Chemometric appraisal of water quality for domestic and agricultural purposes: a case study from establishing Rooppur Nuclear Power Plant (NPP) area, Pabna District, Bangladesh.
EPZ
Groundwater
Heavy metal
Pollution assessment
RNPP
Journal
Environmental science and pollution research international
ISSN: 1614-7499
Titre abrégé: Environ Sci Pollut Res Int
Pays: Germany
ID NLM: 9441769
Informations de publication
Date de publication:
Aug 2022
Aug 2022
Historique:
received:
15
07
2021
accepted:
15
02
2022
pubmed:
30
3
2022
medline:
18
8
2022
entrez:
29
3
2022
Statut:
ppublish
Résumé
Water is the main sources for domestic purposes and as well as for both farming and industrial activities. Therefore, this study investigated the quality of groundwater at Ishwardi, Pabna district of Bangladesh. This study showed that the heavy metals such as Pb, Cd, Cr, As, Ni, Cu, Zn, and Fe were remaining in trace amount. The groundwater quality index (GWQI), heavy metal evaluation index (HEI), heavy metal pollution index (HPI), and degree of contamination (C
Identifiants
pubmed: 35347605
doi: 10.1007/s11356-022-19308-6
pii: 10.1007/s11356-022-19308-6
doi:
Substances chimiques
Metals, Heavy
0
Water Pollutants, Chemical
0
Sodium
9NEZ333N27
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Pagination
56620-56641Subventions
Organisme : ministry of science and technology, government of the people's republic of bangladesh
ID : Grant-1927
Organisme : ministry of science and technology, government of the people's republic of bangladesh
ID : 2019-'20
Informations de copyright
© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.
Références
Adhikary SK, Manjur-A-Elahi M, Hossain AMI (2012) Assessment of shallow groundwater quality from six wards of Khulna City Corporation, Bangladesh Int. J Appl Sci Eng Res 1(3):489–498
Adimalla N (2019) Groundwater quality for drinking and irrigation purposes and potential health risks assessment: a case study from semi-arid region of South India. Expos Health 11:109–123
doi: 10.1007/s12403-018-0288-8
Adimalla N, Venkatayogi S (2018) In the study area groundwater and surface water is mainly used for household, agricultural and industrial purpose. Appl Water Sci 8:44
doi: 10.1007/s13201-018-0682-1
Ahmad MK, Islam S, Rahman S, Haque MR, Islam MM (2010) Heavy metals in water, sediment and some fishes of Buriganga river, Bangladesh. Int J Environ Res 4:321–332. https://doi.org/10.22059/ijer.2010.24
doi: 10.22059/ijer.2010.24
Ahmed G, Miah MA, Anawar HM, Chowdhury DA, Ahmad JU (2012) Influence of multi-industrial activities on trace metal contamination: an approach towards surface water body in the vicinity of Dhaka Export Processing Zone (DEPZ). Environ Monit Assess 184:4181–4190. https://doi.org/10.1007/s10661-011-2254-9
doi: 10.1007/s10661-011-2254-9
Alobaidy AHMJ, Abid HS, Maulood BK (2010) Application of water quality index for assessment of Dokan lake ecosystem, Kurdistan region. Iraq J Water Resour Prot 2(9):792–798
doi: 10.4236/jwarp.2010.29093
Alrajhi A, Beecham S, Bolan NS, Hassanli A (2015) Evaluation of soil chemical properties irrigated with recycled wastewater under partial root-zone drying irrigation for sustainable tomato production. Agric Water Manag 161:127–135
doi: 10.1016/j.agwat.2015.07.013
