Abstract
In 2012, an estimated 50% of rural households in India had a system of drainage for moving wastewater away from their homes, but 0.0% have access to safe, reuseable, treated wastewater. Constructed wetlands can provide decentralized wastewater treatment for rural villages and lead to multiple benefits, such as reusable water, reduced disease, and decreased environmental pollution. However, the maintenance of decentralized wastewater technologies is poorly understood. We used a case study design across four communities and six constructed wetlands to understand the social and cultural variables impacting the maintenance of constructed wetlands for decentralized wastewater treatment to provide agricultural irrigation water. Semi-structured interviews (n= 39) and focus groups (n= 4) were conducted with people from Telangana and Karnataka, India. Interviewees were classed into four groups: (1) Scientists, (2) Farmers, (3) Privileged Community Members, and (4) Socially Disadvantaged Community members. Inductive, constant comparison qualitative data analysis was used to develop a model for explaining the existing practice of wetland maintenance. Three themes emerged from the data: mental models of constructed wetland maintenance show plural valuation of ecosystem services, yuck as a leverage point for decreasing social cohesion in the community, and recommendations for improving maintenance through human-centered design. Based on the results, we propose a model for understanding how to incorporate the plural valuation of ecosystem services provided by constructed wetlands and human-centered design to support long-term adoption and maintenance of decentralized wastewater treatment technologies.
Highlights
Over 1.3 billion individuals live in India
The third section gives suggestions to improve the human-centered design of the Constructed wetlands (CWs) to overcome the plural valuation of the ecosystem services perceived by stakeholders to address the yuck factor
Widespread adoption and maintenance of Decentralized WW treatment (DWT) units has not occurred despite technological innovation and capital investment
Summary
Over 1.3 billion individuals live in India. Wastewater (WW) from hundreds of millions of individuals goes untreated and is released back into the environment, leading to an increased incidence of disease and environmental pollution. Decentralized WW treatment (DWT) is one reasonable option for some rural communities. There is no widespread adoption despite many different available technologies and a significant amount of capital devoted to providing a solution. Sanitation, and hygiene (WASH), developing countries face limited growth in their Gross Domestic Product, high child mortality, limited life spans, and stunting in children (LoPalo et al, 2019). WASH programs focused on water supply and behavioral sanitation practices, and little research looked at how communities manage downstream WASH infrastructure. Wastewater treatment is an essential component of WASH for minimizing exposure to pathogens
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