On extracting sediment transport information from measurements of luminescence in river sediment

TL;DR

This paper proposes a novel method using luminescence measurements of river sediments to estimate sediment transport rates, offering a potentially easier and more accurate alternative to traditional techniques.

Contribution

It introduces a first-principles model linking luminescence to sediment transport parameters, validated with field data from two different rivers.

Findings

Model accurately reproduces observed luminescence patterns.

Parameters estimate sediment transport metrics within expected ranges.

Method shows promise but requires caution due to transport complexity.

Abstract

Accurately quantifying sediment transport rates in rivers remains an important goal for geomorphologists, hydraulic engineers, and environmental scientists. However, current techniques for measuring transport rates are laborious, and formulae to predict transport are notoriously inaccurate. Here, we attempt to estimate sediment transport rates using luminescence, a property of common sedimentary minerals that is used by the geoscience community for geochronology. This method is advantageous because of the ease of measurement on ubiquitous quartz and feldspar sand. We develop a model based on conservation of energy and sediment mass to explain the patterns of luminescence in river channel sediment from a first-principles perspective. We show that the model can accurately reproduce the luminescence observed in previously published field measurements from two rivers with very different sediment transport styles. The parameters from the model can then be used to estimate the time-averaged virtual velocity, characteristic transport lengthscales, storage timescales, and floodplain exchange rates of fine sand-sized sediment in a fluvial system. The values obtained from the luminescence method appear to fall within expected ranges based on published compilations. However, caution is warranted when applying the model as the complex nature of sediment transport can sometimes invalidate underlying simplifications.