Abstract
Nitrate has emerged as one of the most alarming and widespread contaminant of groundwater and surface water resources reported around the globe. Nitrate formation is an integral part of nitrogen cycle and is added either by the natural processes (atmospheric fixation, lightning storms) or through anthropogenic activities (fertilizer applications, septic tanks). Nitrate enters the hydrosphere easily, and its ingestion causes various health risks such as methemoglobinemia, cancer, diabetes, etc. on humans and to some extent on livestock populations as well. Agricultural practices and subsequent fertilizer application along with other anthropogenic activities are assumed to be the primary reason behind elevated levels of nitrate in groundwater. However, even under the similar ecological conditions, the reported occurrence of nitrate in groundwater is sporadic in nature, indicating the possible interference from other complex factors (including geogenic factors) and a dynamic release mechanism. Various concepts for the different sources and occurrence of nitrate in groundwater along with its health impacts are discussed in this chapter. Several existing and upcoming technologies are there to remove excess nitrate from potable water; these are also discussed in the chapter.
This is a preview of subscription content, log in via an institution.
References
Ahn SC, Oh S-Y, Cha DK (2008) Enhanced reduction of nitrate by zero-valent iron at elevated temperatures. J Hazard Mater 156:17–22
Akwensioge M (2012) The influence of anthropogenic nitrate on groundwater quality in the Thaba Nchu area. MSc thesis, University of the Free State Bloemfontein
Alonso Á, Camargo JA (2013) Nitrate causes deleterious effects on the behaviour and reproduction of the aquatic snail Potamopyrgus antipodarum (Hydrobiidae, Mollusca). Environ Sci Pollut Res 20(8):5388–5396. https://doi.org/10.1007/s11356-013-1544-x
Anayah FM, Almasri MN (2009) Trends and occurrences of nitrate in the groundwater of the West Bank, Palestine. Appl Geogr 29:588–601
Antiguedad E, Zabaleta A, Santos MM, Ruiz E, Uriarte J et al (2016) A simple multi-criteria approach to delimitate nitrate attenuation zones in alluvial floodplains. Four cases in south-western Europe. Ecol Eng. https://doi.org/10.1016/j.ecoleng.2016.09.007
Arora M, Eddy NK, Mumford KA, Baba Y, Perera JM, Stevens GW (2010) Surface modification of natural zeolite by chitosan and its use for nitrate removal in cold regions. Cold Reg Sci Technol 62:92–97
Ashok V, Hait S (2015) Remediation of nitrate-contaminated water by solid-phase denitrification process – a review. Environ Sci Pollut Res. https://doi.org/10.1007/s11356-015-4334-9
Azizullah A, Khattak MNK, Richter P, Hader DP (2011) Water pollution in Pakistan and its impact on public health – a review. Environ Int 37:479–497
Beutel MW, Duvil R, Cubas FJ, Grizzard TJ (2017) Effects of nitrate addition on water column methylmercury in Occoquan Reservoir, Virginia, USA. Water Res 110:288–296
Bhatnagar A, Sillanpaa M (2011) A review of emerging adsorbents for nitrate removal from water. Chem Eng J Elsevier 168:493–504
Bhatnagar A, Ji M, Choi J, Lee W, Kim SH, Lee SJ, Suk G, Kim HS, Min B, Jeon BH, Kang JW (2008) Removal of nitrate from water by adsorption onto zinc chloride treated activated carbon. Sep Sci Technol 43:886–907
Burrow KR, Nolan BT, Rupert MG, Dubrovsky NM (2010) Nitrate in groundwater of the United States, 1991–2003. Environ Sci Technol 44:4988–4997
