Modelling seasonal household variation in harvested rainwater availability: a case study in Siaya County, Kenya

Weiyu Yu; Peggy Wanza; Emmah Kwoba; Thumbi Mwangi; Joseph Okotto-Okotto; Diogo Trajano Gomes da Silva; Jim A. Wright

doi:10.1038/s41545-023-00247-9

Modelling seasonal household variation in harvested rainwater availability: a case study in Siaya County, Kenya

Weiyu Yu, Peggy Wanza, Emmah Kwoba, Thumbi Mwangi, Joseph Okotto-Okotto, Diogo Trajano Gomes da Silva, Jim A. Wright

School of Applied Sciences

Research output: Contribution to journal › Article › peer-review

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.

Original language	English
Article number	32
Number of pages	10
Journal	npj Clean Water
Volume	6
Issue number	1
DOIs	https://doi.org/10.1038/s41545-023-00247-9
Publication status	Published - 13 Apr 2023

Bibliographical note

Funding Information:
This research is a contribution to the OneHealthWater project (http://www.onehealthwater.org/), which received funding from the UK Medical Research Council/Department for International Development via a Global Challenges Research Fund foundation grant (ref.: MR/P024920/1). The study sponsors had no role in the subsequent execution of the study. Ethical approval for this study was obtained from the Faculty of Social and Human Sciences, University of Southampton (reference: 31554; approved on 12th February 2018) and the Kenya Medical Research Institute (reference: KRMRI/RES/7/3/1; approved on 17th October 2017).

Funding Information:
This research is a contribution to the OneHealthWater project ( http://www.onehealthwater.org/ ), which received funding from the UK Medical Research Council/Department for International Development via a Global Challenges Research Fund foundation grant (ref.: MR/P024920/1). The study sponsors had no role in the subsequent execution of the study. Ethical approval for this study was obtained from the Faculty of Social and Human Sciences, University of Southampton (reference: 31554; approved on 12th February 2018) and the Kenya Medical Research Institute (reference: KRMRI/RES/7/3/1; approved on 17th October 2017).

Publisher Copyright:
© 2023, The Author(s).

Keywords

Water resources
Geography
Developing world

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Cite this

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title = "Modelling seasonal household variation in harvested rainwater availability: a case study in Siaya County, Kenya",

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.",

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author = "Weiyu Yu and Peggy Wanza and Emmah Kwoba and Thumbi Mwangi and Joseph Okotto-Okotto and {Trajano Gomes da Silva}, Diogo and Wright, {Jim A.}",

note = "Funding Information: This research is a contribution to the OneHealthWater project (http://www.onehealthwater.org/), which received funding from the UK Medical Research Council/Department for International Development via a Global Challenges Research Fund foundation grant (ref.: MR/P024920/1). The study sponsors had no role in the subsequent execution of the study. Ethical approval for this study was obtained from the Faculty of Social and Human Sciences, University of Southampton (reference: 31554; approved on 12th February 2018) and the Kenya Medical Research Institute (reference: KRMRI/RES/7/3/1; approved on 17th October 2017). Funding Information: This research is a contribution to the OneHealthWater project ( http://www.onehealthwater.org/ ), which received funding from the UK Medical Research Council/Department for International Development via a Global Challenges Research Fund foundation grant (ref.: MR/P024920/1). The study sponsors had no role in the subsequent execution of the study. Ethical approval for this study was obtained from the Faculty of Social and Human Sciences, University of Southampton (reference: 31554; approved on 12th February 2018) and the Kenya Medical Research Institute (reference: KRMRI/RES/7/3/1; approved on 17th October 2017). Publisher Copyright: {\textcopyright} 2023, The Author(s).",

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N2 - 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.

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Modelling seasonal household variation in harvested rainwater availability: a case study in Siaya County, Kenya

Abstract

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Keywords

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