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Constraining the Timespan of Fluvial Activity From the Intermittency of Sediment Transport on Earth and Mars

A. T. Hayden, Michael P. Lamb, Brandon McElroy

2021Geophysical Research Letters21 citationsDOIOpen Access PDF

Abstract

Abstract The timespan recorded in deposits from fluvial activity is a key gap in our understanding of ancient environments on Earth and Mars. Because riverine sediment transport occurs under time‐variable water discharge, common models that represent sediment transport with a single bankfull discharge require an intermittency factor. For this reason, the ability to predict intermittency factor values based on environmental factors would improve estimates of time from fluvial deposits. To address this knowledge gap, we calculated intermittency factors from 201 modern rivers and six fans and deltas with depositional timespans of months to millions of years. Intermittency factors range from 0.0064–0.73; they are uncorrelated with averaging timescale, bed‐material grainsize, or climate aridity, but are larger in river catchments with greater rates of denudation relative to precipitation. Application to ancient fluvial systems on Mars indicates long‐lived depositional river systems for up to 10 4 –10 6 years.

Topics & Concepts

FluvialMars Exploration ProgramIntermittencyGeologySedimentary depositional environmentSediment transportSedimentHydrology (agriculture)Earth scienceGeomorphologyPhysical geographyGeographyMeteorologyAstrobiologyPhysicsStructural basinGeotechnical engineeringTurbulenceGeology and Paleoclimatology ResearchGeological formations and processesHydrology and Sediment Transport Processes
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