rd 88, Lixia District, Ji’nan, 250014, People’s Republic of China
  2. Engineering and Technology Centre of Lake, State Environmental Protection Scientific Observation and Research Station for Lake Dongtinghu (SEPSORSLD), Research Centre of Lake Environment, State Environmental Protection Key Laboratory for Lake Pollution Control, State Key Laboratory of Environmental Criteria and Risk Assessment, Chinese Research Academy of Environmental Sciences, 8#, Dayangfang, Anwai Street, Beijing, 100012, People’s Republic of China
  
• 刊物类别：Earth and Environmental Science
• 刊物主题：Environment
  Environment
  Atmospheric Protection, Air Quality Control and Air Pollution
  Waste Water Technology, Water Pollution Control, Water Management and Aquatic Pollution
  Industrial Pollution Prevention
  
• 出版者：Springer Berlin / Heidelberg
• ISSN：1614-7499

文摘

Based on the data analysis of the water environmental quality and economic development from 2002 to 2012 in the Nansi Lake basin, the correlation and change between the water environmental quality and economic development were studied. Results showed that the GDP and wastewater emissions of point source in the Nansi Lake basin had an average annual growth of 7.30 and 7.68 %, respectively, from 2002 to 2012. The emissions of chemical oxygen demand (COD) and ammonia nitrogen (NH₃-N) had the average annual decrease of 7.69 and 6.79 % in 2012, respectively, compared to 2002. Basin water quality overall improved, reaching the Class III of the “Environmental quality standards for surface water (GB3838-2002),” in which the main reason was that sewage treatment rate increased gradually and was above 90 % in 2012 (an increase of 10 % compared to 2002) with the progress of pollution abatement technology and the implementation of relevant policies and regulations. The contribution of water environmental pollution was analyzed from related cities (Ji’ning, Zaozhuang, Heze). Results indicated that Ji’ning had the largest contribution to water pollution of the Nansi Lake basin, and the pollutant from domestic sources accounted for a higher percentage compared to industrial sources. The wastewater, COD, and NH₃-N mainly came from mining and washing of coal, manufacture of raw chemical materials and chemical products, papermaking industry, and food processing industry. According to the water pollution characteristics of the Nansi Lake basin, the basin pollution treatment strategy and prevention and treatment system were dissected to provide a scientific basis for prevention and control of lakeside point source pollution along the Nansi Lake.