Sand dam contributions to year-round water security monitored through telemetered handpump data.

Autor: Ritchie H; Cranfield Centre for Water, Environment and Development, Cranfield University, Bedford, UK., Holman I; Cranfield Centre for Water, Environment and Development, Cranfield University, Bedford, UK. I.holman@cranfield.ac.uk., Parker A; Cranfield Centre for Water, Environment and Development, Cranfield University, Bedford, UK., Chan J; Cranfield Centre for Water, Environment and Development, Cranfield University, Bedford, UK.
Jazyk: angličtina
Zdroj: Environmental monitoring and assessment [Environ Monit Assess] 2023 Oct 17; Vol. 195 (11), pp. 1328. Date of Electronic Publication: 2023 Oct 17.
DOI: 10.1007/s10661-023-11694-9
Abstrakt: Sand dams are a form of rainwater harvesting, prolific in arid and semi-arid lands. Water is provided partly via handpumps, which, as the only improved method of abstraction from sand dams, are important for drinking water security. Accelerometers and cellular transmitters were fitted to 30 handpumps by the Africa Sand Dam Foundation (ASDF) in 2019 to monitor the use and reliability of the handpumps by recording hourly water volume abstracted. Data from April 2019 to October 2021 for 26 of these sites, alongside qualitative data, were analysed and each handpump's contribution to year-round water security was explored, focusing on the long dry season when water supply from other sources is compromised. Abstraction was over 20 times higher in the long dry season than in any other season, and at sites with higher salinity, higher livestock use, and larger dam wall area. At 21 wells, abstraction was still being recorded at the end of at least one long dry season; however, high spatial and temporal heterogeneity between pumps and seasons means that not all sand dams deliver reliable water supply year-round. Quantifying the contribution that sand dams make to water security is crucial for understanding their resilience against a changing climate and can aid decision makers when choosing the most appropriate water management technique. Knowledge of temporal and site heterogeneity in abstraction can inform when other water sources need increasing and can help with sand dam design optimisation. Overall, our results indicate the positive contribution that sand dams make to year-round water security through the water that is abstracted through handpumps.
(© 2023. The Author(s).)
Databáze: MEDLINE