Abstract
There has been a growing concern in the dry zone of Sri Lanka that the contaminated surface and ground waters and ecohydrological changes are possibly linked to a number of health issues and overall well-being of village communities, including the widespread renal failure termed as chronic kidney disease of unknown aetiology (CKDu). Two types of data were collected for this study, namely qualitative data from key informant interviews and abstracts of 33 peer-reviewed research articles during the past decade. A total of 35 key informants were recruited, mainly from communities in the northern dry zone region where a higher number of CKDu patients have been reported. The interview transcripts were examined using a range of techniques including content, thematic and semantic network analyses. The findings of the research articles were explored through a word cloud analysis. The study indicates that CKDu seems to be influenced by multifactorial ecohydrological changes linked to anthropogenic stressors such as inefficient use of fertilisers and weedicides in agriculture. This situation is made further complicated by factors such as high fluoride level and hardness of local groundwater. Inappropriate agricultural and water policies and poor governance are other factors, particularly little or no restriction on the use of agrochemicals and pumping of groundwater and limited access to clean municipal water supplies. The key informants indicated grave concerns on the flow on effects of poor surface and groundwater quality in the region on health, livelihood and well-being of communities. There are also inevitable economic implications such as loss of human capital and families losing assets to pay for ongoing health issues. The study highlighted the need for more in-depth research to better understand how the surface and groundwater quality influence CKDu and other health conditions in the region. Furthermore, there is a need for implementing an active water quality management strategy with emphasis on developing locally relevant guidelines, educational programmes and integrated heath monitoring programmes in the region.
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References
ANZECC/ARMCANZ (2000) Australian and New Zealand guidelines for fresh and marine water quality. Australia and New Zealand Environment and Conservation Council and Agriculture and Resource Management Council of Australia and New Zealand, Canberra
Bandara JM, Senevirathna DM, Dasanayake DM, Herath V, Bandara JM, Abeysekara T, Rajapaksha K (2008) Chronic renal failure among farm families in cascade irrigation systems in Sri Lanka associated with elevated dietary cadmium levels in rice and freshwater fish (tilapia). Environ Geochem Health 30:465–478
Bastian M, Heymann S, Jacomy M (2009) Gephi: an open source software for exploring and manipulating networks. Icwsm 8:361–362
Bhattacharya S, Gupta K, Debnath S, Ghosh UC, Chattopadhyay D, Mukhopadhyay A (2012) Arsenic bioaccumulation in rice and edible plants and subsequent transmission through food chain in Bengal basin: a review of the perspectives for environmental health,Toxicological & Environmental Chemistry 94(3):429–441. https://doi.org/10.1080/02772248.2012.657200
Blondel VD, Guillaume J-L, Lambiotte R, Lefebvre E (2008) Fast unfolding of communities in large networks. J Stat Mech 2008:P10008
Chandrajith R, Seneviratna S, Wickramaarachchi K, Attanayake T, Aturaliya T, Dissanayake CB (2010) Natural radionuclides and trace elements in rice field soils in relation to fertilizer application: study of a chronic kidney disease area in Sri Lanka. Environ Earth Sci 60:193–201
Cyamweshi AR, Kayumba J, Nabahungu NL (2017) Optimizing fertilizer use within the context of integrated soil fertility management in Rwanda. In C.S. Wortmann and K. Sones, Fertilizer use optimization in sub-Saharan Africa (p. 164-175). Wallingford: CAB International. http://doi.org/10.1079/9781786392046.0164
