A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Drivers of domestic wells vulnerability during droughts in California’s Central Valley
Over the past decade, California has experienced two multiyear droughts, resulting in water insecurity for communities and significant economic losses for the agricultural sector. Despite the recognition of water as a human right in the state since 2012, droughts consistently lead to the failure of thousands of domestic wells due to intensified groundwater pumping for irrigation purposes. In the Central Valley alone, groundwater sustains the livelihoods of thousands of individuals (and millions across the state) serving as their sole water source, rendering them vulnerable due to inadequate groundwater management. In this study, we present a spatial statistical model to identify critical localized factors within the food-water-human system that contribute to the vulnerability of domestic wells during droughts. Our results indicate that the depth of domestic wells, density of domestic and agricultural wells, socioeconomic conditions, and the extent of perennial crops play significant roles in predicting well failures during droughts. We show the implications of addressing these factors within the context of ongoing groundwater sustainability initiatives, and we propose strategies to safeguard the water source for thousands of individuals necessary to protect domestic wells.
Drivers of domestic wells vulnerability during droughts in California’s Central Valley
Over the past decade, California has experienced two multiyear droughts, resulting in water insecurity for communities and significant economic losses for the agricultural sector. Despite the recognition of water as a human right in the state since 2012, droughts consistently lead to the failure of thousands of domestic wells due to intensified groundwater pumping for irrigation purposes. In the Central Valley alone, groundwater sustains the livelihoods of thousands of individuals (and millions across the state) serving as their sole water source, rendering them vulnerable due to inadequate groundwater management. In this study, we present a spatial statistical model to identify critical localized factors within the food-water-human system that contribute to the vulnerability of domestic wells during droughts. Our results indicate that the depth of domestic wells, density of domestic and agricultural wells, socioeconomic conditions, and the extent of perennial crops play significant roles in predicting well failures during droughts. We show the implications of addressing these factors within the context of ongoing groundwater sustainability initiatives, and we propose strategies to safeguard the water source for thousands of individuals necessary to protect domestic wells.
Drivers of domestic wells vulnerability during droughts in California’s Central Valley
José M Rodríguez-Flores (author) / Angel Santiago Fernandez-Bou (author) / J Pablo Ortiz-Partida (author) / Josué Medellín-Azuara (author)
2023
Article (Journal)
Electronic Resource
Unknown
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