Comparison of groundwater distribution, exchange and storage between cropland and forestland over the past 115 years.

Hydrological sciences journal = Journal des sciences hydrologiques Pub Date : 2024-10-15 DOI:10.1080/02626667.2024.2409730

Ying Ouyang, Gary Feng, Yun Yang, Yongshan Wan

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Abstract

Using the US Geological Survey groundwater model, we compared spatial distribution, flow exchange, and storage of groundwater between cropland and forestland in the Upper Yazoo River Watershed, Mississippi from 1900 to 2014. Under normal climate, average groundwater head declined 2.7m in cropland but only 1m in forestland over the 115 years. The average groundwater flow from forestland to cropland surpassed the reverse flow by a factor of 238, owing to a higher elevation in forestland and intensive groundwater pumping in cropland. Cropland was a net groundwater sink while forestland was a net groundwater source under all climates. Our findings underscore the discernible impacts of climate changes on groundwater storage and suggest that afforestation in the region would be an alternative for saving groundwater resources and supplying more waters to croplands. This study offers valuable insights into groundwater supply planning not only in Mississippi but also in comparable situations worldwide.

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115年来农田和林地地下水分布、交换和储存的比较。

利用美国地质调查局地下水模型，比较了1900 - 2014年密西西比河上亚祖河流域农田和林地地下水的空间分布、流量交换和储量。在正常气候条件下，115年来农田的平均地下水位下降了270米，而林地的平均地下水位只下降了100米。由于林地海拔较高和农田抽水强度大，林地向农田的平均地下水流量是逆向流量的238倍。在所有气候条件下，农田是地下水的净汇，而林地是地下水的净源。我们的研究结果强调了气候变化对地下水储存的明显影响，并建议在该地区植树造林将是节约地下水资源和向农田提供更多水的另一种选择。这项研究不仅为密西西比州的地下水供应规划提供了宝贵的见解，也为世界各地的类似情况提供了宝贵的见解。

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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Hydrological sciences journal = Journal des sciences hydrologiques

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