Modelling seasonal household variation in harvested rainwater availability: a case study in Siaya County, Kenya
Modelling seasonal household variation in harvested rainwater availability: a case study in Siaya County, Kenya
Rainwater harvesting reliability, the proportion of days annually when rainwater demand is fully met, is challenging to estimate from cross-sectional household surveys that underpin international monitoring. This study investigated the use of a modelling approach that integrates household surveys with gridded precipitation data to evaluate rainwater harvesting reliability, using two local-scale household surveys in rural Siaya County, Kenya as an illustrative case study. We interviewed 234 households, administering a standard questionnaire that also identified the source of household stored drinking water. Logistic mixed effects models estimated stored rainwater availability from household and climatological variables, with random effects accounting for unobserved heterogeneity. Household rainwater availability was significantly associated with seasonality, storage capacity, and access to alternative improved water sources. Most households (95.1%) that consumed rainwater faced insufficient supply of rainwater available for potable needs throughout the year, with intermittencies during the short rains for most households with alternative improved sources. Although not significant, stored rainwater lasts longer for households whose only improved water source was rainwater (301.8 ± 40.2 days) compared to those having multiple improved sources (144.4 ± 63.7 days). Such modelling analysis could enable rainwater harvesting reliability estimation, and thereby national/international monitoring and targeted follow-up fieldwork to support rainwater harvesting.
Yu, Weiyu
4cca6f0a-badb-4f1c-8b38-da29ba0b9e09
Wanza, Peggy
fe7bfcdb-f5fd-492d-a60c-efe97fffb3b0
Kwoba, Emmah
25a80128-b537-43d4-a313-25026767b7d4
Mwangi, Thumbi
b5751868-17cd-4b63-9ec1-6ba33c3c1c85
Okotto-Okotto, Joseph
a8cb5abe-ee03-4c93-978b-b02a02350e26
Gomes da Silva, D.
0a247507-43aa-4853-a41f-25d9324d9866
Wright, Jim
94990ecf-f8dd-4649-84f2-b28bf272e464
13 April 2023
Yu, Weiyu
4cca6f0a-badb-4f1c-8b38-da29ba0b9e09
Wanza, Peggy
fe7bfcdb-f5fd-492d-a60c-efe97fffb3b0
Kwoba, Emmah
25a80128-b537-43d4-a313-25026767b7d4
Mwangi, Thumbi
b5751868-17cd-4b63-9ec1-6ba33c3c1c85
Okotto-Okotto, Joseph
a8cb5abe-ee03-4c93-978b-b02a02350e26
Gomes da Silva, D.
0a247507-43aa-4853-a41f-25d9324d9866
Wright, Jim
94990ecf-f8dd-4649-84f2-b28bf272e464
Yu, Weiyu, Wanza, Peggy, Kwoba, Emmah, Mwangi, Thumbi, Okotto-Okotto, Joseph, Gomes da Silva, D. and Wright, Jim
(2023)
Modelling seasonal household variation in harvested rainwater availability: a case study in Siaya County, Kenya.
NPJ Clean Water, 6 (1), [32].
(doi:10.1038/s41545-023-00247-9).
Abstract
Rainwater harvesting reliability, the proportion of days annually when rainwater demand is fully met, is challenging to estimate from cross-sectional household surveys that underpin international monitoring. This study investigated the use of a modelling approach that integrates household surveys with gridded precipitation data to evaluate rainwater harvesting reliability, using two local-scale household surveys in rural Siaya County, Kenya as an illustrative case study. We interviewed 234 households, administering a standard questionnaire that also identified the source of household stored drinking water. Logistic mixed effects models estimated stored rainwater availability from household and climatological variables, with random effects accounting for unobserved heterogeneity. Household rainwater availability was significantly associated with seasonality, storage capacity, and access to alternative improved water sources. Most households (95.1%) that consumed rainwater faced insufficient supply of rainwater available for potable needs throughout the year, with intermittencies during the short rains for most households with alternative improved sources. Although not significant, stored rainwater lasts longer for households whose only improved water source was rainwater (301.8 ± 40.2 days) compared to those having multiple improved sources (144.4 ± 63.7 days). Such modelling analysis could enable rainwater harvesting reliability estimation, and thereby national/international monitoring and targeted follow-up fieldwork to support rainwater harvesting.
Text
s41545-023-00247-9
- Version of Record
More information
Accepted/In Press date: 23 March 2023
Published date: 13 April 2023
Additional Information:
© The Author(s) 2023.
Identifiers
Local EPrints ID: 476659
URI: http://eprints.soton.ac.uk/id/eprint/476659
ISSN: 2059-7037
PURE UUID: 11a13f01-48f8-455a-a3b8-f09d1fa7b9c8
Catalogue record
Date deposited: 10 May 2023 17:18
Last modified: 17 Mar 2024 02:59
Export record
Altmetrics
Contributors
Author:
Peggy Wanza
Author:
Emmah Kwoba
Author:
Thumbi Mwangi
Author:
Joseph Okotto-Okotto
Author:
D. Gomes da Silva
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