Davies J (2018) WordCloud [online]. Jason Davies. Available: https://www.jasondavies.com/wordcloud/. Accessed 9 May 2019
De Silva C, Weatherhead E, Knox JW, Rodriguez-Diaz J (2007) Predicting the impacts of climate change—a case study of paddy irrigation water requirements in Sri Lanka. Agric Water Manag 93:19–29
Department of Census and Statistics (2012) Cencus of population and Housing 2012 [Online]. Available: http://www.statistics.gov.lk/PopHouSat/CPH2012Visualization/htdocs/index.php?usecase=indicator&action=Map&indId=10. Accessed 9 May 2019
Dissanayake CB (1991) The fluoride problem in the ground water of Sri Lanka—environmental management and health. Int J Environ Stud 38:137–155
Dissanayake CB, Weerasooriya S (1986) Fluorine as an indicator of mineralization—hydrogeochemistry of a Precambrian mineralized belt in Sri Lanka. Chem Geol 56:257–270
Dissanayake CB, Weerasooriya S (1987) Medical geochemistry of nitrates and human cancer in Sri Lanka. Int J Environ Stud 30:145–156
Drieger P (2013) Semantic network analysis as a method for visual text analytics. Procedia Soc Behav Sci 79:4–17
Elledge MF, Redmon JH, Levine KE, Wickremasinghe RJ, Wanigasariya KP, Peiris-John RJ (2014) Chronic kidney disease of unknown etiology in Sri Lanka: quest for understanding and global implications. RTI Research Brief, Research Triangle Park
FracTracker Alliance (2017) Knowing our waterways [online]. Pennsylvania: FracTracker Alliance available: http://www.fractracker.org/projects/water-monitor/. Accessed 21 Dec 2017
Fritschi L, McLaughlin J, Sergi C, Calaf G, Le Curieux F, Forastiere F, Kromhout H, Egeghy P, Jahnke G, Jameson C (2015) Carcinogenicity of tetrachlorvinphos, parathion, malathion, diazinon, and glyphosate. Red 114
Gladstone Healthy Harbour Partnership (2017) Gladstone Harbour Report Card 2017 [online]. Gladstone, Quensland: Gladstone Healthy Harbour Partnership. Available: http://ghhp.org.au/. Accessed 21 Dec 2017
Hutton G (2010) Health Impact and Economic Costs of Poor Water and Sanitation. In Encyclopedia of Life Support Systems—Biological, Physiological and Health Sciences; UNESCO: Paris, France, 2010; Available online: http://www.eolss.net/sample-chapters/c03/E2-20A-02-01.pdf .Accessed 14 Jan 2018
IWMI (2015) Water Information System for Sri Lanka [Online]. International Water Management Institute, Colombo Available: http://slwater.iwmi.org. Accessed 9 May 2019
Janakan N (2012) Investigation and evaluation of chronic kidney disease of uncertain aetiology, Epidemiology unit of Sri Lanka [Online]. Available: http://www.epid.gov.lk/web/images/pdf/ckd/Investigation_&_Evaluation_of_CKDU-Final_Report.pptx. Accessed 26 June 2017
Jayasekara J, Dissanayake D, Adhikari S, Bandara P (2013) Geographical distribution of chronic kidney disease of unknown origin in north central region of Sri Lanka. Ceylon Med J 58:6–10
Jayasekara KB, Dissanayake DM, Sivakanesan R, Ranasinghe A, Karunarathna RH, Kumara GWGP (2015) Epidemiology of chronic kidney disease, with special emphasis on chronic kidney disease of uncertain etiology, in the north central region of Sri Lanka. J Epidemiol 25:275–280
Jayasingha P, Pitawala A, Dharmagunawardhane H (2011) Vulnerability of coastal aquifers due to nutrient pollution from agriculture: Kalpitiya, Sri Lanka. Water Air Soil Pollut 219:563–577
Jayasumana C, Paranagama P, Amarasinghe M (2011a) Chronic kidney disease of unknown etology and arsenic in groundwater in Sri Lanka Workshop on Challenges in Groundwater Management in Sri Lanka. In: Tennakoon U, Elakanda D, Wijesooriya R, Boals R, Silva SD, Weerakoon J (eds) Challenges in groundwater management in Sri Lanka. Water Resources Board, Colombo