An TD, Tsujimura M, Le Phu V, Kawachi A, Ha DT (2014) Chemical characteristics of surface water and groundwater in Coastal Watershed, Mekong Delta, Vietnam. Proc Environ Sci 20:712721
doi: 10.1016/j.proenv.2014.03.085
APHA-AWWA-WEF (2005) Standard methods for the examination of water and wastewater, 20th edn. APHA, AWWA and WEF, Washington DC
Ayres RS, Westcot DW (1985) Water quality for agriculture. Irrigation and Drainage Paper No. 29. Food and Agriculture Organization of the United Nations. Rome, pp 1–117
Babu SMOF, Hossain MB, Rahman MS, Rahman M, Ahmed ASS, Hasan MM, Rakib A, Emran TB, Xiao J, Simal-Gandara J (2021) Phytoremediation of trace elements: a sustainable green solution for clean environment. Appl Sci 11(21):10348. https://doi.org/10.3390/app112110348
doi: 10.3390/app112110348
Backman B, Bodis D, Lahermo P, Rapant S, Tarvainen T (1997) Application of a groundwater contamination index in Finland and Slovakia. Environ Geol 36:55–64
doi: 10.1007/s002540050320
Baig JA, Kazi TG, Arain MB, Afridi HI, Kandhro GA, Sarfraz RA, Shah AQ (2009) Evaluation of arsenic and other physico-chemical parameters of surface and ground water of Jamshoro, Pakistan. J Hazard Mater 166(2):662–669
doi: 10.1016/j.jhazmat.2008.11.069
Barik R, Pattanayak SK (2019) Assessment of groundwater quality for irrigation of green spaces in the Rourkela city of Odisha, India. Groundw Sustain Dev 8:428–438
doi: 10.1016/j.gsd.2019.01.005
BGS DPHE (2001) Arsenic contamination of groundwater in Bangladesh. In: BGS/Technical Report, WC/0019
Bhattacharya AK (2010) Artificial ground water recharge with a special reference to India. Int J Res Rev Appl Sci 4:214–221
Bhuiyan MAH, Dampare SB, Islam MA, Suzuki S (2015a) Source apportionment and pollution evaluation of heavy metals in water and sediments of Buriganga River, Bangladesh, using multivariate analysis and pollution evaluation indices. Environ Monit Assess 187:4075
doi: 10.1007/s10661-014-4075-0
Bodrud-Doza M, Islam ARMT, Ahmed F, Das S, Saha N, Rahman MS (2016) Characterization of groundwater quality using water evaluation indices, multivariate statistics and geostatistics in central Bangladesh. Water Sci J 30(1):19–40
doi: 10.1016/j.wsj.2016.05.001
Bodrud-Doza M, Didar-Ul Islam SM, Rume T, Quraishi SB, Rahman MS, Bhuiyan MAH (2020) Groundwater quality and human health risk assessment for safe and sustainable water supply of Dhaka City dwellers in Bangladesh. Groundw Sustain Dev 10(2020):100374
doi: 10.1016/j.gsd.2020.100374
Brindha K, Pavelic P, Sotoukee T, Douangsavanh S, Elango L (2017) Geochemical characteristics and groundwater quality in the Vientiane Plain, Laos. Expo Health 9(2):89–104
doi: 10.1007/s12403-016-0224-8
Brown RM, McCleiland NJ, Deininger RA, O’Connor MF (1972) A water quality index –crossing the psychological barrier. In: Jenkis SH (ed) Proc Int Conf on Water Poll Res Jerusalem, vol 6. pp 787–797
BWDB (1974) Bangladesh Water Development Board. Land Reclamation Project Report, Govt. of Bangladesh
Chowdhury RM, Muntasir SY, Hossain MM (2012) Water quality index of water bodies along Faridpur-Barisal road in Bangladesh. Glob Eng Tech Rev 2(3):1–8
DoE, (1997) Department of Environment, Bangladesh Gazette, No. DA- 1; Department of Environment. Ministry of Environment and Forest, New Delhi, pp 1324–1327
Edet AE, Offiong OE (2002) Evaluation of water quality pollution indices for heavy metal contamination monitoring.
