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Water Quality: Mindanao Island of the Philippines

  • Angelo Mark P. Walag
  • Oliva P. Canencia
  • Beth Ann Fiedler
Chapter

Abstract

The Philippines is an archipelagic country dominated by water and inland water sources. Water quality has been the subject of attention for the country and specifically, Mindanao Island, because of the role this natural resource plays in agriculture. Water supply and usage for the island and the nation are identified and discussed in relation to the scarcity of potable water. Potential threats and pollution hotspots bring forth the various health and environmental impact attributed to the water system accessibility, distribution, and quality. Strategies addressing water resources problems are taken into consideration side-by-side the numerous national laws, policies, standards, and guidelines in addressing water quality control and management. Therefore, the legal framework for various agencies to carry out these policies on quality control, usage, and water management are pivotal to recommendations on revision of certain provisions that rely on embedding local community involvement to lessen the environmental impact that is causal to poor population health. The World Bank has been instrumental in prompting local activity with initiatives first established in relation to the United Nations Millennium Development Goals that are being carried forward today in the Sustainable Development Initiatives. This chapter extends the recent UN and World Bank initiatives to demonstrate how further community involvement can continue to improve quality of life for Philippine citizens through education and participation.

Keywords

Community involvement Water monitoring Water quality Public health Water shortage 

Notes

Acknowledgment

The authors would like to acknowledge the United Nations, World Health Organization, and the World Bank for access to their outstanding resources. The authors accept responsibility for all analysis and interpretation.

Glossary

Biological oxygen demand (BOD)

Amount of oxygen dissolved in water required for the survival of microorganisms.

Coliforms

Bacteria commonly found in soil, water, and in the guts of animals, which indicate that the water supply may be vulnerable to contamination.

Dissolved oxygen (DO)

Amount of diatomic oxygen dissolved in water.

Domestic

Refers to the utilization of water for drinking, washing, cooking, bathing, and other household chores and needs.

Effluent

Wastewater discharged from a sewage treatment facility or an industrial plant.

Industrial

Utilization of water for the needs of factories, industrial plants, and mines.

Irrigation

Controlled application of water for agricultural uses through man-made systems to supply water requirements not satisfied by precipitation.

Municipal

Utilization of water for supplying the water needs of the community.

Potable water

Water that is safe for consumption or food preparation with no risk to health.

Seawater Intrusion

The natural phenomenon where freshwater is contaminated with seawater because of overdraft—extracting too much water that leads to an unsafe imbalance in water quality.

Sewerage

Collective term used for drains, canals, manholes, pumping stations, and screening chambers for disposal of sewage and surface water.

Volatile Organic Compounds (VOCs)

Synthetic chemical compounds dissolved in water which can be vaporized at low temperatures.

Wastewater

Water that has been used for various purposes in homes, industries, businesses that is not meant for reuse unless it is treated for contaminants.

Water Quality Management Area

Certain water bodies and its tributaries identified by the Department of Environment and Natural Resources (DENR ) to be prioritized for protection and conservation.

Water Right

The right granted by the government to appropriate and use water.

