References

  1. P. Xu, W. Feng, H. Qian, Q. Zhang, Hydrogeochemical characterization and irrigation quality assessment of shallow groundwater in the central-western Guanzhong basin, China, Int. J. Environ. Res. Public Health, 16 (2019) 1–18.
  2. L. Santucci, E. Carol, C. Tanjal, Industrial waste as a source of surface and groundwater pollution for more than half a century in a sector of the Río de la Plata coastal plain (Argentina), Chemosphere, 206 (2018) 727–735.
  3. G. Matta, P. Naik, A. Kumar, L. Gjyli, A. Tiwari, J. Machell, Comparative study on seasonal variation in hydro-chemical parameters of Ganga River water using comprehensive pollution index (CPI) at Rishikesh (Uttarakhand) India, Desal. Water Treat., 118 (2018) 87–95.
  4. P. Li, J. Wu, H. Qian, Y. Zhang, N. Yang, L. Jing, P. Yu, Hydrogeochemical characterization of groundwater in and around a wastewater irrigated forest in the southeastern edge of the Tengger Desert, Northwest China, Exposure Health, 8 (2016) 331–348.
  5. J. Wu, L. Wang, S. Wang, R. Tian, C. Xue, W. Feng, Y. Li, Spatiotemporal variation of groundwater quality in an arid area experiencing long-term paper wastewater irrigation, northwest China, Environ. Earth Sci., 76 (2017) 1–14.
  6. G. Singh, M.S. Rishi, R. Herojeet, L. Kaur, K. Sharma, Multivariate analysis and geochemical signatures of groundwater in the agricultural dominated taluks of Jalandhar district, Punjab, India, J. Geochem. Explor., 208 (2020) 106395, doi: 10.1016/j. gexplo.2019.106395.
  7. M.M. Akhtar, A.D. Mohammad, M. Ehsan, R. Akhtar, J. ur Rehman, Z. Manzoor, Water resources of Balochistan, Pakistan—a review, Arabian J. Geosci., 14 (2021) 1–16.
  8. C.-M. Leung, J.J. Jiao, Heavy metal and trace element distributions in groundwater in natural slopes and highly urbanized spaces in Mid-Levels area, Hong Kong, Water Res., 40 (2006) 753–767.
  9. D.Q. Thuyet, H. Saito, T. Saito, S. Moritani, Y. Kohgo, T. Komatsu, Multivariate analysis of trace elements in shallow groundwater in Fuchu in western Tokyo Metropolis, Japan, Environ. Earth Sci., 75 (2016) 1–14.
  10. C.K. Singh, A. Kumar, S. Shashtri, A. Kumar, P. Kumar, J. Mallick, Multivariate statistical analysis and geochemical modeling for geochemical assessment of groundwater of Delhi, India, J. Geochem. Explor., 175 (2017) 59–71.
  11. I.A. Dar, K. Sankar, M.A. Dar, Spatial assessment of groundwater quality in Mamundiyar basin, Tamil Nadu, India, Environ. Monit. Assess., 178 (2011) 437–447.
  12. T. Tagma, Y. Hsissou, L. Bouchaou, L. Bouragba, S. Boutaleb, Groundwater nitrate pollution in Souss-Massa basin (southwest Morocco), Afr. J. Environ. Sci. Technol., 3 (2009) 301–309.
  13. K. Brindha, K.N. Vaman, K. Srinivasan, M.S. Babu, L. Elango, Identification of surface water-groundwater interaction by hydrogeochemical indicators and assessing its suitability for drinking and irrigational purposes in Chennai, Southern India, Appl. Water Sci., 4 (2014) 159–174.
  14. M.M. Akhtar, T. Zhonghua, Z. Sissou, B. Mohamadi, M. Ehsan, Analysis of geological structure and anthropological factors affecting arsenic distribution in the Lahore aquifer, Pakistan, Hydrogeol. J., 24 (2016) 1891–1904.