Jayasumana M, Paranagama P, Amarasinghe M, Fonseka S, Wijekoon D (2011b) Presence of arsenic in pesticides used in Sri Lanka. Proceedings of the Water Prof Day Symp: 1st Oct 2011. Peradeniya, pp 127–141
Jayasumana C, Gajanayake R, Siribaddana S (2014) Importance of arsenic and pesticides in epidemic chronic kidney disease in Sri Lanka. BMC Nephrol 15:124
Jayatilake N, Mendis S, Maheepala P, Mehta FR (2013) Chronic kidney disease of uncertain aetiology: prevalence and causative factors in a developing country. BMC Nephrol 14:180
Johnson S, Misra SS, Sahu R, Saxena P (2012) Environmental contamination and its association with chronic kidney disease of unknown etiology in North Central Region of Sri Lanka (CSE/ PML/PR-42/2012). [Online]. Centre For Science and Environmnet, Pollution Monitoring Laboratory, New Delhi Available: https://www.researchgate.net/publication/235999601_Environmental_contamination_and_its_association_with_Chronic_Kidney_Disease_of_Unknown_Etiology_in_North_Central_Region_of_Srilanka. Accessed 10 Jan 2018
Lal PN (2013) Economic Costs of Inadequate Water and Sanitation: South Tarawa, Kiribati Asian Development Bank. South Tarawa, Kiribati. Mandaluyong City, Philippines. Available online: https://www.adb.org/sites/default/files/publication/41796/economic-costs-inadequate-water-sanitation.pdf. Accessed 14 Jan 2018
Levine KE, Redmon JH, Elledge MF, Wanigasuriya KP, Smith K, Munoz B, Waduge VA, Periris-John RJ, Sathiakumar N, Harrington JM (2016) Quest to identify geochemical risk factors associated with chronic kidney disease of unknown etiology (CKDu) in an endemic region of Sri Lanka—a multimedia laboratory analysis of biological, food, and environmental samples. Environ Monit Assess 188:548
Liyanage C, Jayathilake R, De Silva A (2012) Community based study on economic, social and psychosocial impact of chronic kidney disease in the North Central Province and interventions to support the affected households. National Research Program on CKDu, Mistry of Health Sri Lanka
Maheshwari B, Varua M, Ward J, Packham R, Chinnasamy P, Dashora Y, Dave S, Soni P, Dillon P, Purohit R (2014) The role of transdisciplinary approach and community participation in village scale groundwater management: insights from Gujarat and Rajasthan, India. Water 6:3386–3408
Miao Y, Stewart BA, Zhang F (2011) Long-term experiments for sustainable nutrient management in China. Agronomy for Sustainable Development. 31(20):397–414
Noble A, Amerasinghe P, Manthrithilake H, Arasalingam S 2014. Review of literature on chronic kidney disease of unknown etiology (CKDu) in Sri Lanka. IWMI
Nodus Labs (2012) Textexture [online]. Special Agency Nodus Labs, Berlin Available: http://textexture.com/index.php. Accessed 9 May 2019
Office of the Environment and Heritage (2017) http://www.environment.nsw.gov.au/water/waterqual.htm [Online]. NSW Government, Australia. Accessed 21 Dec 2017
Panabokke C, Perera A (2005) Groundwater resources of Sri Lanka [online]. Water resources board. Available: http://tsunami.obeysekera.net/documents/Panabokke_Perera_2005_Sri_Lanka.pdf. Accessed 9 May 2019
Patcharin J, Cherif c, Norbert Kienzl, Walter Goessler, Francisconi KA, Pornsawan V (2007) Arsenic accumulation and speciation in freshwater fish living in arsenic-contaminated waters. Environmental Chemistry 4:11-17
Petrusevski B, Muijtjens R, van der Schans M, Sumanaweera S (2016) Scoping mission on CKDu with focus on drinking water quality and treatment [Online]. Embassy of the Netherlands, Netherlands Available: https://www.dutchwatersector.com/uploads/2016/09/drr-mission-sri-lanka-final.pdf. Accessed 9 May 2019
Pinto U, Maheshwari BL (2016) Community perspectives on managing health of peri-urban river system: evidence from the Hawkesbury-Nepean river catchment, Australia, Journal of Environmental Planning and Management. 59(7):1257–1276. https://doi.org/10.1080/09640568.2015.1067599
