• Media type: E-Article
  • Title: Geological evolution of the Mississippi River into the Anthropocene
  • Contributor: Russell, Catherine; Waters, Colin N; Himson, Stephen; Holmes, Rachael; Burns, Annika; Zalasiewicz, Jan; Williams, Mark
  • Published: SAGE Publications, 2021
  • Published in: The Anthropocene Review, 8 (2021) 2, Seite 115-140
  • Language: English
  • DOI: 10.1177/20530196211045527
  • ISSN: 2053-0196; 2053-020X
  • Origination:
  • Footnote:
  • Description: The Mississippi River maintains commercial and societal networks of the USA along its >3700 km length. It has accumulated a fluvial sedimentary succession over 80 million years. Through the last 11,700 years of the Holocene Epoch, the wild river shaped the landscape, models of which have become classic in geological studies of ancient river strata. Studies of the river were led by the need to develop infrastructure and to search for hydrocarbons, through which, these models have become quite sophisticated. However, whilst the models demonstrate how the wild river behaves, a monumental shift in fundamental controls on the entire fluvial system, broadly coinciding with the proposed mid-20th century onset of the Anthropocene Epoch, has generated new geological patterns that are becoming globally ubiquitous, and which the Mississippi River typifies. As such, whilst classic Holocene river models may be compared to human-modified systems such as the Lower Mississippi River (and others worldwide), locally the models may now only directly apply to its fossilized components preserved in the sub-surface. Such river models need adapting to better understand the present dynamics, and future evolution of these landscapes.