Bacteriological quality of drinking water and public health inspection of refill depots: finding workable strategies to control the quality

https://doi.org/10.22146/bkm.33939

Ishak Nurlang(1*), Titik Nuryastuti(2), Mubasysyir Hasanbasri(3)

(1) Public Health Program, Universitas Mega Buana, Palopo
(2) Microbiology Department, Faculty of Medicine, Public Health, and Nursing, Universitas Gadjah Mada
(3) Department of Biostatistics, Epidemiology and Population Health, Faculty of Medicine, Public Health, and Nursing, Universitas Gadjah Mada
(*) Corresponding Author

Abstract


Purpose: Water refill depots have increased in all areas of Indonesia. Many studies have reported concerns about the bacteriological quality of drinking water at refill depots. However, limited studies have focused on ensuring the safety and quality of drinking water in refill depots, particularly for small-scale depots. This paper examines water microbiological quality at the refill depots and their depot production inspections from the local public health authority.

Method: This survey used  60% of depots (47 out of 77 depots in the district) from April 4th to May 31st, 2016, in the North Luwu District of Central Sulawesi. Water samples were taken for E. coli and coliform examination. In-depth interviews were conducted with environmental health officers at the local health authority, depot owners, and workers.

Results: Almost half of the total depots (49%) failed to meet the hygiene standard. Site observation found that depots were with poor sanitation and poor water handling. Depot owners found the cost of two times a year of the bacteriological examination was too expensive, including the transportation cost of water samples to the available closest laboratory in the provincial capital.

Conclusion: Depots with non-standard bacteriological quality were still high. Supervision of the depot by the district health office was very loose. Efforts to advocate the district health office to take a more assertive position are critical. Community organizations and refill water depot associations should be involved so that public health interests get attention from the local government.


Keywords


drinking water depot; sanitation hygiene; quality of bacteriology; supervision; refilled-bottled water kiosks; refill drinking water depot