Cengeloglu Y, Tor A, Ersoz M, Arslan G (2006) Removal of nitrate from aqueous solution by using red mud. Sep Purif Technol 51:374–378
Cerdeira AL, Paraiba LC, Kataguiri K, Bolonhezi D, Gomes MAF, Spadotto CA, Neto CF, Matallo MB, Momm H (2008) Nitrate in groundwater in Ribeirão Preto City area in Brazil. Pesticidas: Rev ecotoxicol e meio ambiente 18:1–8
CGWB (Central Ground Water Board) (2012) Aquifer systems of India. Ministry of Water Resources. Government of India. http://www.cgwb.gov.in/AQM/India.pdf. Accessed 20 Jan 2016
CGWB (Central Ground Water Board) (2014) Concept note on geogenic contamination of ground water in India with a special note on nitrate. http://www.cgwb.gov.in/WQ/Geogenic%20Final.pdf. Accessed 19 Sept 2016
Cheong JY, Hamm SY, Lee JH, Lee KS, Woo NC (2012) Groundwater nitrate contamination and risk assessment in an agricultural area, South Korea. Environ Earth Sci 66:1127–1136
Comly HH (1945) Cyanosis in infants caused by nitrates in well-water. JAMA 129(2):112–116
Dahan O, Babad A, Lazarovitch N, Russak EE, Kurtzman D (2014) Nitrate leaching from intensive organic farms to groundwater. Hydrol Earth Syst Sci 18:333–341
Dar IA, Dar MA, Sankar K (2009) Nitrate contamination in groundwater of Sopore town and its environs, Kashmir, India. Arab J Geosci 3:267–272
DeRoos AJ, Ward MH, Lynch CF, Cantor KP (2003) Nitrate in public water supplies and the risk of colon and rectum cancers. Epidemiology 14:640–649
Devic G, Djordjevic D, Sakan S (2014) Natural and anthropogenic factors affecting the groundwater quality in Serbia. Sci Total Environ 468–469:933–942
EPA (2012) National primary drinking water regulations, Washington, DC. https://www.epa.gov/ground-water-and-drinking-water/national-primary-drinking-water-regulations. Accessed 26 Sept 2017
Eskiocak S, Dundar C, Basoglu T, Altaner S (2005) The effects of taking chronic nitrate by drinking water on thyroid functions and morphology. J Clin Exp Med 5:66–71
Fathmawati F, Gravitiani J, Sarto E, Husodo AH (2017) Nitrate in drinking water and risk of colorectal cancer in Yogyakarta, Indonesia. J Toxicol Environ Health Part A. https://doi.org/10.1080/15287394.2016.1260508
Feichtinger F, Smidt S, Klaghofer E (2002) Water and nitrate fluxes at a forest site in the north Tyrolean Limestone Alps. Environ Sci Pollut Res 2:31–36
Fianko JR, Osae S, Adomako D, Achel DG (2009) Relationship between land use and groundwater quality in six districts in the eastern region of Ghana. Environ Monit Assess 153:139–146
Galloway JN, Aber JD, Erisman JW, Seitzinger SP, Howarth RW, Cowling EB, Cosby BJ (2003) The nitrogen cascade. Bioscience 53(4):341–356
Galloway JN et al (2004) Nitrogen cycles: past, present, and future. Biogeochemistry 70:153–226
Gong L, Huo M, Yang Q, Li J, Ma B, Zhu R, Wang S, Peng Y (2013) Performance of heterotrophic partial denitrification under feast famine condition of electron donor: a case study using acetate as external carbon source. Bioresour Technol 133:263–269
Gun JVD (2012) Groundwater and global change: trends, opportunities and challenges. United Nations World Water Assessment Programme. http://environmentportal.in/files/file/groundwater%20and%20global%20change.pdf. Accessed 10 Sept 2017
Gupta A, Ronghang M, Kumar P, Mehrotra I, Kumar S, Grischek T, Sandhu C, Knoeller K (2015) Nitrate contamination of riverbank filtrate at Srinagar, Uttarakhand, India: a case of geogenic mineralization. J Hydrol 531:626–637