FAO (1985) Water quality for agriculture. Food and Agriculture Organization. (Accessed on 26 June 2015)
Foster SSD (1995) Groundwater for development – overview of quality constraints. In: Nash H, McCall GJH (Eds.) Groundwater Quality. Water Resources Bulletin, 28(3):525–533
Freeze RA, Cherry JA (1979) Groundwater. Prentice-Hall, New Jersey, p 56
Gamboa C, Godfrey L, Herrera C, Custodio E, Soler A (2019) The origin of solutes in groundwater in a hyper-arid environment: a chemical and multi-isotope approach in the Atacama Desert, Chile. Sci Total Environ 690:329–351
doi: 10.1016/j.scitotenv.2019.06.356
Goher ME, Hassan AM, Abdel-Moniem IA, Fahmy AH, El-sayed SM (2014) Evaluation of surface water quality and heavy metal indices of Ismailia Canal, Nile River, Egypt. Egypt J Aquat Res 40:225–323
doi: 10.1016/j.ejar.2014.09.001
Gupta PK (2005) Methods in environmental analysis: water, soil and air. Published by Agrobios (India), Jodhpur, pp 1–127
Halim MA, Majumder RK, Nessa SA, Oda K, Hiroshiro Y, Jinno K (2010) Arsenic in shallow aquifer in the eastern region of Bangladesh: insights from principal component analysis of groundwater compositions. Environ Monit Assess 61:453–472
doi: 10.1007/s10661-009-0760-9
Hossain MS, Ahmed MK, Liyana E, Hossain MS, Jolly YN, Kabir MJ, Akter S, Rahman MS (2021) A case study on metal contamination in water and sediment near a coal thermal power plant on the eastern coast of Bangladesh. Environments 8(10):108. https://doi.org/10.3390/environments8100108
doi: 10.3390/environments8100108
Houatmia F, Azouzi R, Charef A, Bedir M (2016) Assessment of groundwater quality for irrigation and drinking purposes and identification of hydrogeochemical mechanisms evolution in Northeastern, Tunisia. Environ Earth Sci 75:746
doi: 10.1007/s12665-016-5441-8
Hounslow AW (1995) Water quality data: analysis and interpretation. CRC/Lewis, Washington
IS (2012) Indian Standard. Bureau of Indian Standards Drinking Water Specifications, BIS 10500:2012, New Delhi, India
Islam ARMT, Rakib MA, Islam MS, Jahan K, Patwary MA (2015) Assessment of health hazard of metal concentration in groundwater of Bangladesh. Am Chem Sci J 5(1):41–49
doi: 10.9734/ACSJ/2015/13175
Islam ARMT, Shen S, Bodrud-Doza M, Rahman MS (2017) Assessing irrigation water quality in Faridpur district of Bangladesh using several indices and statistical approaches. Arab J Geosci 10:418
doi: 10.1007/s12517-017-3199-2
Islam ARMT, Islam HMT, Mia MU, Khan R, Habib MA, Bodrud-Doza M, Sid-dique MAB, Chu R (2020) Co-distribution, possible origins, status and potential health risk of trace elements in surface water sources from six major river basins, Bangladesh. Chemosphere. https://doi.org/10.1016/j.chemosphere.2020.126180
doi: 10.1016/j.chemosphere.2020.126180
Islam ARMT, Kabir MM, Faruk S, Jahin JA, Bodrud-Doza M, Alam MD, Bahadur NM, Mohinuzzaman M, Fatema KJ, Rahman MS, Choudhury TR (2021) Sustainable groundwater quality in southeast coastal Bangladesh: co-dispersions, sources, and probabilistic health risk assessment. Environ Dev Sustain. https://doi.org/10.1007/s10668-021-01447-4 (Accepted 15/04/2021)
doi: 10.1007/s10668-021-01447-4
Kelley WP (1963) Use of saline irrigation water. Soil Sci 95:385–391
doi: 10.1097/00010694-196306000-00003
Khan FH (1991) Geology of Bangladesh. University Press Limited, Bangladesh, p 207