References

  1. Akagi H, et al. Health assessment for mercury exposure among schoolchildren residing near a gold processing and refining plant in Apokon, Tagum, Davao del Norte, Philippines. Sci Total Environ. 2000;259(1–3):31–43.  https://doi.org/10.1016/S0048-9697(00)00547-7.CrossRefPubMedGoogle Scholar
  2. Appleton JD, et al. Mercury contamination associated with artisanal gold mining on the island of Mindanao, the Philippines. Sci Total Environ. 1999;228(2–3):95–109.  https://doi.org/10.1016/S0048-9697(99)00016-9.CrossRefPubMedGoogle Scholar
  3. Appleton JD, et al. Impacts of mercury contaminated mining waste on soil quality, crops, bivalves, and fish in the Naboc River area, Mindanao, Philippines. Sci Total Environ. 2006;354(2–3):198–211.  https://doi.org/10.1016/j.scitotenv.2005.01.042.CrossRefPubMedGoogle Scholar
  4. Asian Development Bank. 2006. Country water action: Philippines institutional community-management approach for water supply and sanitation in Agusan del Sur, Quezon City. http://www.itnphil.org.ph/docs/Country%20Water%20Action%20Philippines.pdf. Accessed 10 Aug 2017.
  5. Bacongco K. 2014. Diarrhea outbreak kills 7 in Alamada, MINDANEWS. http://www.mindanews.com/top-stories/2014/05/diarrhea-outbreak-kills-7-in-alamada/. Accessed 13 Aug 2017.
  6. Baharom ZS, Ishak MY. Determination of heavy metal accumulation in fish species in Gales River, Kelantan and Beranang mining pool, Selangor. Procedia Environ Sci. 2015;30:302–25.  https://doi.org/10.1016/j.proenv.2015.10.057.CrossRefGoogle Scholar
  7. Bain R, et al. Fecal contamination of drinking-water in low- and middle-income countries: a systematic review and meta-analysis. PLoS Med. 2014;11(5):e1001644.  https://doi.org/10.1371/journal.pmed.1001644.CrossRefPubMedPubMedCentralGoogle Scholar
  8. Barba PF. 2004. The challenges in water resources management in the Philippines. http://rwes.dpri.kyoto-u.ac.jp/~tanaka/APHW/APHW2004/proceedings/JSE/56-JSE-A519/56-JSE-A519.pdf. Accessed 10 Aug 2017.
  9. Bureau of Fish and Aquatic Resources. 2016. Shellfish Bulletin from January 2016 to December 2016. http://www.bfar.da.gov.ph/bfar/download/redtide2016.pdf. Accessed 15 Aug 2017.
  10. BusinessWorld Manila. 2011. Deforestation in Mindanao deemed an “emergency” case. http://www.bworldonline.com/content.php?section=Economy&title=deforestation-in-mindanao-deemed-an-&145emergency&8217-case&id=35554. Accessed 13 Aug 2017.
  11. Cabral JPS. Water microbiology, bacterial pathogens and water. Int J Environ Res Public Health. 2010;7(10):3657–703.  https://doi.org/10.3390/ijerph7103657.CrossRefPubMedPubMedCentralGoogle Scholar
  12. Canencia OP, Walag AMP. Coal combustion from power plant industry in Misamis Oriental, Philippines: a potential groundwater contamination and heavy metal detection. Asian J Microbiol Biotechnol Environ Sci. 2016;18(1):55–9.Google Scholar
  13. Canencia OP, et al. Slaughter waste effluents and river catchment watershed contamination in Cagayan de Oro City, Philippines. J Biodivers Conserv Environ Sci. 2016;9(2):142–8.Google Scholar
  14. Chan Robles Virtual Law Library. 2015. Philippines laws, statutes & codes. http://lawlibrary.chanrobles.com/. Accessed 11 Aug 2017.
  15. Clausen A. Economic globalization and regional disparities in the Philippines. Singap J Trop Geogr. 2010;31(3):299–316.CrossRefGoogle Scholar
  16. Cortes-Maramba N, et al. Health and environmental assessment of mercury exposure in a gold mining community in Western Mindanao, Philippines. J Environ Manag. 2006;81(2):126–34.  https://doi.org/10.1016/j.jenvman.2006.01.019.CrossRefGoogle Scholar
  17. Crisostomo S, Serrano B. 2006. Hepa A outbreak eyed in Surigao town. PhilStar Global. http://www.philstar.com/nation/326292/hepa-outbreak-eyed-surigao-town. Accessed 21 Aug 2017.
  18. Dayrit H. 2001. The Philippines: formulation of a national water vision. http://www.fao.org/3/a-ab776e/ab776e03.htm. Accessed 13 Aug 2017.
  19. Department of Environment and Natural Resources (DENR). 1990. Revised water usage and classification/water quality criteria amending section nos. 68 and 69, Chapter III of the 1978 NPCC rules and regulations, Pub. L. No. Administrative Order 34.Google Scholar
  20. Department of Environment and Natural Resources. 2003. DENR Administrative Order No. 2003-14 creating the Philippine environment partnership program to support industry self-regulation towards improved environmental performance. http://pepp.emb.gov.ph/wp-content/uploads/2016/06/PEPP-DAO-2003-14.pdf. Accessed 28 Aug 2017.
  21. Department of Environment and Natural Resources. 2017. Laws & policies. http://www.denr.gov.ph/laws-and-policies.html . Accessed 11 Aug 2017.
  22. Department of Environment and Natural Resources. n.d. The Philippine environment partnership program: recognizing industries with superior environmental performance 2010–2014. http://pepp.emb.gov.ph. Accessed 28 Aug 2017.
