Litcius/Paper detail

Spatial and Temporal Development of Incipient Dunes

C. Gadal, C. Narteau, R. C. Ewing, A. Gunn, D. Jerolmack, B. Andreotti, P. Claudin

2020Geophysical Research Letters27 citationsDOIOpen Access PDF

Abstract

Abstract In zones of loose sand, wind‐blown sand dunes emerge due the linear instability of a flat sedimentary bed. This instability has been studied in experiments and numerical models but rarely in the field, due to the large time and length scales involved. We examine dune formation at the upwind margin of the White Sands Dune Field in New Mexico (USA), using 4 years of lidar topographic data to follow the spatial and temporal development of incipient dunes. Data quantify dune wavelength, growth rate, and propagation velocity and also the characteristic length scale associated with the growth process. We show that all these measurements are in quantitative agreement with predictions from linear stability analysis. This validation makes it possible to use the theory to reliably interpret dune‐pattern characteristics and provide quantitative constraints on associated wind regimes and sediment properties, where direct local measurements are not available or feasible.

Topics & Concepts

GeologyInstabilityLidarScale (ratio)Temporal scalesGeomorphologySedimentary rockSpatial ecologySedimentAeolian processesSediment transportMargin (machine learning)Spatial variabilitySand dune stabilizationDevelopment (topology)Field (mathematics)Length scaleStability (learning theory)Physical geographyMagnitude (astronomy)ClimatologyAeolian processes and effectsBiocrusts and Microbial EcologyParticle Dynamics in Fluid Flows