重建雅鲁藏布江的侵蚀历史:通过多河道多侵蚀过程改变巨型辫状河河道的罕见实例

MD. Raihanul Islam, Imran Khan, MD. Alifnur Salim, M.D. Musfequzzaman
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摘要

长期以来,雅鲁藏布江的崩蚀情况一直是一个争论不休的问题。本研究旨在通过重建雅鲁藏布江的断流历史来解决这一争论。我们探讨了雅鲁藏布江断流的过程、时间表和原因。我们在研究中使用了从 1776 年到 2023 年的老地图和图片、当代文献中的证据以及最新研究。我们发现,贾木纳河的形成过程始于 17 世纪 80 年代詹尼河对雅鲁藏布江水流的截流。1780 年至 1800 年间,雅鲁藏布江在上游形成了两条主要河道,并开始了多级河道的形成过程,该过程于 1880 年代完成。第一条导流河道将雅鲁藏布江的水流直接引入科纳耶河,第二条导流河道则将杰尼河捕获的水流引入科纳耶河。与此同时,流量增大的科纳耶河通过一条未命名的河道将其水流转入下游的杰尼河,合流后的水流穿过杰尼河河床,然后与恒河汇合。在整个过程中,科纳伊河接收、膨胀并输送雅鲁藏布江的主要水流,而杰尼河则逐渐变小。我们引入了弯曲迁移概念和局部泥沙超载概念,重点是设定一个较低的崩蚀稳定阈值,该阈值通过季风大排水量、蒂斯塔河向雅鲁藏布江的崩蚀以及大洪水的耦合转换机制,导致崩蚀河道的爆发性形成。
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Reconstruction of avulsion history of the Brahmaputra River: Rare example of a giant braided river course alteration through multi-channel multi-avulsion processes

The avulsion scenario of the Brahmaputra has been a debated issue for quite a long time. This study aims to resolve this debate through reconstruction of the avulsion history of the Brahmaputra. We have addressed the processes, timeline and causes of the avulsion. Old maps and images from 1776 to 2023, evidence from contemporary literature and recent studies have been used in our study. We find that the process of creation of the Jamuna was started through capturing the flow of the Brahmaputra by the Jenni during the 1780s. Between 1780 and 1800 the Brahmaputra created two primary avulsion channels upstream and initiated the multi-avulsion process which was completed in the 1880s. The first avulsion channel conveyed the Brahmaputra flow into the Konaie directly and the second avulsion channel diverted the flow captured by the Jenni into the Konaie. Contemporarily, the flow-enriched Konaie switched its flow into the Jenni at downstream through an unnamed channel and the combined flow traveled through the bed of the Jenni before creating the confluence with the Ganges. In the whole process, the Konaie received, inflated and transported the dominant flow of the Brahmaputra and the Jenni became inferior over time. We have introduced a bend migration concept along with local sediment overload to focus on setting up a lower stability threshold of avulsion that led to the eruptive creation of the avulsion channels by a coupled switching mechanism imparted by high monsoonal discharges, avulsion of the Tista into the Brahmaputra and the high-magnitude floods.

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