Rainwater harvesting (RWH) is increasingly promoted as a sustainable alternative water
source, yet concerns about its safety and acceptance persist. This study employed
a qualitative narrative synthesis from literature sources (2010–2024), chosen for
methodological rigor, relevance, and global coverage. Extracted data included roofing
material, contaminant profiles, seasonal effects, storage tank characteristics, first-flush
efficiency, and socio-economic adoption factors.
Findings highlight the decisive role of roofing materials: ceramic and stone-coated
tiles, as well as well-maintained galvanized steel, generally yield water with lower
microbial and heavy metal contamination, whereas asphalt, green roofs, and certain
metallic surfaces often present health risks. Local environmental conditions—including
atmospheric deposition, seasonal variation, and neighborhood pollution—further shape
water quality. While first-flush systems reduce initial contaminant loads, treatment
is essential for potable use, and storage tank type strongly influences microbial
persistence and chemical leaching.
Importantly, technical measures alone cannot guarantee safe and widespread adoption.
Education, income, and awareness strongly affect uptake, while affordability and limited
technical capacity constrain marginalized groups. These findings underscore the need
for material-specific guidelines, effective first-flush devices, affordable treatment
options, and enabling policy frameworks. Future research should integrate real-time
monitoring, address emerging pollutants, and connect engineering interventions with
socio-economic strategies to enhance RWH safety and acceptance
Bibliographical Record
Bhesh Kumar Karki. The Nexus of Rainwater Harvesting: Bridging Engineering Solutions
with Socio-economic Strategies for Safe Adoption. Sustainability & Circularity NOW
; 0: a27424074.
DOI: 10.1055/a-2742-4074
