Multiscale characterization of splays produced by a historic, rain-on-snow flood on a large braided stream (Platte River, Central USA)

IF 2.8 3区 地球科学 Q2 GEOGRAPHY, PHYSICAL Earth Surface Processes and Landforms Pub Date : 2024-09-26 DOI:10.1002/esp.5997
Jesse T. Korus, R. Matthew Joeckel, Aaron R. Mittelstet, Nawaraj Shrestha
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Abstract

Splays—fan-shaped depositional landforms produced by overbank deposition by unconfined flows—can damage structures, degrade arable land and incur substantial mitigation costs. Splay-related hazards along many rivers are likely to worsen with the increasing magnitude and frequency of major floods. The highly incomplete understanding of splays on braided streams is a conspicuous knowledge gap in a changing world with more frequent and intense floods. The largest recorded flood on the braided, sand-dominated lower Platte River (eastern Nebraska, USA) in March 2019 resulted from the rapid melting of a deep, moist snowpack during an extreme rain-on-snow, bomb-cyclone event. This flood produced 32 large (as much as 234 ha) splays that buried structures and cropland under sand. A total of 1,438 ha of row crop was buried, equating to 1.2 million dollars in lost revenue. These splays diverged from the channel by 14° to 104° along a 122 km reach. The topography of preexisting abandoned channels strongly controlled the shape and orientation of most splays, although forested areas tended to trap or divert sediment. The flood eroded 2.2 to 202 m2 m−1 of the streambank at 11 of the splays. The five largest splays (>100 ha) deposited as much as 2.4 m of sand. Ground-penetrating radar profiles of the largest splay indicate that it consisted almost entirely of overbank deposits exhibiting simple downstream accretion that buried the pre-flood soil under ≤ 1 m or less of sand. Locally, however, this soil was eroded during the flood. Climate models predict increasing winter precipitation in the Platte River basin; therefore, the frequency of major floods should increase, making splays recurrent hazards. Our geomorphic assessment of the splays on the lower Platte River illustrates the need for future hazard and mitigation planning.

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历史上一场雨夹雪洪水在一条大辫状河(美国中部普拉特河)上造成的飞溅物的多尺度特征描述
滩涂--由无约束水流的过岸沉积作用产生的扇形沉积地貌--会破坏建筑物、降低耕地质量并产生大量的减灾成本。随着大洪水的规模和频率不断增加,许多河流沿岸与飞溅相关的危害可能会加剧。在洪水日益频繁和剧烈的不断变化的世界中,对辫状河上的飞溅现象的了解非常不全面,这是一个明显的知识空白。2019 年 3 月,普拉特河下游(美国内布拉斯加州东部)以沙为主的辫状河流发生了有记录以来最大的洪水,原因是在一次极端的雨雪交加的炸弹气旋事件中,深厚潮湿的积雪迅速融化。这次洪水造成了 32 处大型(多达 234 公顷)塌方,将建筑物和农田掩埋在沙土之下。共有 1,438 公顷的农作物被掩埋,相当于 120 万美元的收入损失。在 122 千米的河段上,这些飞溅区与河道的偏差从 14°到 104°不等。原有废弃河道的地形在很大程度上控制了大部分裂口的形状和方向,尽管森林地区往往会截留或转移沉积物。洪水侵蚀了其中 11 个缺口处 2.2 至 202 平方米-1 的河岸。五个最大的分水岭(>100 公顷)沉积了多达 2.4 米的泥沙。最大飞溅区的探地雷达剖面图显示,该飞溅区几乎完全由过岸沉积物组成,表现为简单的下游增生,将洪水前的土壤掩埋在≤ 1 米或更低的沙土之下。不过,在局部地区,这些土壤在洪水期间受到了侵蚀。根据气候模型预测,普拉特河流域的冬季降水量将不断增加;因此,大洪水的发生频率也会增加,从而使裂缝成为经常性灾害。我们对普拉特河下游飞溅处的地貌评估表明,未来需要进行防灾减灾规划。
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来源期刊
Earth Surface Processes and Landforms
Earth Surface Processes and Landforms 地学-地球科学综合
CiteScore
6.40
自引率
12.10%
发文量
215
审稿时长
4 months
期刊介绍: Earth Surface Processes and Landforms is an interdisciplinary international journal concerned with: the interactions between surface processes and landforms and landscapes; that lead to physical, chemical and biological changes; and which in turn create; current landscapes and the geological record of past landscapes. Its focus is core to both physical geographical and geological communities, and also the wider geosciences
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