The Entropic Braiding Index : A Robust Metric to Account for the Diversity of Channel Scales in Multi‐Thread Rivers

Tejedor, Alejandro; Jon Schwenk; Maarten Kleinhans; Ajay B. Limaye; Lawrence Vulis; Paul Carling; Holger Kantz; Efi Foufoula‐Georgiou

doi:10.1029/2022GL099681

The Entropic Braiding Index : A Robust Metric to Account for the Diversity of Channel Scales in Multi‐Thread Rivers

Journal

Geophysical Research Letters

Date Issued

2022

Author(s)

Tejedor, Alejandro

Physics, Mathematics, Computer science

Jon Schwenk

Maarten Kleinhans

Ajay B. Limaye

Lawrence Vulis

Paul Carling

Holger Kantz

Efi Foufoula‐Georgiou

DOI

10.1029/2022GL099681

URI

https://depot.sorbonne.ae/handle/20.500.12458/1299

Abstract

The Braiding Index (BI), defined as the average count of intercepted channels per cross-section,
is a widely used metric for characterizing multi-thread river systems. However, it does not account for the
diversity of channels (e.g., in terms of water discharge) within different cross-sections, omitting important
information related to system complexity. Here we present a modification of BI, the Entropic Braiding Index
(eBI), which augments the information content in BI by using Shannon Entropy to encode the diversity of
channels in each cross section. eBI is interpreted as the number of “effective channels” per cross-section,
allowing a direct comparison with the traditional BI. We demonstrate the potential of the ratio BI/eBI to
quantify channel disparity, differentiate types of multi-thread systems (braided vs. anastomosed), and assess the
effect of discharge variability, such as seasonal flooding, on river cross-section stability