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Impact of relative sea-level changes since the last deglaciation on the formation of a composite paraglacial barrier
- Source :
- Marine Geology. 400:76-93
- Publication Year :
- 2018
- Publisher :
- Elsevier BV, 2018.
-
Abstract
- Comprehensive onshore-offshore surficial and sub-surface mapping of a composite barrier (combination of prograded, aggraded, and/or transgressive segments) have provided a better understanding of the (i) mechanisms responsible for the formation and development of coastal barrier systems, (ii) relationships and interactions among individual parts of those systems, and (ii) the overall stratigraphic framework of subaerial and subaqueous segments of the barriers. Here, we investigate these facets of barrier evolution through integration of stratigraphic data from subaqueous high-resolution seismic and subaerial ground-penetrating radar, sedimentology (terrestrial cores and seafloor surface samples), and merged topographic and bathymetric mapping of the Miquelon-Langlade Barrier (northwest Atlantic Ocean, south of Newfoundland). This barrier system has two open coasts and evolved in a paraglacial setting, influenced by the reworking of glaciogenic sediment (glacial moraines) in a regime of complex sea-level changes. The barrier stratigraphic sequence is placed within the context of a shifting period from shoreline transgression to one of regression; the resulting sedimentary units reflect the isolated position of the Saint-Pierre-and-Miquelon Archipelago distal from continental influence. Seismic profiles reveal the position of the lowstand shoreline, located 20–25 m below modern sea level, further refining the existing lowstand model of southern Newfoundland. Continuous onshore-offshore subsurface geophysical mapping of the barrier allows for the identification of the relative positioning of distinct sedimentary units interpreted as subaerial barrier (beaches, dunes, spit), shoals, and shoreface deposits, and allows for estimation of the total barrier sediment volume (235 × 106 m3) and its relative subaqueous (90%) and subaerial (10%) components. Moreover, it reveals the three distinct morphological units comprising the Holocene barrier: (i) central, regressive, swash-aligned beach-ridge plains developed atop both thin (westward-prograding) and thick (eastward-prograding) shoreface deposits, (ii) drift-aligned, elongating spits located in the northwest and northeast of the island, and (iii) a transgressive barrier located adjacent to the northwest spit, pinned on its landward side to parabolic sand dunes, and currently experiencing erosion and limited overwash. Finally, this study places evolution of this system in the framework of paraglacial barrier evolutionary typology.
- Subjects :
- geography
geography.geographical_feature_category
010504 meteorology & atmospheric sciences
Shoal
Geology
010502 geochemistry & geophysics
Oceanography
01 natural sciences
Paleontology
Paraglacial
Geochemistry and Petrology
Subaerial
Deglaciation
Sequence stratigraphy
Sedimentology
Overwash
0105 earth and related environmental sciences
Marine transgression
Subjects
Details
- ISSN :
- 00253227
- Volume :
- 400
- Database :
- OpenAIRE
- Journal :
- Marine Geology
- Accession number :
- edsair.doi...........c01d00833276567fbd31bff5a124adac
- Full Text :
- https://doi.org/10.1016/j.margeo.2018.03.009