Rango T, Jeuland M, Manthrithilake H, McCornick P (2015) Nephrotoxic contaminants in drinking water and urine, and chronic kidney disease in rural Sri Lanka. Sci Total Environ 518:574–585
Samad M (2005) Water institutional reforms in Sri Lanka. Water Policy 7:125–140
Shah T (2005) Groundwater and human development: challenges and opportunities in livelihoods and environment. Water Sci Technol J Int Assoc Water Pollut Res 51:27
Sunday Leader (2017) Call to monitor groundwater extraction [online]. Sunday Leader Newspaper, Colombo Available: http://www.thesundayleader.lk/2017/04/02/call-to-monitor-ground-water-extraction/. Accessed 10 Jan 2018
Thoradeniya B, Pinto U, Maheshwari B (2017) Perspectives on impacts of water quality on agriculture and community well-being—a key informant study from Sri Lanka. Environ Sci Pollut Res. In press
University of Maryland (2017) How health is your Chesapeake Bay? [online]. Center for Environmental Science, Chesapeake Bay Available: https://ecoreportcard.org/report-cards/chesapeake-bay/. Accessed 21 Dec 2017
University of Southampton (2013) Southampton researchers develop new tool to provide radiation monitoring in Japan [online]. University of Southampton Available: https://www.southampton.ac.uk/news/2013/05/radiation-monitoring-in-japan.page. Accessed 18 Jan 2018
Vaheesar K (2001) Nitrate and fluoride content in groundwater in Batticaloa district. J Sci Eastern Univ 2:9–5
Van Der Hoek W, Ekanayake L, Rajasooriyar L, Karunaratne R (2003) Source of drinking water and other risk factors for dental fluorosis in Sri Lanka. Int J Environ Health Res 13:285–293
Villholth KG, Rajasooriyar LD (2010) Groundwater resources and management challenges in Sri Lanka–an overview. Water Resour Manag 24:1489–1513
Wasana HM, Aluthpatabendi D, Kularatne W, Wijekoon P, Weerasooriya R, Bandara J (2016) Drinking water quality and chronic kidney disease of unknown etiology (CKDu): synergic effects of fluoride, cadmium and hardness of water. Environ Geochem Health 38:157–168
WHO (2012) Investigation and evaluation of chronic kidney disease of uncertain aetiology in Sri Lanka. [Online]. World Health Organisation. Available: http://dh-web.org/place.names/posts/WHO-final-CKDU.pdf. Accessed 27 June 2017
WHO (2015) Sanitation, drinking-water and hygiene status overview [Online]. Available: http://www.who.int/water_sanitation_health/monitoring/investments/srilanka-10-nov.pdf. Accessed 21 Dec 2017
WHO/UNICEF (2013) Progress on sanitation and drinking water [Online]. Available: http://www.wssinfo.org/fileadmin/user_upload/resources/JMPreport2013.pdf. Accessed 9 May 2019
Wijesekara G, Marambe B (2011) Arsenic in the environment- an over view on global and Sri Lankan context. Ann Sri Lankan Dep Agric 13:229–243
Withanachchi SS, Köpke S, Withanachchi CR, Pathiranage R, Ploeger A (2014) Water resource management in dry zonal paddy cultivation in Mahaweli River Basin, Sri Lanka: an analysis of spatial and temporal climate change impacts and traditional knowledge. Climate 2:329–354
Xu F, Prato T (1992)Are farmers using too much fertilizer? Evidence from Missouri corn farmers. Center for Agricultural. Resources and Environmental Systems College of Agriculture Food and Natural Resources University of Missouri-Columbia. Available online: https://ageconsearch.umn.edu/record/257803/files/agecon-missouri-002.pdf. Accessed 14 Jan 2018
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Pinto, U., Thoradeniya, B. & Maheshwari, B. Water quality and chronic kidney disease of unknown aetiology (CKDu) in the dry zone region of Sri Lanka: impacts on well-being of village communities and the way forward. Environ Sci Pollut Res 27, 3892–3907 (2020). https://doi.org/10.1007/s11356-019-06669-8
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DOI: https://doi.org/10.1007/s11356-019-06669-8