Impact of urbanization coupled with drought situations on groundwater quality in shallow (basalt) and deeper (granite) aquifers with special reference to fluoride in Nanded-Waghala Municipal Corporation, Nanded District, Maharashtra (India)
Rapid expansion in urbanization and industrialization coupled with recent drought conditions has triggered unplanned groundwater development leading to severe stress on groundwater resources in many urban cities of India, particularly cities like Nanded, Maharashtra. In the quest of tapping drinking...
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| Published in: | Environmental monitoring and assessment Vol. 189; no. 9; p. 428 |
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| Abstract | Rapid expansion in urbanization and industrialization coupled with recent drought conditions has triggered unplanned groundwater development leading to severe stress on groundwater resources in many urban cities of India, particularly cities like Nanded, Maharashtra. In the quest of tapping drinking water requirement, due to recent drought conditions, people from the city are piercing through entire thickness of shallow basalt aquifers to reach productive deeper granite aquifers. Earlier reports from Nanded and surrounding districts suggest that deeper granite aquifer is contaminated with fluoride (geogenic). The study aimed to find out variations in fluoride concentration in shallow basalt (10–167 m) and deeper granite aquifers (below 167 m) and to find out the relationship between fluoride and other ions. Study suggests that concentration of fluoride in shallow basalt aquifer is within maximum permissible limits of Bureau of Indian Standards and deeper granite aquifer contains as high as 4.9 mg/l of fluoride and all samples from granite aquifers are unfit for human consumption. The groundwater from basalt aquifer is mainly Ca-HCO
3−
Cl type, and from granite aquifer, it is Ca-Na-Cl type. The correlation plot between F
−
vs. pH, Na
+
and HCO
3
−
shows a positive correlation and an inverse relationship with Ca
2+
in both aquifers. As recommendations, it is suggested that granite aquifers should not be tapped for drinking purposes; however, in drought situations, water from this aquifer should be blended with treated surface water before supplying for drinking purposes. Efforts may be made to utilize 1.35 MCM of rainwater from available rooftop, which is sufficient to cater for the needs of ~40,800 people annually. Most effective defluoridation techniques like electrolytic de-fluoridation (EDF), ion exchange and reverse osmosis may be adopted along with integrated fluorosis mitigation measures. |
|---|---|
| AbstractList | Rapid expansion in urbanization and industrialization coupled with recent drought conditions has triggered unplanned groundwater development leading to severe stress on groundwater resources in many urban cities of India, particularly cities like Nanded, Maharashtra. In the quest of tapping drinking water requirement, due to recent drought conditions, people from the city are piercing through entire thickness of shallow basalt aquifers to reach productive deeper granite aquifers. Earlier reports from Nanded and surrounding districts suggest that deeper granite aquifer is contaminated with fluoride (geogenic). The study aimed to find out variations in fluoride concentration in shallow basalt (10–167 m) and deeper granite aquifers (below 167 m) and to find out the relationship between fluoride and other ions. Study suggests that concentration of fluoride in shallow basalt aquifer is within maximum permissible limits of Bureau of Indian Standards and deeper granite aquifer contains as high as 4.9 mg/l of fluoride and all samples from granite aquifers are unfit for human consumption. The groundwater from basalt aquifer is mainly Ca-HCO
3−
Cl type, and from granite aquifer, it is Ca-Na-Cl type. The correlation plot between F
−
vs. pH, Na
+
and HCO
3
−
shows a positive correlation and an inverse relationship with Ca
2+
