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- Title
Can beach dune ridges of the Texas Gulf Coast preserve climate signals?
- Authors
Garrison, James; Mestas-Nuñez, Alberto; Williams, Joshua; Lumb, Luz
- Abstract
A study of the evolution of North Padre Island (southern Texas Gulf Coast) dunes was carried out using LIDAR topographic data, dune vibracores through the center of the dunes, and grab samples of shoreface sand at four locations along a cross-shore profile. Grain-size analyses of the vibracores show vertical variations in shoreface sand deposition over decimeter depth intervals. A dune ridge growth model is introduced that describes the dune vertical accretion rate as a function of island progradation and freshwater lens expansion. This model allows indirect dating of the dune core samples based on a known island progradation rate (1 m/year), and height and spacing of the dunes calculated from the topographic data. A sand provenance model is also proposed that links the sand deposition in the dunes with sand sourced from various depths along the shoreface profile, depending on storm activity. We present evidence linking the changes in storm-sand deposition in the dune cores with yearly climatic fluctuations in the Gulf of Mexico associated with landfalling tropical storm activity in the period from 1942-1965. This record of storm-induced sand variability is negatively correlated with El Niño-Southern Oscillation (Pacific) sea surface temperature variability, and positively correlated with North Atlantic decadal sea surface temperature variability.
- Subjects
GULF Coast (Tex.); PADRE Island (Tex.); TEXAS; SAND dunes; CLIMATE change; OPTICAL radar; SOUTHERN oscillation; SEASONAL temperature variations
- Publication
Geo-Marine Letters, 2012, Vol 32, Issue 3, p241
- ISSN
0276-0460
- Publication type
Article
- DOI
10.1007/s00367-011-0263-x