  23. Department of Health. 2007. Philippine national standards for drinking water. http://www.lwua.gov.ph/downloads_14/Philippine%20National%20Standards%20for%20Drinking%20Water%202007.pdf. Accessed 12 Aug 2017.
  24. Department of Health, Republic of Philippines. 2012. National objectives for health 2011-2016. http://www.doh.gov.ph/sites/default/files/publications/noh2016.pdf. Accessed 12 Aug 2017.
  25. Drasch G, et al. The Mt. Diwata study on the Philippines 1999—assessing mercury intoxication of the population by small scale gold mining. Sci Total Environ. 2001;267(1–3):151–68.  https://doi.org/10.1016/S0048-9697(00)00806-8.CrossRefPubMedGoogle Scholar
  26. Dumlao SFJ. 2016. Water supply: a priority concern. Business Mirror. http://www.businessmirror.com.ph/water-supply-a-priority-concern/. Accessed 13 Aug 2017.
  27. Economopoulos AP. 1993. Assessment of sources of air, water, and land pollution. World Health Organization, Geneva. http://apps.who.int/iris/bitstream/10665/58750/1/WHO_PEP_GETNET_93.1-A.pdf. Accessed 21 Aug 2017.
  28. Environmental Management Bureau (EMB). 2007. Environmental impact assessment review manual. http://emb.gov.ph/wp-content/uploads/2016/06/EMB-MC-2007-001.pdf. Accessed 8 Aug 2017.
  29. Environmental Management Bureau (EMB). 2013. Additional list of classified water bodies. http://server2.denr.gov.ph/uploads/rmdd/dmc-2013-03.pdf. Accessed 21 Aug 2017.
  30. Environmental Management Bureau (EMB). 2014. National water quality status report 2006-2013. Quezon City. http://water.emb.gov.ph/wp-content/uploads/2016/06/NWQSR2006-2013.pdf. Accessed 21 Aug 2017.
  31. Environmental Management Bureau (EMB). n.d.-a. Adopt-an-estero/waterbody program. http://water.emb.gov.ph/?page_id=45. Accessed 13 Aug 2017.
  32. Environmental Management Bureau (EMB). n.d.-b. Water quality management area. http://water.emb.gov.ph/?page_id=12. Accessed 13 Aug 2017.
  33. Environmental Management Bureau (EMB). n.d.-c. The industrial ecowatch program fact sheet. http://119.92.161.2/embgovph/eeid/Resources/FactSheets/tabid/1397/aid/183/Default.aspx. Accessed 28 Aug 2017.
  34. Fehr A, et al. Sub-national inequities in Philippine water access associated with poverty and water potential. J Water Sanit Hyg Dev. 2013;3(4):638–45.  https://doi.org/10.2166/washdev.2013.115.CrossRefGoogle Scholar
  35. Fernandez EO. 2017. Massive fish kill wipes out Lake Sebu’s tilapia stock Philippine Daily Inquirer. http://newsinfo.inquirer.net/867809/massive-fish-kill-wipes-out-lake-sebus-tilapia-stock. Accessed 21 Aug 2017.
  36. Franta B et al. 2016. Climate disasters in the Philippines: a case study of immediate causes and root drivers from Cagayan de Oro, Mindanao and Tropical Storm Sendong/Washi. Belfer Center for Science and International Affairs, Cambridge, MA: Harvard University.Google Scholar
  37. Greenpeace. The state of water resources in the Philippines. Quezon City: Greenpeace Southeast Asia; 2007.Google Scholar
  38. Grimes JET, et al. The roles of water, sanitation and hygiene in reducing schistosomiasis: a review. Parasit Vectors. 2015;8:156.CrossRefGoogle Scholar
  39. Ido AL. Evaluating the physicochemical and bacteriological characteristics of Aligodon River as source of potable water for new Claveria Water System. Int J Res Eng Technol. 2016;5(5):51–8.CrossRefGoogle Scholar
  40. Insigne MSL, Kim GS. Saltwater intrusion modeling in the aquifer bounded by Manila Bay and Parañaque River, Philippines. Environ Eng Res. 2010;5(2):117–21.  https://doi.org/10.4491/eer.2010.15.2.117.CrossRefGoogle Scholar
  41. Israel DC. 2009. Local service delivery of potable water in the Philippines: national review and case analysis (PIDS discussion paper no. 2009–38). Philippine Institute for Development Studies.Google Scholar
  42. Jabatan LA. 2004. Weekender: environment. BusinessWorld. Manila. Financial Times Information, Global News Wire—Asia Africa Intelligence Wire.Google Scholar
  43. Japan International Cooperation Agency. 1998. Master plan study on water resources management in the Republic of the Philippines final report. Tokyo, Japan. http://open_jicareport.jica.go.jp/pdf/11462777_01.pdf. Accessed 21 Aug 2017.Google Scholar
  44. Jerusalem J. 2016. PH won’t escape water crisis, USAID exec warns. Inquirer Mindanao. Cagayan de Oro City. http://newsinfo.inquirer.net/756220/ph-wont-escape-water-crisis-usaid-exec-warns. Accessed 13 Aug 2017.
  45. Kim DW, et al. Physical processes leading to the development of an anomalously large cochlodinium polykrikoides bloom in the East sea/Japan sea. Harmful Algae. 2016;55:250–8.  https://doi.org/10.1016/j.hal.2016.03.019.CrossRefPubMedGoogle Scholar
  46. Labajo-Villantes Y, Nuneza OM. Water quality assessment of Labo and Clarin rivers in Misamis Occidental, Philippines. Int J Biodivers Conserv. 2014;6(10):735–42.Google Scholar
