Periodicity in fields of elongating dunes

TL;DR

This paper uses numerical simulations to explain how periodic patterns in elongating dunes emerge from boundary conditions and interactions, rather than from an inherent wavelength selection mechanism.

Contribution

It demonstrates that regular dune patterns result from boundary effects and dune interactions, not from a specific wavelength inherent to the elongation process.

Findings

Periodic dunes are a result of boundary conditions and dune interactions.

Elongation growth does not produce a specific wavelength.

Dune pattern wavelength reflects interdependence over evolution.

Abstract

Dune fields are commonly associated with periodic patterns that are among the most recognizable landscapes on Earth and other planetary bodies. However, in zones of limited sediment supply, where periodic dunes elongate and align in the direction of the resultant sand flux, there has been no attempt to explain the emergence of such a regular pattern. Here, we show, by means of numerical simulations, that the elongation growth mechanism does not produce a pattern with a specific wavelength. Periodic elongating dunes appear to be a juxtaposition of individual structures, the arrangement of which is due to regular landforms at the border of the field acting as boundary conditions. This includes, among others, dune patterns resulting from bed instability, or the crestline reorganization induced by dune migration. The wavelength selection in fields of elongating dunes therefore reflects the interdependence of dune patterns over the course of their evolution.