Jessica L. Raff scite author profile

The principal nature-based solution for offsetting relative sea-level rise in the Ganges-Brahmaputra delta is the unabated delivery, dispersal, and deposition of the rivers’ ~1 billion-tonne annual sediment load. Recent hydrological transport modeling suggests that strengthening monsoon precipitation in the 21st century could increase this sediment delivery 34-60%; yet other studies demonstrate that sediment could decline 15-80% if planned dams and river diversions are fully implemented. We validate these modeled ranges by developing a comprehensive field-based sediment budget that quantifies the supply of Ganges-Brahmaputra river sediment under varying Holocene climate conditions. Our data reveal natural responses in sediment supply comparable to previously modeled results and suggest that increased sediment delivery may be capable of offsetting accelerated sea-level rise. This prospect for a naturally sustained Ganges-Brahmaputra delta presents possibilities beyond the dystopian future often posed for this system, but the implementation of currently proposed dams and diversions would preclude such opportunities.

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A Source-to-Sink Approach to Understanding the Roles of Mass Extraction and Sediment Load Dispersal in the Construction of Stratigraphy in the Holocene Bengal Basin

Raff¹,

Pmb²,

Goodbred³

2020

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Jessica L. Raff

Insights into barrier-island stability derived from transgressive/regressive state changes of Parramore Island, Virginia

A first-order geochemical budget for suspended sediment discharge to the Bay of Bengal from the Ganges-Brahmaputra river system

Sediment delivery to sustain the Ganges-Brahmaputra delta under climate change and anthropogenic impacts

A Source-to-Sink Approach to Understanding the Roles of Mass Extraction and Sediment Load Dispersal in the Construction of Stratigraphy in the Holocene Bengal Basin

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