  47. Land Bank of the Philippines. 2014. Gawad Sibol Program. https://www.landbank.com/adopt-a-watershed-program-2. Accessed 13 Aug 2017.
  48. Laud NV, et al. Physical and chemical parameters of selected river waters in Davao City. UIC Res J. 2016;19(2):147–63.CrossRefGoogle Scholar
  49. Lee MO, Choi JH. Distributions of water temperature and salinity in the Korea southern coastal water during cochlodinium polykrikoides blooms. J Korean Soc Mar Environ Energy. 2009;12(4):235–47.Google Scholar
  50. Li P, et al. Mercury pollution in Asia: a review of the contaminated sites. J Hazard Mater. 2009;168:591.  https://doi.org/10.1016/j.jhazmat.2009.03.031.CrossRefPubMedGoogle Scholar
  51. Lim VL, Flores VB. Water and soil analyses of Balongis fish cage and Oster (Talaba) farms in Concepcion River, Kabasalan, Zamboanga. Asia Pac J Multidiscip Res. 2017;5(1):139–46.Google Scholar
  52. Llanto GM. 2013. Water financing programs in the Philippines: are we making progress? https://dirp4.pids.gov.ph/ris/dps/pidsdps1334.pdf. Accessed 13 Aug 2017.
  53. Lubos L, Japos GV. Extent of Escherichia coli contamination of Cagayan de Oro river and factors causing contamination: a translational research in Southern Philippines. Liceo J High Educ Res Sci Technol Sect. 2010;6(2):44–59.Google Scholar
  54. Lubos L, et al. A study on the fecal contamination of Cagayan de Oro River along the upstream (Barangay Bayanga) and the factors affecting contamination, August 2008–March 2009. Adv Nurs Res. 2013;5(January):1–22.Google Scholar
  55. Luken RA. 1999. Industrial policy and the environment in the Philippines. United Nations Industrial Development Organization. United Nations Industrial Development Organization, Prepared for the Government of the Philippines under UNDP-financed TSS-1 facility, NC/PHI/97/020.Google Scholar
  56. Madrazo AB. Water issues in the context of sustainable development. Paper presented at the 2nd World Conference on Green Productivity, EDSA Shangri-La, Mandaluyong City, Philippines, 9–11 December; 2002.Google Scholar
  57. Magtibay BB. Water refilling station: an alternative source of drinking water supply in the Philippines. Paper presented at the 30th WEDC International Conference, Vientiane, Lao PDR; 2004.Google Scholar
  58. Malapit HJL, et al. Does violent conflict make chronic poverty more likely? The Mindanao experience. Philipp Rev Econ. 2003;40(2):31–58.Google Scholar
  59. National Anti-Poverty Commission. n.d. Sagana at ligtas na tubig para sa lahat. http://www.napc.gov.ph/projects/sagana-ligtas-na-tubig-para-sa-lahat-salintubig. Accessed 28 Aug 2017.
  60. National Water Resources Board. n.d. Organizational structure. http://www.nwrb.gov.ph/index.php/about/organizational-structure. Accessed 28 Aug 2017.
  61. Pelone R. 2014a. NortCot diarrhea outbreak contained, more doctors coming to town. Businessweek Mindanao. http://www.businessweekmindanao.com/2014/05/14/nortcot-diarrhea-outbreak-contained-more-doctors-coming-to-town. Accessed 13 Aug 2017.
  62. Pelone R. 2014b. Child dies, 32 others hospitalized for waterborne disease in Zambo City’s west coast barangay. Businessweek Mindanao. http://www.businessweekmindanao.com/2014/09/09/child-dies-32-others-hospitalized-for-waterborne-disease-in-zambo-citys-west-coast-barangay/#more-6900. Accessed 10 Aug 2017.
  63. Pfadenhauer LM, Rehfuess E. Towards effective and socio-culturally appropriate sanitation and hygiene interventions in the Philippines: a mixed method approach. Int J Environ Res Public Health. 2015;12(2):1902–27.  https://doi.org/10.3390/ijerph120201902.CrossRefPubMedPubMedCentralGoogle Scholar
  64. Philippine Statistics Authority. 2016. Water Resources. https://psa.gov.ph/content/water-resources. Accessed 13 Aug 2017.
  65. Pinder GF. Groundwater hydrology. Adv Water Resour. 1981;4(20):96.  https://doi.org/10.1016/0309-1708(81)90029-4.CrossRefGoogle Scholar
  66. Quisil JC, et al. Impact of mine tailings on the species diversity of Odonata fauna in Surigao Del Sur, Philippines. J Biodivers Environ Sci. 2014;5(1):465–76.Google Scholar
  67. Radyo Natin. 2016. DOH urges public to beef up cleanliness to curb diarrhea, norovirus spread. https://www.radyonatin.com/story.php?storyid=10690 [updated 1 Mar 2017]. Accessed 13 Aug 2017.
  68. Ranada P. 2015. Philippines faces “high” level of water shortage in 2040 – study. Rappler. Manila. http://www.rappler.com/science-nature/environment/104039-philippines-water-stress-2040. Accessed 13 Aug 2017.
  69. Raymundo RB. Challenges to water resource management: ensuring adequate supply and better water quality for the present and future generations. Presented at the DLSU Research Congress 2015, De La Salle, Manila, Philippines; 2015.Google Scholar
