Por favor, use este identificador para citar o enlazar este ítem: http://repositorio.ufc.br/handle/riufc/68077
Tipo: Artigo de Periódico
Título : Understanding polydirectional aeolian cross-strata architecture in a coastal unidirectional wind regime
Autor : Carvalho, Alexandre Medeiros de
Lima Júnior, Sergio Bezerra
Maia, Luis Parente
Claudino-Sales, Vanda
Gastão, Francisco Gleidson da Costa
Eduardo, Letícia Mesquita
Souza, Lidriana Pinheiro de
Silva, Marcus Vinícius Chagas da
Palabras clave : Dunes;Wind;Coast;Dunas;Vento;Costa
Fecha de publicación : 2021
Editorial : Journal of Coastal Research
Citación : CARVALHO, Alexandre Medeiros de; LIMA JÚNIOR, Sergio Bezerra; MAIA, Luis Parente; CLAUDINO-SALES, Vanda; GASTÃO, Francisco Gleidson da Costa; EDUARDO, Letícia Mesquita; SOUZA, Lidriana Pinheiro de; SILVA, Marcus Vinicius Chagas da. Understanding polydirectional aeolian cross-strata architecture in a coastal unidirectional wind regime. Journal of Coastal Research, United States, v. 37, p. 364-379, 2021.
Abstract: Crescentic dune fields along the NE coast of Brazil were analyzed to justify processes associated with the wide range of cross-strata dip directions in aeolian deposits found in a unidirectional wind regime. Multiple spatial and temporal fieldbased methodologies were employed, including trenching, ground penetrating radar (GPR), and photogrammetry. Wind dynamics, coastline morphology, bounding surface developing processes, and dune migration patterns were also considered. Analysis revealed a relationship between small- and large-scale morphologies of the crescentic dune field. The interactions of crescentic dune crests, in association with the superposition of multiple superposed dunes, explain the majority of cross strata and dip directions found in dune trenches and GPR sections. This study provides convincing evidence that microscale structures observed within trenches and GPR sections are compatible with the macroscale slipface position observed within the dune field. Small-scale changes in wind direction, caused by the dune crest morphologies themselves, explain much of the supposedly unexpected strata dip directions that arc through from 908 to 1808. The presence of near-surface water tables supports the formation and preservation of aeolian cross-strata sequences.
URI : http://www.repositorio.ufc.br/handle/riufc/68077
ISSN : 1551-5036
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