Households\u2019 Willingness to Pay for Disaster Resilient Safe Drinking Water Sources in Southwestern Coastal Bangladesh

Md Sariful Islam,Tasnim Murad Mamun,Debasish Kumar Das,Sonia Afrin,Mohammed Ziaul Haider,Md Nasif Ahsan

doi:10.1007/s13753-019-00229-x

Md Sariful Islam, Tasnim Murad Mamun + Show 4 more

Open Access

https://doi.org/10.1007/s13753-019-00229-x

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Abstract

Nonfunctionality of engineered water sources after two catastrophic cyclones—Sidr in November 2007 and Aila in May 2009—created acute scarcity of safe drinking water in coastal Bangladesh. The objective of this study was to estimate households’ willingness to pay (WTP) for disaster resilient water sources in Dacope upazila of Khulna District in southwestern coastal Bangladesh. By applying the double bounded dichotomous contingent valuation method to a dataset of 250 randomly selected households, we found that the mean WTP is BDT 263 and that inaccessibility to functional safe drinking water sources is the most significant determining factor of households’ WTP. Projecting mean WTP for a disaster resilient water source project in the study area, we measured a present value of aggregate WTP over project’s life span worth about BDT 624 (USD 7.37) million, which is about 14.30 times the present value of project’s aggregate establishment and maintenance cost. However, charging the local inhabitants a water tariff at mean WTP would lead to the exclusion of around 50% of the people from getting access to the improved water services or create a free riding problem. Through simulation exercises this study determined that the socially optimal water tariff is BDT 50 per month. This tariff would not only generate revenue of more than five times the project cost but would also create access to disaster resilient improved drinking water sources for almost 99% of the people.

Highlights

Demand for safe drinking water is mounting with the increase in global population
By applying the double bounded dichotomous contingent valuation method to a dataset of 250 randomly selected households, we found that the mean willingness to pay (WTP) is BDT 263 and that inaccessibility to functional safe drinking water sources is the most significant determining factor of households’ WTP
Keywords Bangladesh Á Disaster resilient safe drinking water Á Double bounded contingent valuation Á Household willingness to pay Demand for safe drinking water is mounting with the increase in global population

Summary

Introduction

Demand for safe drinking water is mounting with the increase in global population. Millions of people are suffering from chronic diseases like cholera, diarrhea, typhoid, and parasites due to drinking contaminated water (Curry 2010). Around one in every nine of the global population lacks access, and around 844 million people do not have access to safe drinking water (World Economic Forum 2019). Arsenic and salinity contamination of water sources is the major cause creating scarcity of safe drinking water (Abedin and Shaw 2014). Climate change exacerbates this water scarcity further. The Intergovernmental Panel on Climate Change (IPCC) pointed out how climate change induces global warming, sea level rise, and frequent natural hazards, resulting in salinization in groundwater, rivers, and crop fields (Parry et al 2007)

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