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Morphodynamic limits to environmental signal propagation across landscapes and into strata

Stephan Toby, Robert A. Duller, Silvio De Angelis, K. M. Straub

2022Nature Communications14 citationsDOIOpen Access PDF

Abstract

The sedimentary record contains unique information about landscape response to environmental forcing at timescales that far exceed landscape observations over human timescales. However, stochastic processes can overprint and shred evidence of environmental signals, such as sediment flux signals, and so inhibit their transfer to strata. Our community currently lacks a quantitative framework to differentiate between environmental signals and autogenic signals in field-scale analysis of strata. Here we develop a framework and workflow to estimate autogenic thresholds for ancient sediment routing systems. Crucially these thresholds can be approximated using measurements that are readily attainable from field systems, circumventing the low temporal resolution offered by strata. This work demonstrates how short-term system dynamics can be accessed from ancient sediment routing systems to place morphodynamic limits on environmental signal propagation across ancient landscapes and into strata.

Topics & Concepts

SedimentSediment transportGeologyRouting (electronic design automation)Sedimentary rockBeach morphodynamicsField (mathematics)Forcing (mathematics)WorkflowSIGNAL (programming language)Environmental changeEarth scienceGeomorphologyClimate changePaleontologyOceanographyComputer scienceClimatologyDatabaseProgramming languagePure mathematicsComputer networkMathematicsGeology and Paleoclimatology ResearchGeological formations and processesCoastal wetland ecosystem dynamics
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