in both aquifers. As recommendations, it is suggested that granite aquifers should not be tapped for drinking purposes; however, in drought situations, water from this aquifer should be blended with treated surface water before supplying for drinking purposes. Efforts may be made to utilize 1.35 MCM of rainwater from available rooftop, which is sufficient to cater for the needs of ~40,800 people annually. Most effective defluoridation techniques like electrolytic de-fluoridation (EDF), ion exchange and reverse osmosis may be adopted along with integrated fluorosis mitigation measures. Rapid expansion in urbanization and industrialization coupled with recent drought conditions has triggered unplanned groundwater development leading to severe stress on groundwater resources in many urban cities of India, particularly cities like Nanded, Maharashtra. In the quest of tapping drinking water requirement, due to recent drought conditions, people from the city are piercing through entire thickness of shallow basalt aquifers to reach productive deeper granite aquifers. Earlier reports from Nanded and surrounding districts suggest that deeper granite aquifer is contaminated with fluoride (geogenic). The study aimed to find out variations in fluoride concentration in shallow basalt (10-167 m) and deeper granite aquifers (below 167 m) and to find out the relationship between fluoride and other ions. Study suggests that concentration of fluoride in shallow basalt aquifer is within maximum permissible limits of Bureau of Indian Standards and deeper granite aquifer contains as high as 4.9 mg/l of fluoride and all samples from granite aquifers are unfit for human consumption. The groundwater from basalt aquifer is mainly Ca-HCO3-Cl type, and from granite aquifer, it is Ca-Na-Cl type. The correlation plot between F- vs. pH, Na+ and HCO3 - shows a positive correlation and an inverse relationship with Ca2+ in both aquifers. As recommendations, it is suggested that granite aquifers should not be tapped for drinking purposes; however, in drought situations, water from this aquifer should be blended with treated surface water before supplying for drinking purposes. Efforts may be made to utilize 1.35 MCM of rainwater from available rooftop, which is sufficient to cater for the needs of ~40,800 people annually. Most effective defluoridation techniques like electrolytic de-fluoridation (EDF), ion exchange and reverse osmosis may be adopted along with integrated fluorosis mitigation measures. Rapid expansion in urbanization and industrialization coupled with recent drought conditions has triggered unplanned groundwater development leading to severe stress on groundwater resources in many urban cities of India, particularly cities like Nanded, Maharashtra. In the quest of tapping drinking water requirement, due to recent drought conditions, people from the city are piercing through entire thickness of shallow basalt aquifers to reach productive deeper granite aquifers. Earlier reports from Nanded and surrounding districts suggest that deeper granite aquifer is contaminated with fluoride (geogenic). The study aimed to find out variations in fluoride concentration in shallow basalt (10-167 m) and deeper granite aquifers (below 167 m) and to find out the relationship between fluoride and other ions. Study suggests that concentration of fluoride in shallow basalt aquifer is within maximum permissible limits of Bureau of Indian Standards and deeper granite aquifer contains as high as 4.9 mg/l of fluoride and all samples from granite aquifers are unfit for human consumption. The groundwater from basalt aquifer is mainly Ca-HCO3-Cl type, and from granite aquifer, it is Ca-Na-Cl type. The correlation plot between F- vs. pH, Na+ and HCO3- shows a positive correlation and an inverse relationship with Ca2+ in both aquifers. As recommendations, it is suggested that granite aquifers should not be tapped for drinking purposes; however, in drought situations, water from this aquifer should be blended with treated surface water before supplying for drinking purposes. Efforts may be made to utilize 1.35 MCM of rainwater from available rooftop, which is sufficient to cater for the needs of ~40,800 people annually. Most effective defluoridation techniques like electrolytic de-fluoridation (EDF), ion exchange and reverse osmosis may be adopted along with integrated fluorosis mitigation measures. Rapid expansion in urbanization and industrialization coupled with recent drought conditions has triggered unplanned groundwater development leading to severe stress on groundwater resources in many urban cities of India, particularly cities like Nanded, Maharashtra. In the quest of tapping drinking water requirement, due to recent drought conditions, people from the city are piercing through entire thickness of shallow basalt aquifers to reach productive deeper granite aquifers. Earlier reports from Nanded and surrounding districts suggest that deeper granite aquifer is contaminated with fluoride (geogenic). The study aimed to find out variations in fluoride concentration in shallow basalt (10-167 m) and deeper granite aquifers (below 167 m) and to find out the relationship between fluoride and other ions. Study suggests that concentration of fluoride in shallow basalt aquifer is within maximum permissible