Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/55428
Title: Airflow dynamics, vegetation and aeolian erosive processes in a shadow zone leeward of a resort in an arid transgressive dune system
Authors: García-Romero, Leví 
Delgado-Fernández, Irene
Hesp, Patrick A.
Hernández-Calvento, Luis 
Viera Pérez, Manuel
Hernández-Cordero, Antonio I. 
Cabrera-Gámez, Jorge 
Domínguez-Brito, Antonio C. 
UNESCO Clasification: 250501 Biogeografía
531290 Economía sectorial: turismo
Keywords: Aeolian shadow zone
Arid transgressive dune system
Wind flow
Dune vegetation
Topography, et al
Issue Date: 2019
Project: Caracterización de Procesos Socio-Ecológicos de Los Sistemas Playa-Dunas de Canarias Como Base Para Su Gestión Sostenible 
Análisis de Procesos Naturales y Humanos Asociados A Los Sistemas Playa-Duna de Canarias 
Journal: Aeolian Research 
Abstract: Structures and infrastructures can modify aeolian sedimentary dynamics as has occurred in the arid transgressive dunefield of Maspalomas (Gran Canaria, Canary Islands), where an aeolian shadow zone has been formed leeward of a tourist resort (Playa del Inglés). The aim of this paper is to analyse spatial and statistically the influences of vegetation and topography on wind flow across this shadow zone. An experiment was carried out in March 2017, collecting wind speed and direction from 5 transects with anemometers at 0.40 m height. Simultaneously, a drone flight was carried out, from which an orthophoto and digital elevation and surface models (DEM and DSM) were obtained. Distance from the resort, and the presence of vegetation were found to influence transects dominated by erosional processes. Transects that do not display erosional processes were primarily affected by the presence of vegetation. The local wind field changes at a similar distance across the transects downwind from the resorts indicating an acceleration or reattachment of the wind at this distance downwind. The vegetation role in this aeolian shadow zone could be a key to the future evolution of the area resulting in either further stabilization, or alternatively, the continued deflation of the area.
URI: http://hdl.handle.net/10553/55428
ISSN: 1875-9637
DOI: 10.1016/j.aeolia.2019.03.006
Source: Aeolian Research [ISSN 1875-9637], v. 38, p. 48-59
URL: https://api.elsevier.com/content/abstract/scopus_id/85063755274
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