Long-term dispersion of river gravel in a canyon in the Atacama Desert, Central Andes, deduced from their 10Be concentrations

Sébastien Carretier,Laëtitia Leanni,Marcelo Farías,Vincent Regard

doi:10.1038/s41598-019-53806-x

Sébastien Carretier, Laëtitia Leanni + Show 2 more

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Intense storms or earthquakes in mountains can supply large amounts of gravel to rivers. Gravel clasts then travel at different rates, with periods of storage and periods of displacement leading to their downstream dispersion over millennia. The rate of this dispersion controls the long-term downcutting rate in mountainous rivers as well as the grain-size signature of climate and tectonic variations in sedimentary basins. Yet, the millennial dispersion rates of gravel are poorly known. Here, we use 10Be concentrations measured in individual pebbles from a localized source along a 56 km-long canyon in the Central Andes to document the distribution of long-term gravel transit rates. We show that an inverse grain-size velocity relationship previously established from short-term tracer gravel in different rivers worldwide can be extrapolated to the long-term transit rates in the Aroma River, suggesting some universality of this relationship. Gravel are also dispersed by large differences in the mean transport rates independent of gravel size, highlighting that some gravel rest at the river surface over tens of thousands of years. These different transport rates imply a strong spreading of the gravel plumes, providing direct proof for the long-term river buffering of sediment signals between mountainous sources and sedimentary basins. The inferred distribution of residence times suggests the first evidence of anomalous diffusion in gravel transport over long timespans.

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Gravel dispersion in rivers is inherently a stochastic process[1]: each gravel clast travels at its own velocity, and can be stored temporarily during different periods at depth or in lateral deposits
The downstream spreading of gravel plumes is partly taken into account by models where the downstream transport of sediment is described by a diffusion equation[4,9,10], but the diffusive nature of long-term river sediment transport has never been established from the dispersion of traced particles
These data complement recent high 21Ne concentrations found in gravel from long rivers in the Great Plains (USA) which is interpreted as evidence of long residence times[8]

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Introduction

Gravel dispersion in rivers is inherently a stochastic process[1]: each gravel clast travels at its own velocity, and can be stored temporarily during different periods at depth or in lateral deposits. By sampling the gravel from that particular lithology at different places along the river, it is possible to obtain the distribution of the 10Be concentrations in individual gravel, from which residence times between the source and sampling point can be estimated[30,31]. We followed this strategy in the Aroma River in the Central Andes. The 40 individual 10Be concentrations correspond to 15 clasts from AromaA, 20 from AromaC and five from AromaD (clast sizes are indicated in Supplementary Table S1 and in the same range as indicated above)

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