Khanoranga and Khalid (2019) An assessment of groundwater quality for irrigation and drinking purposes around brick kilns in three districts of Balochistan province, Pakistan, through water quality index and multivariate statistical approaches. J Geochem Explor 197:14–26
doi: 10.1016/j.gexplo.2018.11.007
Khodapanah L, Sulaiman WNA, Khodapanah N (2009) Groundwater quality assessment for different purposes in Eshtehard District, Tehran, Iran. Euro J Sci Res 36(4):543–553
Lawrence FW, Upchurch SB (1982) Identification of recharge areas using geochemical factor analysis. Ground Water 20:680–687
doi: 10.1111/j.1745-6584.1982.tb01387.x
Li P, Wu J, Tian R, He S, He X, Xue C, Zhang K (2018) Geochemistry, hydraulic connectivity and quality appraisal of multilayered groundwater in the Hongdunzi Coal Mine, Northwest China. Mine Water Environ 37(2):222–237
doi: 10.1007/s10230-017-0507-8
McCutcheon SC, Martin JL, Barnwell TO (1993) Water quality. In: Maidment DR (ed) Handbook of Hydrology. McGraw-Hill Inc, New York, p 11.1-11.73
Mohan SV, Nithila P, Reddy SJ (1996) Estimation of heavy metals in drinking water and development of heavy metal pollution index. J Environ Sci Health Part A 31:283–289
doi: 10.1080/03601239609372990
Molla MA, Saha N, Salam SA, Rakib-uz-Zaman M (2015) Surface and groundwater quality assessment based on multivariate statistical techniques in the vicinity of Mohanpur, Bangladesh. Int J Environ Health Eng 4(1):18 (Gale OneFile: Health and Medicine, link.gale.com/apps/doc/A473865108/HRCA?u=googlescholar&sid=googleScholar&xid=79deb1c4. Accessed 29 Dec. 2021)
doi: 10.4103/2277-9183.157717
Monsur MH (1995) An introduction to the quaternary geology of Bangladesh. City press and publications, Dhaka
Mukherjee A, Fryar AE (2008) Deeper groundwater chemistry and geochemical modeling of the arsenic affected western Bengal basin, W. Bengal, India. Appl Geochem 23(4):863–894
doi: 10.1016/j.apgeochem.2007.07.011
Paul R, Brindha K, Gowrisankar G, Tan ML, Singh MK (2019) Identification of hydrogeochemical processes controlling groundwater quality in Tripura, Northeast India using evaluation indices, GIS, and multivariate statistical methods. Environ Earth Sci 78(15):470
doi: 10.1007/s12665-019-8479-6
Piper AM (1944) A graphic procedure in the geochemical interpretation of water analyses. Trans Am Geophys Union 25:914–923
doi: 10.1029/TR025i006p00914
Raghunath IIM (1987) Groundwater, 2nd edn. Wiley Eastern Ltd., New Delhi
Rahman MS, Gagnon GA (2014) Bench-scale evaluation of drinking water treatment parameters on iron particles and water quality. Water Res 48:137–147
doi: 10.1016/j.watres.2013.09.018
Rahman MS, Islam MR (2009) Adsorption of Cd(II) ions from synthetic wastewater using Maple sawdust. Energ Sources A: Recover Util Environ Eff 32(3):222–231
doi: 10.1080/15567030802459297
Rahman MS, Molla AH, Saha N, Rahman A (2012b) Study on heavy metals levels and its risk assessment in some edible fishes from Bangshi River, Savar, Dhaka, Bangladesh. Food Chem 134:1847–1854
doi: 10.1016/j.foodchem.2012.03.099
Rahman MS, Saha N, Islam ARMT, Shen S, Bodrud-Doza M (2017) Evaluation of water quality for sustainable agriculture in Bangladesh. Water Air Soil Pollut 228:385
doi: 10.1007/s11270-017-3543-x
Rahman MS, Hossain MB, Babu SMOF, Rahman M, Ahmed ASS, Jolly YN, Choudhury TR, Begum BA, Akter KJ, S, (2019) Source of metal contamination in sediment, their ecological risk, and phytoremediation ability of the studied mangrove plants in ship breaking area, Bangladesh. Mar Pollut Bull 141:137–146
doi: 10.1016/j.marpolbul.2019.02.032