Holloway JM, Dahlgren RA (2002) Nitrogen in rock: occurrences and biogeochemical implications. Glob Biogeochem Cycles 16(4):65-1–6517. 1118
Holloway JM, Smith RL (2005) Nitrogen and carbon flow from rock to water: regulation through soil biogeochemical processes, Mokelumne River watershed, California, and Grand Valley, Colorado. J Geophys Res 110:F01010
Houben G, Tünnermeier T, Eqrar N, Himmelsbach T (2009) Hydrogeology of the Kabul Basin (Afghanistan), part II: groundwater geochemistry. Hydrogeol J 17(4):935–948
Jacks G, Sharma VP (1983) Nitrogen circulation and nitrate in groundwater in an agricultural catchment in Southern India. Environ Geol 5(2):61–64
Janjevic D (2017) Nitrate threatens groundwater in Germany. http://p.dw.com/p/2VBY0. Accessed 27 Sept 2017
Jiang C, Liu Y, Chen Z, Megharaj M, Naidu R (2013) Impact of iron based nanoparticles on microbial denitrification by Paracoccus sp. strain YF1. Aquat Toxicol 142–143:329–335
Khani A, Mirzaei M (2008) Comparative study of nitrate removal from aqueous solution using powder activated carbon and carbon nanotubes. In: 2nd international IUPAC conference on green chemistry, vol 2, pp 14–19
Kincheloe JW, Wedemeyer GA, Koch DL (1979) Tolerance of developing salmonid eggs and fry to nitrate exposure. Bull Environ Contam Toxicol 3:575–578
Lapworth DJ, Krishan G, MacDonald AM, Rao MS (2017) Groundwater quality in the alluvial aquifer system of northwest India: new evidence of the extent of anthropogenic and geogenic contamination. Sci Total Environ 599–600:1433–1444
Lokesh K (2013) A study of nitrate contamination in ground water of Delhi, India. Asian J Water Environ Pollut 10(2):91–94
Lorenzen G, Sprenger C, Baudron P, Gupta D, Pekdeger A (2012) Origin and dynamics of groundwater salinity in the alluvial plains of western Delhi and adjacent territories of Haryana state. India Hydrol Process 26:2333–2345
Lundberg JO et al (2009) Nitrate and nitrite in biology, nutrition and therapeutics. Nat Chem Biol 5(12):865–869
Margat J, Gun JVD (2013) Groundwater around the world, a geographic synopsis. CRC Press, Boca Raton. ISBN 13: 978-0203-77214-0
Mena-Duran CJ, Sun Kou MR, Lopez T, Azamar-Barrios JA, Aguilar DH, Domínguez MI, Odriozola JA, Quintana P (2007) Nitrate removal using natural clays modified by acid thermos activation. Appl Surf Sci 253:5762–5766
Miller WW, Johnson DW, Denton C, Verburg PSJ, Dana GL, Walker RF (2005) In conspicuous nutrient laden surface runoff from mature forest Sierra watersheds. Water Air Soil Pollut 163:3–17
Miyamoto C, Ketterings Q, Cherney J, Kilcer T (2008) Nitrogen fixation, agronomy fact sheet series. http://nmsp.cals.cornell.edu/publications/factsheets/factsheet39.pdf. Accessed 10 Oct 2017
Mizuta K, Matsumoto T, Hatate Y, Nishihara K, Nakanishi T (2004) Removal of nitrate-nitrogen from drinking water using bamboo powder charcoal. Bioresour Technol 95(2004):255–257
Moore E, Matalon E (2011) The human costs of nitrate-contaminated drinking water in the San Joaquin Valley. Pacific Institute, Oakland. ISBN: 1-893790-31-2. ISBN 13: 978-1-893790-31-5
Mueller DK, Helsel DR (1996) Nutrients in the nation’s waters too much of a good thing. U.S. Geological Survey Circular, 1136. https://pubs.usgs.gov/circ/1996/1136/report.pdf. Accessed 12 Aug 2017
Orlando US, Baes AU, Nishijima W, Okada M (2002) A new procedure to produce lignocellulosic anion exchangers from agricultural waste materials. Bioresour Technol 83:195–198
