Land-use change as a major driver for mid-20th-century flood intensity reduction in the Southeastern US

Environmental Research Letters Pub Date : 2024-07-17 DOI:10.1088/1748-9326/ad6464

Zhixiong Shen, Nicholas Conway, Shaowu Bao, Samuel E Munoz, Andreas Lang

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Abstract

Land-use changes affect hydrologic processes, but their impact on flooding remains obscure amid increasingly heavy precipitation. Instrumental records are short relative to land-use change history and inadequate for flood attribution studies. Here we integrate a high-resolution paleodischarge record spanning the past ~200 years from the largest basin in the Southeastern United States with instrumental data and hydrological modeling. We find that the 100-yr flood magnitude for large regional rivers exhibits 50–75% reductions in the mid-20th century. We attribute at least 50% of the reductions to a regional shift from widespread agricultural land to conservation and reforestation and the rest to streamflow regulations. A sensitivity test of the largest post-1950s flood in our study area using the WRF-Hydro model shows that the peak early-1900s agriculture activity in the region could have doubled the flood’s magnitude. Our findings suggest that land-use change can profoundly impact flood severity at catchment to regional scales. Therefore, reforestation and soil conservation contribute to alleviating flood hazard in some regions, while aggressive agriculture expansion in other areas will amplify the hazard.

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土地利用变化是 20 世纪中期美国东南部洪水强度降低的主要驱动力

土地利用的变化会影响水文过程，但在降水量越来越大的情况下，其对洪水的影响仍不明显。与土地利用变化历史相比，仪器记录较短，不足以进行洪水归因研究。在这里，我们将美国东南部最大流域过去约 200 年的高分辨率古排水记录与仪器数据和水文模型相结合。我们发现，在 20 世纪中叶，大型区域河流的 100 年洪水量级降低了 50-75%。我们认为，至少 50%的洪水减幅是由于该地区从大面积农田向保护和重新造林的转变，其余则是由于河水流量法规的影响。使用 WRF-Hydro 模型对我们研究地区 1950 年代后最大洪水进行的敏感性测试表明，20 世纪初该地区农业活动的高峰期可能会使洪水的量级增加一倍。我们的研究结果表明，土地利用的变化会对流域到区域范围内的洪水严重程度产生深远影响。因此，在某些地区，植树造林和水土保持有助于减轻洪水灾害，而在其他地区，大力发展农业则会扩大洪水灾害。

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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Environmental Research Letters

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