GSA Annual Meeting in Phoenix, Arizona, USA - 2019

Paper No. 237-13
Presentation Time: 11:35 AM

A-TTRACS, AEOLIAN TURBULENCE AND TRANSPORT RAPID COMPUTATIONAL SUITE: A GUI-ENABLED SOFTWARE PACKAGE FOR RAPID COMPUTATION OF AEOLIAN FIELD DATA


SWANN, Christy, U.S. Naval Research Laboratory, Stennis Space Center, 1005 Balch Blvd, Stennis Space Center, MS 39529, TERESZKIEWICZ, Peter A., Naval Research Enterprise Internship Program, U.S. Naval Research Laboratory, 1005 Balch Road, Stennis Space Center, MS 39529; Department of Geography, University of South Carolina, Columbia, SC 29208 and ELLIS, Jean T., Department of Geography, University of South Carolina, 709 Bull Street, Columbia, SC 29208

Quantifying aeolian turbulence and transport is critical to understanding aeolian processes in field environments. Recent advancements in instrumentation have led to an abundance of field data that can be tedious and time consuming to process. Here, we introduce A-TTRACS, the Aeolian Turbulence and Transport RApid Computational Suite. A-TTRACS is a free, GUI-enabled software package that is designed to rapidly process wind, transport, and grain size data. A-TTRACS provides a global platform for sharing and enhancing post-processing techniques to analyze datasets collected in aeolian field environments. Users are guided through a streamlined process to: (1) define sampling schematics, e.g., instrument heights and sampling frequencies, (2) input single or multiple timeseries, e.g., wind speed, direction, 3-D velocity components, or saltation concentration at various heights, and (3) compute, plot, and export turbulence and transport parameters over user-defined averaging periods. Calculated flow and transport estimates include shear velocity, velocity fluctuations from the mean, turbulent kinetic energy, Reynolds Stress, flow exuberance, and saltation concentration profiles, among others. For sediment, A-TTRACS is capable of computing grain size statistics from a variety of standardized methods (e.g., Folk and Ward method, Method of Moments) for single or multiple sediment samples.

Here, we (1) present a brief overview of the A-TTRACS software package, (2) show an example of A-TTRACS post-processing methods using field data, and (3) describe how aeolian researchers can become A-TTRACS developers via GitHub.