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Temporal-Spatial Evolution of Groundwater Nitrogen Pollution Over Seven Years in a Highly Urbanized City in the Southern China

Abstract

Understanding the temporospatial variation in nitrogen pollution in groundwater and the associated controlling factors is important to establish management practices that ensure sustainable use of groundwater. In this study, we analyzed inorganic nitrogen content (nitrate, nitrite, and ammonium) in 1164 groundwater samples from shallow, middle-deep, and deep aquifers in Zhanjiang, a highly urbanized city in the southern China. Our data span a range of 7 years from 2005 to 2011. Results show that shallow aquifers had been heavily contaminated by nitrate and ammonium. Temporal patterns show that N contamination levels remained high and relatively stable over time in urban areas. This stability and high concentration is hypothesized as a result of uncontrolled, illicit sewer discharges from nearby business facilities. Groundwater in urban land and farmland displays systematic differences in geochemical characteristics. Collectively, our findings demonstrate the importance of continuously monitoring groundwater quality and strictly regulating sewage discharges in Zhanjiang.

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References

  • Ash-Bernal R, Wise R, Wright SM (2004) Acquired methemoglobinemia: a retrospective series of 138 cases at 2 teaching hospitals. Medicine 83(5):265–273

    Article  Google Scholar 

  • DZ/T 0064 (1993) Ministry of geology and mineral resources of the People’s Republic of China, Beijing

  • DZ/T 0290-2015 (2015) Ministry of land and resources of the People’s Republic of China, Beijing

  • Freeze RA, Cherry JA (1979) Groundwater. Prentice-Hall, Englewood Cliffs

    Google Scholar 

  • Goovaerts P (2000) Geostatistical approaches for incorporating elevation into the spatial interpolation of rainfall. J Hydrol 228(1):113–129

    Article  Google Scholar 

  • He XR, Liu ZF, Qian JZ, Zhao WD, Liu Y (2016) Distribution of nitrate in different aquifers in the urban district of Zhanjiang, China. Bull Environ Contam Toxicol 97(2):279–285

    CAS  Article  Google Scholar 

  • Hill MJ (1999) Nitrate toxicity: myth or reality? Br J Nutr 81:343–344

    CAS  Google Scholar 

  • Hiscock KM (1991) Review of natural and artificial denitrification of ground water. Water Res 25(9):1099–1111

    CAS  Article  Google Scholar 

  • HJ/T 164-2004 (2004) Ministry of environmental protection of the People’s Republic of China, Beijing

  • Hu HD, Shu H (2015) An improved coarse-grained parallel algorithm for computational acceleration of ordinary Kriging interpolation. Comput Geosci 78:44–52

    Article  Google Scholar 

  • Hu Y, Lu YH, Liu CK, Shang P, Liu J, Zheng CM (2017) Sources and dynamics of dissolved inorganic carbon, nitrogen, and phosphorus in a large agricultural river basin in arid northwestern China. Water 9(6):415

    Article  Google Scholar 

  • Huang F, Tang J, Chen Y, Ning LQ (2006) Survey on organic and microbial pollution of domestic sewage in urban district of Zhanjiang city. Pract Prev Med 13(4):944–946 (in Chinese)

    CAS  Google Scholar 

  • Joseph GS, James NB (2007) Cured meat products without direct addition of nitrate or nitrite: what are the issues. Meat Sci 77:136–147

    Article  Google Scholar 

  • Ju XT, Kou CL, Zhang FS, Christie P (2006) Nitrogen balance and groundwater nitrate contamination: comparison among three intensive cropping systems on the North China Plain. Environ Pollut 143(1):117–125

    CAS  Article  Google Scholar 

  • Knobeloch L, Salna B, Hogan A, Postle J, Anderson H (2000) Blue babies and nitrate-contaminated well water. Environ Health Perspect 108:675–678

    CAS  Article  Google Scholar 

  • Lu YH, Meyers PA, Eadie BJ, Robbins JA, Han H (2010) δ15N values in Lake Erie sediments: indicators of nitrogen biogeochemical dynamics during lake eutrophication. Chem Geol 273:1–7

    CAS  Article  Google Scholar 

  • Luo ZJ, Jin MG (2002) Research progress of ammonia, nitrite and nitrate pollution in groundwater. Hydrogeol Eng Geol 4:65–69 (in Chinese)

    Google Scholar 

  • Ma HB, Li XX, Hu CS (2012) Status of nitrate nitrogen contamination of groundwater in China. Chin J Soil Sci 43(6):1532–1536 (in Chinese)

    CAS  Google Scholar 

  • Mario CO, Juan AL, Victor R, Eulogio P, Lucía C (2014) Categorical Indicator Kriging for assessing the risk of groundwater nitrate pollution: the case of Vega de Granada aquifer (SE Spain). Sci Total Environ 470–471:229–239

    Google Scholar 

  • Nikolaidis NP, Heng H, Semagin R, Clausen JC (1998) Non-linear response of a mixed land use watershed to nitrogen loading. Agric Ecosyst Environ 67:251–265

    CAS  Article  Google Scholar 

  • Piper AM (1944) A graphic procedure in the geochemical interpretation of water analyses. Eos Trans Am Geophys Union 5(6):914–928

    Article  Google Scholar 

  • Qian JZ, Wang LL, Zhan HB, Chen Z (2011) Urban land-use effects on groundwater phosphate distribution in a shallow aquifer, Nanfei River basin, China. Hydrogeol J 19:1431–1442

    CAS  Article  Google Scholar 

  • Roos AJD, Ward MH, Lynch CF, Cantor KP (2003) Nitrate in public water supplies and the risk of colon and rectum cancers. Epidemiology 14:640–649

    Article  Google Scholar 

  • Sampson PD, Richards M, Szpiro AA, Bergen S, Sheppard L, Larson TV, Kaufman JD (2013) A regionalized national universal Kriging model using partial least squares regression for estimating annual PM2.5 concentrations in epidemiology. Atmos Environ 75:383–392

    CAS  Article  Google Scholar 

  • Wen HH (2013) Study on circulation pattern and numerical modeling of groundwater flow in Leizhou Peninsula. Dissertation, China University of Geosciences

  • Zhou X, Yan X, Li J, Yao JM, Dai WY (2007) Evolution of the groundwater environment under a long-term exploitation in the coastal area near Zhanjiang, China. Environ Geol 51(5):847–856

    CAS  Google Scholar 

  • Zhou PP, Li GM, Lu YD, Li M (2013) The hydrodynamic characteristics of groundwater in continental island-an example from Donghai Island, Zhanjiang. Hydrogeol Eng Geol 40(1):12–18 (in Chinese)

    CAS  Google Scholar 

Download references

Acknowledgements

This study was supported by the National Natural Science Foundation of China (Nos. 41372245, 41602256, 41641021) and the China Scholarship Council (201706690050). Lu acknowledges the support of the Alabama Water Resource Research Institute Grant and NSF EAR 1255724.

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Correspondence to Jiazhong Qian.

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He, X., Qian, J., Liu, Z. et al. Temporal-Spatial Evolution of Groundwater Nitrogen Pollution Over Seven Years in a Highly Urbanized City in the Southern China. Bull Environ Contam Toxicol 99, 753–759 (2017). https://doi.org/10.1007/s00128-017-2187-2

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  • DOI: https://doi.org/10.1007/s00128-017-2187-2

Keywords

  • Nitrogen pollution
  • Temporo-spatial variation
  • Groundwater
  • Nitrate
  • Nitrite
  • Ammonium
  • Zhanjiang