limits of Bureau of Indian Standards and deeper granite aquifer contains as high as 4.9 mg/l of fluoride and all samples from granite aquifers are unfit for human consumption. The groundwater from basalt aquifer is mainly Ca-HCO Cl type, and from granite aquifer, it is Ca-Na-Cl type. The correlation plot between F vs. pH, Na and HCO shows a positive correlation and an inverse relationship with Ca in both aquifers. As recommendations, it is suggested that granite aquifers should not be tapped for drinking purposes; however, in drought situations, water from this aquifer should be blended with treated surface water before supplying for drinking purposes. Efforts may be made to utilize 1.35 MCM of rainwater from available rooftop, which is sufficient to cater for the needs of ~40,800 people annually. Most effective defluoridation techniques like electrolytic de-fluoridation (EDF), ion exchange and reverse osmosis may be adopted along with integrated fluorosis mitigation measures. |
| ArticleNumber | 428 |
| Author | Sangnor, H. Pandith, Madhnure Kaplay, R.D Rao, A.D. Potdar, S. S. |
| Author_xml | – sequence: 1 givenname: Madhnure surname: Pandith fullname: Pandith, Madhnure email: pandithmadhnure@gmail.com organization: Central Ground Water Board – sequence: 2 givenname: R.D surname: Kaplay fullname: Kaplay, R.D organization: School of Earth Sciences, SRTM University – sequence: 3 givenname: S. S. surname: Potdar fullname: Potdar, S. S. organization: Department of Geology, NES Science College – sequence: 4 givenname: H. surname: Sangnor fullname: Sangnor, H. organization: Groundwater Survey and Development Agency – sequence: 5 givenname: A.D. surname: Rao fullname: Rao, A.D. organization: Central Ground Water Board, Southern Region |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/28770429$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1016_j_jconhyd_2021_103895 crossref_primary_10_2166_aqua_2020_108 crossref_primary_10_1016_j_gsd_2019_100224 crossref_primary_10_1007_s12517_021_09222_5 crossref_primary_10_1016_j_gsd_2021_100576 crossref_primary_10_21523_gcj3_18020104 crossref_primary_10_4236_ojmh_2023_131001 crossref_primary_10_1007_s10040_022_02503_7 crossref_primary_10_1007_s12517_018_4136_8 crossref_primary_10_1007_s13201_019_1042_5 crossref_primary_10_1007_s11356_021_15554_2 crossref_primary_10_1016_j_gsd_2024_101115 crossref_primary_10_1080_10807039_2022_2081837 crossref_primary_10_1016_j_etap_2023_104356 crossref_primary_10_1061__ASCE_UP_1943_5444_0000730 |
| Cites_doi | 10.1080/10643380600678112 10.1007/s00254-005-0089-9 10.1111/j.1745-6584.1973.tb02987.x 10.1029/TR021i001p00046 10.1007/s002540100290 10.1029/TR025i006p00914 10.1007/BF00775055 10.2105/AJPH.83.2.270 10.1007/s12665-013-2841-x 10.1016/j.apgeochem.2004.07.002 10.1007/s002540050221 10.1111/j.1745-6584.1984.tb01474.x 10.1016/0022-1694(92)90055-Z 10.1007/s10661-015-4999-z 10.1007/s10661-009-1300-3 10.2138/rmg.2002.48.2 10.1007/BF01701569 10.2138/rmg.2002.46.01 10.1039/9781782628507-00003 10.1007/s10661-015-5027z 10.1111/j.1745-6584.1973.tb02983.x 10.1007/s12594-014-0138-7 10.1007/s100400050152 10.1007/s00254-002-0702-0 |
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| Keywords | Urbanization Basalt Groundwater Granite and fluoride Aquifer |
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| Snippet | Rapid expansion in urbanization and industrialization coupled with recent drought conditions has triggered unplanned groundwater development leading to severe... |
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| SubjectTerms | Aquifers Atmospheric Protection/Air Quality Control/Air Pollution Basalt Calcium Contamination Correlation Drinking water Drought Drought conditions Droughts Earth and Environmental Science Ecology Ecotoxicology Environment Environmental Management Environmental Monitoring Environmental science Fluoridation Fluorides Fluorides - analysis Fluorosis Fluorosis, Dental Granite Groundwater Groundwater - chemistry Groundwater potential Groundwater quality Groundwater resources Humans India Industrial development Industrialization Ion exchange Mitigation Monitoring/Environmental Analysis Phosphates Piercing Rain Rain water Reverse osmosis Silicates Silicon Dioxide Surface water Urbanization Water Pollutants, Chemical - analysis Water Purification Water quality Water resources Water resources management |
| Title | Impact of urbanization coupled with drought situations on groundwater quality in shallow (basalt) and deeper (granite) aquifers with special reference to fluoride in Nanded-Waghala Municipal Corporation, Nanded District, Maharashtra (India) |
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