Litcius/Paper detail

Early plant organics increased global terrestrial mud deposition through enhanced flocculation

Sarah S. Zeichner, Justin A. Nghiem, Michael P. Lamb, Nina Takashima, Jan de Leeuw, Vamsi Ganti, Woodward W. Fischer

2021Science59 citationsDOI

Abstract

An irreversible increase in alluvial mudrock occurred with the Ordovician-Silurian evolution of bryophytes, challenging a paradigm that deep-rooted plants were responsible for this landscape shift. We tested the idea that increased primary production and plant organics promoted aggregation of clay into flocs in rivers and facilitated mud deposition on floodplains. In experiments, we observed that clay readily flocculated for organic and clay concentrations common to modern rivers, yielding settling velocities three orders of magnitude larger than those without organics. Using a transport model, we found that flocculation substantially increased mud deposition, resulting in muddier floodplains. Thus, organic-induced flocculation may have been more critical than deep-rooted plants in the proliferation of muddy floodplains.

Topics & Concepts

Oil shaleFlocculationSiltDeposition (geology)Organic matterTerrestrial plantGeologyClay mineralsGeochemistryMineralogyPaleontologyEnvironmental scienceEcologySedimentEnvironmental engineeringBiologySoil and Unsaturated FlowPeatlands and Wetlands EcologyGeological formations and processes