  15. A. Rasool, T. Xiao, A. Farooqi, M. Shafeeque, S. Masood, S. Ali, S. Fahad, W. Nasim, Arsenic and heavy metal contaminations in the tube well water of Punjab, Pakistan and risk assessment: a case study, Ecol. Eng., 95 (2016) 90–100.
  16. N. Abeer, S.A. Khan, S. Muhammad, A. Rasool, I. Ahmad, Health risk assessment and provenance of arsenic and heavy metal in drinking water in Islamabad, Pakistan, Environ. Technol. Innovation, 20 (2020) 101171, doi:10.1016/j.eti.2020.101171.
  17. H. Guo, D. Wen, Z. Liu, Y. Jia, Q. Guo, A review of high arsenic groundwater in Mainland and Taiwan, China: distribution, characteristics and geochemical processes, Appl. Geochem., 41 (2014) 196–217.
  18. X. He, P. Li, J. Wu, M. Wei, X. Ren, D. Wang, Poor groundwater quality and high potential health risks in the Datong Basin, northern China: research from published data, Environ. Geochem. Health, 43 (2021) 791–812.
  19. P. Li, J. Wu, Drinking water quality and public health, Exposure Health, 11 (2019) 73–79.
  20. J. Wu, Y. Zhang, H. Zhou, Groundwater chemistry and groundwater quality index incorporating health risk weighting in Dingbian County, Ordos basin of northwest China, Geochemistry, 80 (2020) 125607, doi:10.1016/j.chemer.2020.125607.
  21. A. Qadir, M. El-Rawy, Impact assessment of physiography, subsurface hydraulic gradients and lithologic heterogeneity on the groundwater quality, Iran. J. Sci. Technol. Trans. Civ. Eng., 184 (2021) 1–22.
  22. M. Pokras, Essentials of medical geology: impacts of the natural environment on public health, Environ. Health Perspect., 113 (2005) A780.
  23. J.-Y. Chung, S.-D. Yu, Y.-S. Hong, Environmental source of arsenic exposure, J. Preventive Med. Public Health, 47 (2014) 253–257.
  24. X. He, P. Li, Y. Ji, Y. Wang, Z. Su, V. Elumalai, Groundwater arsenic and fluoride and associated arsenicosis and fluorosis in China: occurrence, distribution and management, Exposure Health, 12 (2020) 355–368.
  25. P. Li, H. Qian, Water resources research to support a sustainable China, Int. J. Water Resour. Dev., 34 (2018) 327–336.
  26. H.S. Wheater, S.A. Mathias, X. Li, Groundwater Modelling in Arid and Semi-Arid Areas, Cambridge University Press, 2010.
  27. X. Feng, B. Fu, S. Piao, S. Wang, P. Ciais, Z. Zeng, Y. Lü, Y. Zeng, Y. Li, X. Jiang, Revegetation in China’s Loess Plateau is approaching sustainable water resource limits, Nature Clim. Change, 6 (2016) 1019–1022.
  28. J. Xiao, L. Wang, L. Deng, Z. Jin, Characteristics, sources, water quality and health risk assessment of trace elements in river water and well water in the Chinese Loess Plateau, Sci. Total Environ., 650 (2019) 2004–2012.
  29. S.U. Khan, D. Raza, U. Saeed, I. Younas, M. Arshad, M. Ali, S.R. Ahmad, Evaluation of foliage spread conversion into industrial land under the significance of urbanization and environment, Fresenius Environ. Bull., 29 (2020) 4612–4623.
  30. M.T. Sohail, Y. Mahfooz, K. Azam, Y. Yen, L. Genfu, S. Fahad, Impacts of urbanization and land cover dynamics on underground water in Islamabad, Pakistan, Desal. Water Treat., 159 (2019) 402–411.