Otero N, Torrento CA, Soler A, Mencio A, Mas Pla J (2009) Monitoring groundwater nitrate attenuation in a regional system coupling hydrogeology with multi-isotopic methods: the case of Plana de Vic (Osona, Spain). Agric Ecosyst Environ 133:103–113
Potter P, Ramankutty N, Bennett EM, Donner SD (2010) Characterizing the spatial patterns of global fertilizer application and manure production. Earth Interact 14(2):1–22. https://doi.org/10.1175/2009EI288.1. Accessed 10 Sept 2017
Potter P, Ramankutty N, Bennett EM, Donner SD (2011) Global fertilizer and manure, version 1: nitrogen fertilizer application. NASA Socioeconomic Data and Applications Center (SEDAC), Palisades. https://doi.org/10.7927/H4Q81B0R. Accessed 06 Aug 2017
Power JF, Bond JJ, Sandoval FM, Willis WO (1974) Nitrification in Paleocene shale. Science 183:1077–1079
Rai SN (2003) Groundwater pollution in India- an overview. Groundwater pollution. Allied Publ. Pvt. Ltd., pp 419–436
RamanaMurty SV (2013) Medicine update: methemoglobinemia – a reappraisal with an Indian perspective, Chapter 77. In: Muruganathan A (ed) Medicine update volume 23:2013, 1st edn. Jaypee Brothers Medical publisher, New Delhi, pp 344–349
Rao EVSP, Puttanna K (2006) Strategies for combating nitrate pollution. Curr Sci 91(10): 1335–1339
Reddy AGS, Kumar KN, Rao DS, Rao SS (2009) Assessment of nitrate contamination due to groundwater pollution in north eastern part of Anantapur District, A. P. India. Environ Monit Assess 148:463–476
Resende AA, eSilva VC, de Lima HM (2014) Study of non-conventional fuels for explosives mixes. R. Esc Minas Ouro Preto 67(3):297–302
Roy S, Speed C, Bennie J, Swift R, Wallace P (2007) Identifying the significant factors that influence temporal and spatial trends in nitrate concentrations in the Dorset and Hampshire Basin Chalk aquifer of Southern England. Q J Eng Geol Hydrogeol 40:377–392
Sadeq M, Moe CL, Attarassi B, Cherkaoui I, Elaouad R, Idrissi L (2008) Drinking water nitrate and prevalence of methemoglobinemia among infants and children aged 1–7 years in Moroccan areas. Int J Hyg Environ Health 211:546–554
Sahoo PK, Kim K, Powell MA (2016) Managing groundwater nitrate contamination from livestock farms: implication for nitrate management guidelines. Curr Pollut Rep 2:178. https://doi.org/10.1007/s40726-016-0033-5
Samatya S, Kabay N, Yuksel U, Arda M, Yuksel M (2006) Removal of nitrate from aqueous solution by nitrate selective ion exchange resins. Reac Funct Polym 66:1206–1214
Schoeman JJ, Steyn A (2003) Nitrate removal with reverse osmosis in a rural area in South Africa. Desalination 155:15–26
Self R, Waskom RM (2014) Nitrates in drinking water, fact sheet no. 0.517 crop series soil. http://extension.colostate.edu/docs/pubs/crops/00517.pdf. Accessed 18 Oct 2016
Shams S (2010) Assessing innovative technologies for nitrate removal from drinking water. MS thesis, Waterloo
Shomar B, Osenbrück K, Yahya A (2008) Elevated nitrate levels in the groundwater of the Gaza Strip: distribution and sources. Sci Total Environ 398:164–174
Shyam R, Kalwania GS (2011) Graphical and statistical approaches to assess the quality of ground water of Sikar city, Rajasthan, India. Int J Environ Sci 2:2
Singh KP, Singh VK, Malik A, Basant N (2006) Distribution of nitrogen species in groundwater aquifers of an industrial area in alluvial Indo-Gangetic Plains – a case study. Environ Geochem Health 28(5):473–485
