Coherent, not chaotic鈥攕urprising order found in Brahmaputra-Jamuna River channel migration
Lisa Lock
scientific editor
Robert Egan
associate editor
Compared to single-channel meandering rivers, multichannel braided rivers are often found in environments with sparse vegetation and coarse, shifting bars of sediment. Past research has called the way in which the paths of braided rivers shift over time "chaotic" because their migration depends on many factors, including river shape and changing water levels.
However, because the migration of individual channel threads can affect the likelihood of hazards like flooding or erosion, understanding this migration is critical to protecting the residents, structures, and ecosystems surrounding these complicated waterways.
For a study in the Journal of Geophysical Research: Earth Surface, Yuan Li and Ajay Limaye examined a 180-kilometer span of the Brahmaputra-Jamuna River, a river in Bangladesh whose channels have been well resolved through satellite imagery.
Scientists鈥攁nd many of the 600,000 people living in the islands between the river channels鈥攁lready know that the river's water levels are high during the summer months' monsoon season and low but consistent from January to March. But this research team used a statistical method called dynamic time warping to map long-term changes in the river channels' sizes, shapes, and routes between 2001 and 2021.
This technique allowed them to calculate how much and how quickly the centerlines of channel threads shifted. They then applied an existing model developed for meandering rivers to see whether it could also predict the movement of braided channel threads.
They found that the Brahmaputra-Jamuna River's movements were more predictable than previously realized. About 43% of its channels moved gradually, rather than abruptly, during the study period. On average, these channel threads migrated more quickly than most meandering rivers, at a rate of about 30% of their width per year. In some cases, the rate of this migration was closely related to the curvature of the channel thread, and across the board, it was weakly related to channel thread width.
These findings have important implications for future research on braided river channels, the authors say. Knowing that at least some channel threads migrate coherently might inform erosion and flooding mitigation efforts for braided river regions, especially those in densely populated areas.
More information: Yuan Li et al, Coherent Motion of Channel Threads in the Braided Brahmaputra鈥怞amuna River, Journal of Geophysical Research: Earth Surface (2025).
Provided by Eos
This story is republished courtesy of Eos, hosted by the American Geophysical Union. Read the original story .