  31. M. Giordano, Global groundwater? Issues and solutions, Annu. Rev. Environ. Resour., 34 (2009) 153–178.
  32. Y. Wada, L.P. Van Beek, C.M. Van Kempen, J.W. Reckman, S. Vasak, M.F. Bierkens, Global depletion of groundwater resources, Geophys. Res. Lett., 37 (2010), doi: 10.1029/2010 GL044571.
  33. A.S. Qureshi, Improving food security and livelihood resilience through groundwater management in Pakistan, Global Adv. Res. J. Agric. Sci., 4 (2015) 768–710.
  34. A. Mukherjee, Groundwater of South Asia, Springer, Singapore, 2018.
  35. W. Akram, M. Ahmad, J.A. Tariq, Z. Latif, M.R. Malik, Surface Water and Groundwater Interaction in Selected Areas of Indus Basin, Pakistan Institute of Nuclear Science and Technology, P.O. Nilore, Islamabad, Pakistan, 2011,
    28 pp.
  36. K. Ajdary, G.A. Kazemi, Quantifying changes in groundwater level and chemistry in Shahrood, northeastern Iran, Hydrogeol. J., 22 (2014) 469–480.
  37. G. Pakistan, Census Report, Haripur District, Khyber Pakhtunkhwa, Islamabad, Pakistan 2017.
  38. M.M.Q. Mirza, Q.K. Ahmad, Climate Change and Water Resources in South Asia, 1st ed., CRC Press, London, 2005.
  39. M. Qasim, M.A. Khan, M. Haneef, Stratigraphic characterization and structural analysis of the northwestern Hazara Ranges across Panjal Thrust, northern Pakistan, Arabian J. Geosci., 8 (2015) 7811–7829.
  40. A.G. Sheikh, Groundwater Resources in Pakhli Plain, Mansehra District, N.W.F.P., WAPDA, Peshawar, Pakistan, 1985.
  41. G. Kruseman, S. Naqavi, Hydrogeology and Groundwater Resources of the North-West Frontier Province Pakistan, WAPDA Hydrogeology Directorate, Peshawar, Peshawar, Pakistan, 1988.
  42. M.Y. Malik, M. Riaz, Groundwater Resources in Ghazi Area, Abbottabad District, NWFP, Technical Report No. VI-2, Peshawar, Pakistan, 1987, pp. 32.
  43. A.H. Kazmi, M.Q. Jan, Geology and Tectonics of Pakistan, Graphic Publishers, Karachi, Pakistan, 1997.
  44. WHO, Guidelines for Drinking-Water Quality, 3rd ed., World Health Organization, Geneva, 2011.
  45. T.G. Pakistan, National Standards for Drinking Water Quality, Govt. of Pakistan Islamabad, Pakistan, 2010.
  46. R.A. Freeze, J.A. Cherry, Groundwater, USA, 1979.
  47. I. Szabolcs, C. Darab, The influence of irrigation water of high sodium carbonate content on soils, Agrokémia és talajtan, 13 (1964) 237–246.
  48. E. Sumarga, L. Hein, Mapping ecosystem services for land use planning, the case of Central Kalimantan, Environ. Manage., 54 (2014) 84–97.
  49. I.R. Hegazy, M.R. Kaloop, Monitoring urban growth and land use change detection with GIS and remote sensing techniques in Daqahlia governorate Egypt, Int. J. Sustainable Built Environ., 4 (2015) 117–124.
  50. R. Nawaz, T. Ahmad, S. Nisa, Heavy metals concentration in selected soil samples collected from Haripur, Khyber Pakhtunkhwa, Sci. Int. (Lahore), 27 (2015) 6039–6043.
  51. A.M. Piper, A graphic procedure in the geochemical interpretation of water‐analyses, EOS, Transactions American Geophysical Union, 25 (1944) 914–928.
  52. W. Akram, J. Tariq, M. Ahmad, Major Ion Chemistry and Quality Assessment of Groundwater in Haripur Area, Pakistan Institute of Nuclear Science and Technology, 2011.