Soares MIM (2000) Biological denitrification of groundwater. Water Air Soil Pollut 123:183–193
Spalding RF, Exner ME (1993) Occurrence of nitrate in groundwater. J Environ Qual 22:392–402
Stüeken EE, Kipp MA, Koehler MC (2016) The evolution of Earth’s biogeochemical nitrogen cycle. Earth Sci Rev. https://doi.org/10.1016/j.earscirev.2016.07.007
Suthar S, Bishnoi P, Singh S, Mutiyar PK, Nema AK, Patil NS (2009) Nitrate contamination in groundwater of some rural areas of Rajasthan, India. J Hazard Mater 171:189–199
Tagma T, Hsissou Y, Bouchaou L, Bouragba L, Boutaleb S (2009) Groundwater nitrate pollution in Souss-Massa basin (south-west Morocco). Afr J Environ Sci Technol 3(10):301–309
Tambekar DH, Neware BB (2012) Water quality index and multivariate analysis for groundwater quality assessment of villages of rural India. Sci Res Report 2(3):229–235
Thorburn PJ, Biggs JS, Weier KL, Keating BA (2003) Nitrate in groundwaters of intensive agricultural areas in coastal Northeastern Australia. Agric Ecosyst Environ 3(94):49–58
Vijay R, Khobragade P, Mohapatra PK (2011) Assessment of groundwater quality in Puri City, India: an impact of anthropogenic activities. Environ Monit Assess 177(1–4):409–418
Vinod PN, Chandramouli PN, Koch M (2015) Estimation of nitrate leaching in groundwater in an agriculturally used area in the State Karnataka, India, using existing model and GIS. Aquat Procedia 4:1047–1053
Wang Y, Gao B-Y, Yue W-W, Yue Q-Y (2007) Adsorption kinetics of nitrate from aqueous solutions onto modified wheat residue. Colloids Surf A: Physicochem Eng Aspects 308:1–5
WHO (World Health Organization) (2011) Guidelines for drinking-water quality, 4th edn. World Health Organization, Geneva. Available: http://www.who.int/water_sanitation_health/dwq/guidelines/en/. Accessed 10 Apr 2017
Wongsanit J, Teartisup P, Kerdsueb P, Tharnpoophasiam P, Worakhunpiset S (2015) Contamination of nitrate in groundwater and its potential human health: a case study of lower Mae Klong river basin, Thailand. Environ Sci Pollut Res 22:11504–11512
Xi Y, Mallavarapu M, Naidu R (2010) Preparation, characterization of surfactants modified clay minerals and nitrate adsorption. Appl Clay Sci 48:92–96
Zekster IS, Everett LG (2004) Groundwater resources of the world and their use, IHP-VI, series on groundwater no. 6. United Nations Educational, Scientific and Cultural Organization, Paris. http://unesdoc.unesco.org/images/0013/001344/134433e.pdf. Accessed 16 Oct 2017
Zhou W, Sun Y, Wu B, Zhang Y, Huang M, Miyanaga T, Zhang Z (2011) Autotrophic denitrification for nitrate and nitrite removal using sulphur-limestone. J Environ Sci 23(11):1761–1769
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Section Editor information
Rights and permissions
Copyright information
© 2018 Springer International Publishing AG
About this entry
Cite this entry
Shukla, S., Saxena, A. (2018). Global Status of Nitrate Contamination in Groundwater: Its Occurrence, Health Impacts, and Mitigation Measures. In: Hussain, C. (eds) Handbook of Environmental Materials Management. Springer, Cham. https://doi.org/10.1007/978-3-319-58538-3_20-1
Download citation
DOI: https://doi.org/10.1007/978-3-319-58538-3_20-1
Received:
Accepted:
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-58538-3
Online ISBN: 978-3-319-58538-3
eBook Packages: Springer Reference Chemistry and Mat. ScienceReference Module Physical and Materials ScienceReference Module Chemistry, Materials and Physics