Documents

  • Zeng Zhou
  • Giovanni Coco
  • IH Townend
  • Maitane Olabarrieta
  • M. van der Wegen
  • Zheng Gong
  • Andrea D’Alpaos
  • Shu Gao
  • Bruce Jaffe
  • Guy Gelfenbaum
  • Qing He
  • Yaping Wang
  • Stefano Lanzoni
  • Zhengbing Wang
  • Han Winterwerp
  • Changkuan Zhang
Morphodynamic equilibrium is a widely adopted yet elusive concept in the eld of geomorphology of coasts, rivers and estuaries. Based on the Exner equation, an expression of mass conservation of sediment, we distinguish three types of equilibrium dened as static and dynamic, of which two dierent types exist. Other expressions such as statistical and quasi-equilibrium which do not strictly satisfy the Exner conditions are also acknowledged for their practical use. The choice of a temporal scale is imperative to analyse the type of equilibrium. We discuss the dierence between morphodynamic equilibrium in the \real world" (nature) and the \virtual world" (model). Modelling studies rely on simplications of the real world and lead to understanding of process interactions. A variety of factors aect the use of virtual-world predic-
tions in the real world (e.g., variability in environmental drivers and variability in the setting) so that the concept of morphodynamic equilibrium should be mathematically unequivocal in the virtual world and interpreted over the appropriate spatial and temporal scale in the real world. We draw examples from estuarine settings which are subject to various governing factors which broadly include hydrodynamics, sedimentology and landscape setting. Following the traditional \tide-wave-river" ternary diagram, we summarize studies todate that explore the \virtual world", discuss the type of equilibrium reached and how it relates to the real world.
Original languageEnglish
Pages (from-to)257-267
JournalEarth - Science Reviews
Volume165
Publication statusPublished - Jan 2017

ID: 9329934