  70. Rodolfo KS, et al. The December 2012 Mayo River debris flow triggered by Super Typhoon Bopha in Mindanao, Philippines: lessons learned and questions raised. Nat Hazards Earth Syst Sci. 2016;16(12):2683–95.CrossRefGoogle Scholar
  71. Rola AC, et al. Challenges of water governance in the Philippines. Philipp J Sci. 2015;144(2):197–298.Google Scholar
  72. Sarmiento BS. 2017. 30 hectares of illegal tilapia fish pens dismantled in Lake Sebu. MindaNews. Davao City. http://www.mindanews.com/top-stories/2017/06/30-hectares-of-illegal-tilapia-fish-pens-dismantled-in-lake-sebu/. Accessed 21 Aug 2017.
  73. Scholze O, et al. Protection of the groundwater resources of Metropolis Cebu (Philippines) in consideration of saltwater intrusion into the coastal aquifer. Presented at the 17th Salt Water Intrusion Meeting. Delft, The Netherlands; 2002.Google Scholar
  74. Senate Economic Planning Office. 2011. Turning the tide: improving water resource management in the Philippines (PB-11-03). http://www.senate.gov.ph/publications/PB%202011-08%20-%20Turning%20the%20Tide.pdf. Accessed 13 Aug 2017.
  75. Serrano B. 2015. Butuan under state of water crisis. Philippine Star Global. Butuan City. http://www.philstar.com/nation/2015/01/29/1417754/butuan-under-state-water-crisis. Accessed 13 Aug 2017.
  76. Silva JA. Devolution and regional disparities in the Philippines: is there a connection? Environ Plan C. 2005;23(3):399–417.  https://doi.org/10.1068/c051.CrossRefGoogle Scholar
  77. Tabios III GQ. 2014. Update on proposed national water resources management office (NWRMO). http://www.nast.ph/index.php/downloads/category/40-water-governance?download=151:update-on-proposed-national-water-resources-management-office. Accessed 28 Aug 2017.
  78. Tacio H. 2014. Water crisis looms in Davao. Philippine EnviroNews. http://environews.ph/ecocities/water-crisis-looms-in-davao/. Accessed 13 Aug 2017.
  79. Tan JML, et al. Managing Mindanao’s natural capital: the environment in Mindanao’s past, present and future. In: Duplito MS, editor. Pasig City: Brain Trust; 2012.Google Scholar
  80. Tirado R. 2007. Nitrates in drinking water in the Philippines and Thailand. http://www.greenpeace.to/publications/Nitrates_Philippines_Thailand.pdf. Accessed 13 Aug 2017.
  81. Tomas CR, Smaydab TJ. Red tide blooms of cochlodinium polykrikoides in a coastal cove. Harmful Algae. 2008;7(3):308–17.  https://doi.org/10.1016/j.hal.2007.12.005.CrossRefGoogle Scholar
  82. United Nations. 2015. The Millennium development goals report 2015.TakePart http://www.un.org/millenniumgoals/2015_MDG_Report/pdf/MDG%202015%20rev%20(July%201).pdf. Accessed 11 Aug 2017.
  83. United Nations. 2017. Millennium development goals and beyond 2015. http://www.un.org/millenniumgoals/. Accessed 11 Aug 2017.
  84. United Nations Children’s Fund (UNICEF) and World Health Organization (WHO). 2012. Progress on drinking water and sanitation. Joint Monitoring Programme for Water Supply and Sanitation, Philippines. https://www.unicef.org/media/files/JMPreport2012.pdf. Accessed 21 Aug 2017.
  85. United States Agency for International Development (USAID). 2010. Philippine sanitation alliance: 10th quarterly report results. Makati City. http://pdf.usaid.gov/pdf_docs/PA00HWJ4.pdf. Accessed 13 Aug 2017.
  86. United States Agency for International Development (USAID). 2016. Building climate resilience in water stressed communities (CREST). https://www.usaid.gov/philippines/energy-and-environment/crest. Accessed 3 Sept 2017.
  87. United States Agency for International Development (USAID) and Asian Environmental Compliance and Enforcement Network (AECEN). 2004. Environmental compliance and enforcement in the Philippines: rapid assessment. http://www.aecen.org/sites/default/files/PH_Assessment.pdf. Accessed 13 Aug 2017.
  88. Vicente H, et al. Harmful algal bloom in Iligan Bay, Southern Philippines. Sci Diliman. 2002;14(2):59–65.Google Scholar
  89. Water Environment Partnership in Asia (WEPA). n.d. State of water environmental issues: Philippines. http://www.wepa-db.net/policies/state/philippines/overview.htm. Accessed 12 Aug 2017.
  90. World Bank. 2003. Philippine environment monitor 2003. Washington, DC: World Bank. http://documents.worldbank.org/curated/en/144581468776089600/Philippines-Environment-monitor-2003. Accessed 21 Aug 2017.
  91. World Bank. 2004. Philippine environment monitor 2004. Washington, DC: World Bank. http://documents.worldbank.org/curated/en/829241468333075012/Philippines-environment-monitor-2004-assessing-progress. Accessed 21 Aug 2017.
  92. World Bank. 2014. Community-driven development project in the Philippines. http://www.worldbank.org/en/results/2014/04/10/community-driven-development-project-in-the-philippines. Accessed 13 Aug 2017.
  93. Zapanta MJ, et al. An outbreak of leptospirosis in Davao City Philippines, 2013: an investigation of the risky behaviors that led to the resurgence. Outbreak Surveill Investig Rep. 2014;7(4):1–5.Google Scholar

