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Quantifying Channel Mobility and Floodplain Reworking Timescales Across River Planform Morphologies

Evan Greenberg, Austin J. Chadwick, Gen Li, Vamsi Ganti

2024Geophysical Research Letters17 citationsDOIOpen Access PDF

Abstract

Abstract Source‐to‐sink transfer of sediment and organic carbon (OC) is regulated by river mobility. Quantifying trends in river mobility is, however, challenging due to diverse planform morphologies (e.g., meandering, braided) and measurement methods. Here, we utilize a remote‐sensing method applicable to all planform morphologies to quantify the mobility timescales of 80 rivers worldwide. Results show that, across the continuum from meandering to braided rivers, there is a systematic reduction in the timescales of channel mobility and—to a lesser extent—floodplain reworking. This leads to a decrease in the efficiency with which braided rivers rework old floodplain material compared to their meandering counterparts. Reduced floodplain reworking efficiency of braided rivers leads to smaller channel‐belt areas relative to their size. Results suggest that river‐mobility timescales derived from remote sensing can aid in the characterization of sediment and OC storage and transit times at a global scale.

Topics & Concepts

PlanformFloodplainGeologyChannel (broadcasting)Flood mythFluvialSTREAMSHydrology (agriculture)GeomorphologyEarth sciencePhysical geographyGeographyArchaeologyGeotechnical engineeringCartographyComputer scienceAerodynamicsStructural basinElectrical engineeringComputer networkEngineeringAerospace engineeringHydrology and Sediment Transport ProcessesHydrology and Watershed Management StudiesFlood Risk Assessment and Management
Quantifying Channel Mobility and Floodplain Reworking Timescales Across River Planform Morphologies | Litcius