High-resolution reconstruction of a coastal barrier system: Impact of Holocene sea-level change
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High-resolution reconstruction of a coastal barrier system : Impact of Holocene sea-level change. / Fruergaard, Mikkel; Andersen, Thorbjørn Joest; Nielsen, Lars Henrik; Johannessen, Peter Niels; Aagaard, Troels; Pejrup, Morten.
In: Sedimentology, Vol. 62, No. 3, 2015, p. 928-969.Research output: Contribution to journal › Journal article › Research › peer-review
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TY - JOUR
T1 - High-resolution reconstruction of a coastal barrier system
T2 - Impact of Holocene sea-level change
AU - Fruergaard, Mikkel
AU - Andersen, Thorbjørn Joest
AU - Nielsen, Lars Henrik
AU - Johannessen, Peter Niels
AU - Aagaard, Troels
AU - Pejrup, Morten
PY - 2015
Y1 - 2015
N2 - This study presents a detailed reconstruction of the sedimentary effects of Holocene sea-level rise on a modern coastal barrier system (CBS). Increasing concern over the evolution of CBSs due to future accelerated rates of sea-level rise calls for a better understanding of coastal barriers response to sea-level changes. The complex evolution and sequence stratigraphic framework of the investigated CBS is reconstructed using facies analysis, high-resolution OSL and radiocarbon datings. During the formation of the CBS starting 8−7 ka ago rapid relative sea-level rise outpaced sediment accumulation. Not before rates of relative sea-level rise had decreased to ~2 mm yr-1 did sediment accumulation outpace sea-level rise. From about 5.5 ka ago rates of regionally-averaged sediment accumulation increased to 4.3 mm yr-1 and the back-barrier basin was filled in. This increase in sediment accumulation resulted from retreat of the barrier island and probably also due to formation of a tidal inlet close to the study area. Continued transgression and shoreface retreat created a distinct hiatus and wave ravinement surface in the seaward part of the CBS before the barrier shoreline stabilised between 5.0 and 4.5 ka ago. Back-barrier shoreline erosion due to sediment starvation in the back-barrier basin, was pronounced from 4.5 to 2.5 ka ago but the last 2.5 kyr barrier sedimentation has kept up with and outpaced sea-level. The last 0.4 kyr the CBS has been episodically prograding. Sediment accumulation shows considerable variation with periods of rapid sediment deposition and periods of non-deposition or erosion resulting in a highly punctuated sediment record.
AB - This study presents a detailed reconstruction of the sedimentary effects of Holocene sea-level rise on a modern coastal barrier system (CBS). Increasing concern over the evolution of CBSs due to future accelerated rates of sea-level rise calls for a better understanding of coastal barriers response to sea-level changes. The complex evolution and sequence stratigraphic framework of the investigated CBS is reconstructed using facies analysis, high-resolution OSL and radiocarbon datings. During the formation of the CBS starting 8−7 ka ago rapid relative sea-level rise outpaced sediment accumulation. Not before rates of relative sea-level rise had decreased to ~2 mm yr-1 did sediment accumulation outpace sea-level rise. From about 5.5 ka ago rates of regionally-averaged sediment accumulation increased to 4.3 mm yr-1 and the back-barrier basin was filled in. This increase in sediment accumulation resulted from retreat of the barrier island and probably also due to formation of a tidal inlet close to the study area. Continued transgression and shoreface retreat created a distinct hiatus and wave ravinement surface in the seaward part of the CBS before the barrier shoreline stabilised between 5.0 and 4.5 ka ago. Back-barrier shoreline erosion due to sediment starvation in the back-barrier basin, was pronounced from 4.5 to 2.5 ka ago but the last 2.5 kyr barrier sedimentation has kept up with and outpaced sea-level. The last 0.4 kyr the CBS has been episodically prograding. Sediment accumulation shows considerable variation with periods of rapid sediment deposition and periods of non-deposition or erosion resulting in a highly punctuated sediment record.
U2 - 10.1111/sed.12167
DO - 10.1111/sed.12167
M3 - Journal article
VL - 62
SP - 928
EP - 969
JO - Sedimentology
JF - Sedimentology
SN - 0037-0746
IS - 3
ER -
ID: 130474682