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References

  1. Walter CT, Kooy M, Prabaharyaka I. The role of bottled drinking water in achieving SDG 6.1: an analysis of affordability and equity from Jakarta, Indonesia. J Water Sanit Hyg Dev. 2017;7: 642–650.
  2. Francisco JPS. Why households buy bottled water: a survey of household perceptions in the Philippines. Int J Consum Stud. 2014;38: 98–103.
  3. Sima LC, Desai MM, McCarty KM, Elimelech M. Relationship between use of water from community-scale water treatment refill kiosks and childhood diarrhea in Jakarta. Am J Trop Med Hyg. 2012;87: 979–984.
  4. Prasetiawan T, Nastiti A, Muntalif BS. “Bad” piped water and other perceptual drivers of bottled water consumption in Indonesia. WIREs Water. 2017;4: e1219.
  5. Suriadi S, Husaini H, Marlinae L. Hubungan Hygiene Sanitasi dengan Kualitas Bakteriologis Depot Air Minum (DAM) di Kabupaten Balangan. Jurnal Kesehatan Lingkungan Indonesia. 2016;15: 28.
  6. Khoeriyah A, Program Magister Ilmu Lingkungan, Diponegoro U, Anies. Aspek Kualitas Bakteriologis Depot Air Minum Isi Ulang (DAMIU) di Kabupaten Bandung Barat. Majalah Kedokteran Bandung. 2015;47: 137–144.
  7. Rosita N. Analisis Kualitas Air Minum Isi Ulang Beberapa Depot Air Minum Isi Ulang (DAMIU) di Tangerang Selatan. Jurnal Kimia VALENSI. 2014; 134–141.
  8. Askrening A, Yunus R. Analisis Bakteri Coliform Pada Air Minum Isi Ulang Di Wilayah Poasia Kota Kendari. Jurnal Teknologi Kesehatan (Journal of Health Technology). 2017;13: 71–76.
  9. Abriandy H, Pramono D, Iravati S. Kualitas air minum depot isi ulang di Banyumas. Berita Kedokteran Masyarakat. 2017;33: 7.
  10. Isnaini A, Sarto S, Suwarni A. Identifikasi Faktor-faktor Yang Berpengaruh Pada Kualitas Air Perusahaan Daerah Air Minum (Pdam) Kabupaten Wonogiri. Sanitasi: Jurnal Kesehatan Lingkungan. 2017;7: 139.
  11. Raksanagara AS, Fitriyah S, Afriandi I, Iskandar H, Sari SYI. Aspek Internal dan Eksternal Kualitas Produksi Depot Air Minum Isi Ulang: Studi Kualitatif di Kota Bandung. Majalah Kedokteran Bandung. 2018;50: 53–60.
  12. Ashbolt NJ. Microbial contamination of drinking water and disease outcomes in developing regions. Toxicology. 2004;198: 229–238.
  13. Mara D. Domestic wastewater treatment in developing countries. 2013. Available: https://content.taylorfrancis.com/books/download?dac=C2011-0-07880-2&isbn=9781136567926&format=googlePreviewPdf
  14. Walter CT, Kooy M, Prabaharyaka I. The role of bottled drinking water in achieving SDG 6.1: an analysis of affordability and equity from Jakarta, Indonesia. J Water Sanit Hyg Dev. 2017;7: 642–650.
  15. Kesehatan RI. Data dan Informasi Tahun 2014 (Profil Kesehatan Indonesia). Jakarta: Kementerian Kesehatan Republik Indonesia. 2015.
  16. Indonesia DKR. Permenkes No. 492/Menkes/Per/IV/2010 Tentang Persyaratan Kualitas Air Minum. Jakarta: Departemen Kesehatan RI; 2010.
  17. Lingkungan DP. Pedoman Pelaksanaan Penyelenggaraan Hygiene Sanitasi Depot Air Minum. Jakarta: Departemen Kesehatan. 2006.
  18. Rosyani AP. Hubungan Higiene Sanitasi Dengan Keberadaan Bakteri Escherichia Coli Pada Depot Air Minum Isi Ulang Di Kawasan Universitas Muhammadyah Surakarta. s1, Universitas Muhammadiyah Surakarta. 2016. Available: http://eprints.ums.ac.id/id/eprint/42505
  19. Kulabako RN, Nalubega M, Wozei E, Thunvik R. Environmental health practices, constraints and possible interventions in peri-urban settlements in developing countries--a review of Kampala, Uganda. Int J Environ Health Res. 2010;20: 231–257.
  20. Tumwebaze IK, Lüthi C. Households’ access and use of water and sanitation facilities in poor urban areas of Kampala, Uganda. J Water Sanit Hyg Dev. 2013;3: 96–105.
  21. Hadipuro W, Wiering M, van Naerssen T. The sustainability of urban water supply in low income countries: a livelihoods model. J Water Sanit Hyg Dev. 2013;3: 156–164.
  22. Nastiti A, Muntalif BS, Roosmini D, Sudradjat A, Meijerink SV, Smits AJM. Coping with poor water supply in peri-urban Bandung, Indonesia: towards a framework for understanding risks and aversion behaviours. Environ Urban. 2017;29: 69–88.
  23. Sima LC, Elimelech M. More than a drop in the bucket: decentralized membrane-based drinking water refill stations in southeast Asia. Environ Sci Technol. 2013;47: 7580–7588.
  24. Lee EJ, Schwab KJ. Deficiencies in drinking water distribution systems in developing countries. Journal of Water and Health. 2005. pp. 109–127. doi:10.2166/wh.2005.0012
  25. Danielaini TT, Maheshwari B, Hagare D. An assessment of household water insecurity in a rapidly developing coastal metropolitan region of Indonesia. Sustainable Cities and Society. 2018. doi:10.1016/j.scs.2018.12.010
  26. Majumder AK, Islam KMN, Nite RN, Noor R. Evaluation of Microbiological Quality of Commercially Available Bottled Water in the City of Dhaka, Bangladesh. SJ Microbiol. 1970;1: 24–30.
  27. Suprihatin B, Adriyani R. Higiene sanitasi depot air minum isi ulang di kecamatan Tanjung Redep kabupaten Berau Kalimantan Timur. Jurnal Kesehatan Lingkungan. 2008;4.
  28. Mirza MN. Hubungan Antara Hygiene Sanitasi Dengan Jumlah Coliform Air Minum Pada Depot Air Minum Isi Ulang (DAMIU) Di Kabupaten Demak Tahun 2012. Unnes Journal of Public Health. 2014.



DOI: https://doi.org/10.22146/bkm.33939

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