Further Reading

  1. Dwyer L. 2014. This floating grass billboard can suck pollution out of filthy rivers. TakePart. http://www.takepart.com/article/2014/06/03/floating-grass-billboard-can-suck-pollution-out-filthy-rivers. Accessed 28 Aug 2017.
  2. Marks SJ, et al. Community participation and water supply sustainability: evidence from handpump projects in rural Ghana. J Plan Educ Res. 2014;34:1–11.  https://doi.org/10.1177/0739456X14527620.CrossRefGoogle Scholar
  3. Morrison K. Stakeholder involvement in water management: necessity or luxury? Water Sci Technol. 2003;47:43–51.PubMedGoogle Scholar
  4. Osumanu IK. Community involvement in urban water and sanitation provision: the missing link in partnerships for improved service delivery in Ghana. J Afr Stud Dev. 2010;2(8):208–15.Google Scholar

Copyright information

© Springer International Publishing AG, part of Springer Nature 2018

Authors and Affiliations

  • Angelo Mark P. Walag
    • 1
  • Oliva P. Canencia
    • 2
  • Beth Ann Fiedler
    • 3
  1. 1.Department of Science EducationUniversity of Science and Technology of Southern Philippines, College of Science and Technology EducationCagayan de OroPhilippines
  2. 2.Research DivisionUniversity of Science and Technology of Southern Philippines, College of Science and MathematicsCagayan de OroPhilippines
  3. 3.Independent Research AnalystJacksonvilleUSA

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