The response of saltation to wind speed fluctuations |
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Authors: | Sascha Pfeifer Hans‐Jürgen Schönfeldt |
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Affiliation: | 1. Leibniz‐Institut für Troposph?renforschung e. V., , Leipzig, Germany;2. Institut für Meteorologie, Universit?t Leipzig, , Leipzig, Germany |
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Abstract: | The response time of saltation to spatial or temporal wind speed fluctuations constitutes an important control parameter for aeolian sediment transport and deposition. In this paper, we present direct measurements of the response time obtained from several field experiments. The sand transport was studied using six small microphones arranged in a vertical profile and collocated with a sonic anemometer, a webcam and a cup anemometer tower. The webcam was coupled with the sonic anemometer via a personal computer and provides information on creeping and saltating grains with a sampling rate of 10 Hz. Sediment transport measurements were obtained over four periods. The Wiener filter, a signal processing technique, is used to obtain a discrete transfer function that relates the horizontal wind speed and the non‐intermittent sand transport. The transfer function can be established using an exponential function with a time constant or characteristic response time τ without time shift. The response time fluctuated between zero and 1·5 seconds depending on the turbulence intensity, the saltation activity, the measuring height and sampling rates. The Wiener filter coefficients suggest that the response of saltation to wind speed alterations is determined by more than one process. Copyright © 2012 John Wiley & Sons, Ltd. |
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Keywords: | aeolian saltation time lag Wiener filter transfer function saltiphone |
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