The paradox of production: Surface water supply drives agricultural productivity but not prosperity in California’s San Joaquin Valley

PLOS water Pub Date : 2024-06-13 DOI:10.1371/journal.pwat.0000192

Vicky Espinoza, J. Viers

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Abstract

Societies globally are struggling to meet freshwater demands while agencies attempt to address water access inequities under a rapidly changing climate and growing population. An understanding of dynamic interactions between people and water, known as sociohydrology, regionally could provide approaches to addressing local water mismanagement and water access inequity. In semi-arid California, local water agencies, primarily agricultural irrigation districts, are at the intersection of rethinking approaches to balance freshwater demands. More than 150 years of complex water governance and management have defined San Joaquin Valley irrigation districts and the region’s water access inequities and sociohydrologic instability. Older irrigation districts have higher surface water allocations and less groundwater dependence. About 60% of irrigation districts with pre-1914 water rights have twice the crop water demand in surface water allocations. In contrast, 86% of irrigation districts depend on groundwater, of which 12% rely exclusively on groundwater to supply irrigation demands. This study found that disadvantaged communities within irrigation districts do not have increased water access or better environmental conditions than those outside irrigation district boundaries, which underscores the need for inclusive water management structures to address the multifaceted water and environmental inequities. Groundwater overdependence across irrigation districts shows that imbalanced surface water allocations and inflexible crops could imperil agriculture and impact agricultural disadvantaged communities, especially under California’s SGMA and prolonged drought events. It is imperative that underserved communities are prioritized communities in achieving equitable water rebalance in California in addition to developing and implementing essential infrastructure and policy changes.

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生产的悖论：地表水供应推动了加利福尼亚圣华金河谷的农业生产力，但并没有带来繁荣

在气候迅速变化和人口不断增长的情况下，全球社会都在努力满足淡水需求，而相关机构也在试图解决水资源获取不公平的问题。了解人与水之间的动态互动（即社会水文学）可以为解决当地水资源管理不善和水资源获取不公平问题提供方法。在半干旱的加利福尼亚州，地方水务机构（主要是农业灌溉区）正处于重新思考如何平衡淡水需求的十字路口。150 多年复杂的水治理和管理决定了圣华金河谷灌区以及该地区水资源获取的不公平和社会水文的不稳定性。老灌区的地表水分配较多，对地下水的依赖较少。在 1914 年以前拥有水权的灌区中，约 60%的地表水分配量是作物需水量的两倍。相比之下，86%的灌区依赖地下水，其中 12%完全依靠地下水供应灌溉需求。本研究发现，灌区内的弱势社区与灌区外的社区相比，并没有获得更多的水资源或拥有更好的环境条件，这凸显了包容性水资源管理结构的必要性，以解决多方面的水资源和环境不平等问题。各灌区对地下水的过度依赖表明，不平衡的地表水分配和缺乏灵活性的农作物可能会危及农业并影响农业弱势群体，尤其是在加利福尼亚州的 SGMA 和长期干旱情况下。在加州实现公平的水资源再平衡的过程中，除了开发和实施必要的基础设施和政策变革外，还必须优先考虑服务不足的社区。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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PLOS water

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