  53. N. Adimalla, J. Wu, Groundwater quality and associated health risks in a semi-arid region of south India: Implication to sustainable groundwater management, Human Ecol. Risk Assess.: Int. J., 25 (2019) 191–216.
  54. N. Adimalla, P. Li, Occurrence, health risks, and geochemical mechanisms of fluoride and nitrate in groundwater of the rockdominant semi-arid region, Telangana State, India, Human Ecol. Risk Assess.: Int. J., 25 (2019) 81–103.
  55. N. Adimalla, P. Li, H. Qian, Evaluation of groundwater contamination for fluoride and nitrate in semi-arid region of Nirmal Province, South India: a special emphasis on human health risk assessment (HHRA), Human Ecol. Risk Assess.: Int. J., 25 (2018) 1107–1124.
  56. P. Li, H. Qian, J. Wu, J. Chen, Y. Zhang, H. Zhang, Occurrence and hydrogeochemistry of fluoride in shallow alluvial aquifer of Weihe River, China, Environ. Earth Sci., 71 (2014) 3133–3145.
  57. J. Wu, P. Li, H. Qian, Hydrochemical characterization of drinking groundwater with special reference to fluoride in an arid area of China and the control of aquifer leakage on its concentrations, Environ. Earth Sci., 73 (2015) 8575–8588.
  58. S. Khelif, A. Boudoukha, Multivariate statistical characterization of groundwater quality in Fesdis, East of Algeria, J. Water Land Dev., 37 (2018) 65–74.
  59. K. Patnaik, S. Satyanarayana, S.P. Rout, Water pollution from major industries in Paradip area—a case study, Indian J. Environ. Health, 44 (2002) 203–211.
  60. V.K. Garg, S. Suthar, S. Singh, A. Sheoran, S. Jain, Drinking water quality in villages of southwestern Haryana, India: assessing human health risks associated with hydrochemistry, Environ. Geol., 58 (2009) 1329–1340.
  61. M. Kahlown, M. Ashraf, M. Hussain, H. Salam, A. Bhatti, Impact Assessment of Sewerage and Industrial Effluents on Water Resources, Soil, Crops and Human Health in Faisalabad, PCRWR, Islamabad, Pakistan 2006, pp. 105.
  62. N. Rao, Environmental impact of industrial effluents in groundwater regions of Visakhapatnam Industrial Complex, Indian J. Geol., 65 (1993) 35–43.
  63. H.U. Rasheed, B. Rasheed, A. Khan, N. Ali, Management of Hattar Industrial Estate’s effluent by phytoremediation technology, Int. J. Sci. Eng. Res., 4 (2013) 617–647.
  64. M.A. Malik, M. Azam, A. Saboor, Water Quality Status of Upper KPK and Northern Areas of Pakistan, Pakistan Council of Research in Water Resources, Water Resources Research Centre, Peshawar, 2010.
  65. P.E. Petersen, M.A. Lennon, Effective use of fluorides for the prevention of dental caries in the 21st century: the WHO approach, Community Dentistry Oral Epidemiol., 32 (2004) 319–321.
  66. A. Rasool, A. Farooqi, T. Xiao, W. Ali, S. Noor, O. Abiola, S. Ali, W. Nasim, A review of global outlook on fluoride contamination in groundwater with prominence on the Pakistan current situation, Environ. Geochem. Health, 40 (2018) 1265–1281.
  67. M.N. Tijani, Hydrogeochemical assessment of groundwater in Moro area, Kwara State, Nigeria, Environ. Geol., 24 (1994) 194–202.
  68. S.A. Ali, U. Ali, Hydrochemical characteristics and spatial analysis of groundwater quality in parts of Bundelkhand Massif, India, Appl. Water Sci., 8 (2018) 39, doi: 10.1007/s13201-018-0678-x.
  69. L. Wilcox, Classification and Use of Irrigation Waters, US Department of Agriculture, 1955.
  70. W. Kelley, AIkali Soils. Their Formation, Properties and Reclamation, Reinhold Publishing Co., New York, 1951.