Rahman MS, Ahmed ASS, Rahman MM, Babu SMOF, Sultana S, Sarker SI, Awual R, Rahman MM, Rahman M (2021) Temporal assessment of heavy metal concentration and surface water quality representing the public health evaluation from the Meghna River estuary, Bangladesh. Appl Water Sci 11:121. https://doi.org/10.1007/s13201-021-01455-9
doi: 10.1007/s13201-021-01455-9
Rampley CPN, Whitehead PG, Softley L, Hossain MA, Jin L, David J, Shawal S, Das P, Thompson IP, Huang WE, Peters R, Holdship P, Hope R, Alabaster G (2020) River toxicity assessment using molecular biosensors: heavy metal contamina- tion in the Turag-Balu-Buriganga river systems, Dhaka, Bangladesh. Sci Total Environ 703:134760. https://doi.org/10.1016/j.scitotenv.2019.134760
doi: 10.1016/j.scitotenv.2019.134760
Rashid H, Hasan MN, Tanu MB, Parveen R, Sukhan ZP, Rahman MS, Mahmud Y (2012) Heavy metal pollution and chemical profile of Khiru River, Bangladesh. Int J Environ 2:57–63. https://doi.org/10.1155/2009/154610
doi: 10.1155/2009/154610
Richards LA (1954a) Diagnosis and improvement of saline and alkali soils, vol 60. US Department of Agricultural Hand-book, Washington DC, p 160
Richards LA (1954b) Diagnosis and improvement of saline and alkali soils, U. S. Department of Agriculture Handbook, 60 Washington USA. 160. https://www.ars.usda.gov/ARSUserFiles/20360500/hb60_pdf/hb60complete.pdf
Saha N, Rahman MS (2018) Multivariate statistical analysis of metal contamination in surface water around Dhaka export processing industrial zone, Bangladesh. Environ Nanotechnol Monit Manag 10:206–211
Saha N, Rahman MS (2020) Groundwater hydrogeochemistry and probabilistic health risk assessment through exposure to arsenic-contaminated groundwater of Meghna floodplain, central-east Bangladesh. Ecotoxicol Environ Saf 206:111349
doi: 10.1016/j.ecoenv.2020.111349
Saha N, Bodrud-Doza M, Islam ARMT, Begum BA, Rahman MS (2020) Hydrogeochemical evolution of shallow and deeper aquifers in central Bangladesh: arsenic mobilization process and health risk implications from the potable use of groundwater. Environ Earth Sci 79:477
doi: 10.1007/s12665-020-09228-4
Sahu P, Sikdar PK (2008) Hydrochemical framework of the aquifer in and around East Kolkata Wetlands, Weat Bengal, India. Environ Geol 55:823–835
doi: 10.1007/s00254-007-1034-x
Saleh A, Al-Ruwaih F, Shehata M (1999) Hydrogeochemical processes operating within the main aquifers of Kuwait. J Arid Environ 42:195–209
doi: 10.1006/jare.1999.0511
Sawyer CN, McCarty PL (1967) Chemistry for sanitary engineers. McGraw-Hill, New York
Selvakumar S, Ramkumar K, Chandrasekar N, Magesh NS, Kaliraj S (2017) Groundwater quality and its suitability for drinking and irrigational use in the Southern Tiruchirappalli district, Tamil Nadu, India. Appl Water Sci 7(1):411–420
doi: 10.1007/s13201-014-0256-9
Shahid SU, Iqbal J (2014) Hasnain J (2014) Groundwater quality assessment and its correlation with gastroenteritis using GIS: a case study of Rawal Town, Rawalpindi, Pakistan. Environ Monit Assess 186:7525–7537
doi: 10.1007/s10661-014-3945-9
Shahid S, Chen X, Hazarika MK (2006) Evaluation of groundwater quality for irrigation in Bangladesh using Geographic Information System. J Hydrol Hydromech 54(1):3–14
Shahidullah SM, Hakim MA, Alam MS, Shansuddoha ATM (2000) Assessment of groundwater quality in a selected area of Bangladesh Pak. J Biol Sci 3(2):246–249
Siddique AB, Islam ARMT, Hossain MS, Khan R, Akbor MA, Hasanuzzaman M, Sajid MWM, Mia MY, Mallick J, Rahman MS, Rahman MM (2021) Bodrud-Doza M (2021) Multivariate statistics and entropy theory for irrigation water quality and entropy-weighted index development in a subtropical urban river, Bangladesh. Environ Sci Pollut Res. https://doi.org/10.1007/s11356-021-16343-7
doi: 10.1007/s11356-021-16343-7
Simsek C, Gunduz O (2007) IWQ index: a GIS-integrated technique to assess irrigation water quality. Environ Monit Assess 128:277–300
doi: 10.1007/s10661-006-9312-8
Singh PK, Tiwari AK, Panigarhy BP, Mahato MK (2013) Water quality indices used for water resources vulnerability assessment using GIS technique: a review. Int J Earth Sci Eng 6(6–1):1594–1600
Szabolcs I, Darab C (1964) The influence of irrigation water of high sodium carbonate content of soils. Proceedings of 8th International Congress of ISSS, Trans II, pp 803–812
Tiwari AK, Singh PK, Mahato MK (2014) GIS-based evaluation of water quality index of groundwater resources in west Bokaro Coal field, India. Curr World Environ 9(3):73–79
doi: 10.12944/CWE.9.3.35
Todd DK (1980) Groundwater hydrology, 2nd ed. John Wiley and Sons. Inc. New York 10016, pp 267–315
UCCC (1974) University of California Committee of Consultants. Guidelines for Interpretations of water Quality for Irrigation. Technical Bulletin, University of California Committee of Consultants, California, pp 20–28
USDA (1954) United States Department of Agriculture, Salinity Laboratory Staff Diagnosis and improvement of saline and alkali soil. US Department of Agricultural Hand Book, Washington
USEPA (2009b) National Primary Drinking Water Regulations. The National Primary Drinking Water Regulations. United States Environmental Protection Agency (USEPA), Washington DC
USEPA (1989) Risk Assessment Guidance for Superfund Volume I Human Health Evaluation Manual (Part A)
USEPA (2009a) National primary drinking water regulations. U.S. Environmental Protection Agency. US Environmental Protection Agency, Washington, D.C
USSL (1954) United States Salinity Laboratory. Diagnosis and improvement of saline and alkali soils, handbook 60. US Department of Agriculture, New York
Vasanthavigar M, Srinivasamoorthy K, Vijayaragavan K, Ganth R, Chidambaram S, Anandhan P, Manivannan R, Vasudevan S (2010) Application of water quality index for groundwater quality assessment: Thirumanimuttar sub-basin, Tamilnadu, India. Environ Monit Assess 171(1–4):595–609
doi: 10.1007/s10661-009-1302-1
Whitehead PG, Bussi G, Peters R, Hossain MA, Softley L, Shawal S, Jin L, Rampley CPN, Holdship P, Hope R, Alabaster G (2019) Modelling heavy metals in the Buriganga River System, Dhaka, Bangladesh: impacts of tannery pollution control. Sci Total Environ 697:134090. https://doi.org/10.1016/j.scitotenv.2019.134090
doi: 10.1016/j.scitotenv.2019.134090
WHO (2004) Guidelines for Drinking-Water Quality, 3rd edn. WHO, Geneva
WHO (2011) In: Guidelines for Drinking Water Quality, 4th edn. World Health Organization, Geneva
Wilcox LV (1955) Classification and Use of Irrigation Waters. USDA, Washington DC, p 969
Zhou T, Wu J, Peng S (2012) Assessing the effects of landscape pattern on river water quality at multiple scales: a case study of the Dongjiang River watershed, China. Ecol Indic 23:166–175
doi: 10.1016/j.ecolind.2012.03.013
Zhou Y, Li P, Xue L, Dong Z, Li D (2020) Solute geochemistry and groundwater quality for drinking and irrigation purposes: a case study in Xinle City, North China. Geochemistry. 2020:125609
doi: 10.1016/j.chemer.2020.125609