Details
Original language | English |
---|---|
Article number | 105953 |
Journal | Marine Geology |
Volume | 415 |
Early online date | 3 Jun 2019 |
Publication status | Published - Sept 2019 |
Abstract
The Archipélago Rosario-Barú evolved off-shore of the Caribbean Coast in N Colombia during the Holocene. From the geodynamic point of view its host rocks belong to the rather stable foreland of the modern Andean fold belt, from the sedimentological point of view the environment has, however, to be ranked among the highly mobile zones. The swiftly rising orogen in the hinderland triggered a huge amount of sediment load that is very rapidly dumped at the end of the river run in wave-induced deltas which subsequently were reworked into large barrier sands along the Caribbean Coast. The modern terrigenous sedimentation in context with a pervasive neotectonic faulting along deep-seated lineaments contributed to the instability of the clastic substrate and sparked mud diapirism which is accountable for the built-up and destruction of the cays and reefs of the Archipélago Rosario-Barú. Mineralogical, chemical, paleontological, and sedimentological studies were combined with radio‑carbon dating to decipher the stepwise evolution of the archipelago and applied in a catena-like approach covering the entire sequence from the onshore strand plain to the offshore reef. The impact of the mud diapirism is indicated by marker minerals such as smectite and chlorite, and displays a set of typical chemical features in the base metal contents and the stable carbon and oxygen isotopes straddling around zero. All of these characteristics point to a deep-seated basic source of the fluids vented as a slurry along lineamentary zones. The actuogeological study of these sites rife with mud volcanoes can be taken on one hand as a modern equivalent to ancient limestone-hosted Cu deposits and on the other hand use as a replica of ancient salt deposit undergoing halokinetic processes as far as the petrophysical processes are concerned.
Keywords
- Holocene, Mud diapirism, N Colombia, Neotectonic, Reef-strand plain transect
ASJC Scopus subject areas
- Earth and Planetary Sciences(all)
- Oceanography
- Earth and Planetary Sciences(all)
- Geology
- Earth and Planetary Sciences(all)
- Geochemistry and Petrology
Cite this
- Standard
- Harvard
- Apa
- Vancouver
- BibTeX
- RIS
In: Marine Geology, Vol. 415, 105953, 09.2019.
Research output: Contribution to journal › Article › Research › peer review
}
TY - JOUR
T1 - From the strand plain to the reef
T2 - A sedimentological–geomorphological study of a Holocene coast affected by mud diapirism (Archipélago Rosario- Barú, Colombia)
AU - Dill, Harald G.
AU - Ufer, K.
AU - Bornemann, A.
AU - Techmer, A.
AU - Buzatu, A.
PY - 2019/9
Y1 - 2019/9
N2 - The Archipélago Rosario-Barú evolved off-shore of the Caribbean Coast in N Colombia during the Holocene. From the geodynamic point of view its host rocks belong to the rather stable foreland of the modern Andean fold belt, from the sedimentological point of view the environment has, however, to be ranked among the highly mobile zones. The swiftly rising orogen in the hinderland triggered a huge amount of sediment load that is very rapidly dumped at the end of the river run in wave-induced deltas which subsequently were reworked into large barrier sands along the Caribbean Coast. The modern terrigenous sedimentation in context with a pervasive neotectonic faulting along deep-seated lineaments contributed to the instability of the clastic substrate and sparked mud diapirism which is accountable for the built-up and destruction of the cays and reefs of the Archipélago Rosario-Barú. Mineralogical, chemical, paleontological, and sedimentological studies were combined with radio‑carbon dating to decipher the stepwise evolution of the archipelago and applied in a catena-like approach covering the entire sequence from the onshore strand plain to the offshore reef. The impact of the mud diapirism is indicated by marker minerals such as smectite and chlorite, and displays a set of typical chemical features in the base metal contents and the stable carbon and oxygen isotopes straddling around zero. All of these characteristics point to a deep-seated basic source of the fluids vented as a slurry along lineamentary zones. The actuogeological study of these sites rife with mud volcanoes can be taken on one hand as a modern equivalent to ancient limestone-hosted Cu deposits and on the other hand use as a replica of ancient salt deposit undergoing halokinetic processes as far as the petrophysical processes are concerned.
AB - The Archipélago Rosario-Barú evolved off-shore of the Caribbean Coast in N Colombia during the Holocene. From the geodynamic point of view its host rocks belong to the rather stable foreland of the modern Andean fold belt, from the sedimentological point of view the environment has, however, to be ranked among the highly mobile zones. The swiftly rising orogen in the hinderland triggered a huge amount of sediment load that is very rapidly dumped at the end of the river run in wave-induced deltas which subsequently were reworked into large barrier sands along the Caribbean Coast. The modern terrigenous sedimentation in context with a pervasive neotectonic faulting along deep-seated lineaments contributed to the instability of the clastic substrate and sparked mud diapirism which is accountable for the built-up and destruction of the cays and reefs of the Archipélago Rosario-Barú. Mineralogical, chemical, paleontological, and sedimentological studies were combined with radio‑carbon dating to decipher the stepwise evolution of the archipelago and applied in a catena-like approach covering the entire sequence from the onshore strand plain to the offshore reef. The impact of the mud diapirism is indicated by marker minerals such as smectite and chlorite, and displays a set of typical chemical features in the base metal contents and the stable carbon and oxygen isotopes straddling around zero. All of these characteristics point to a deep-seated basic source of the fluids vented as a slurry along lineamentary zones. The actuogeological study of these sites rife with mud volcanoes can be taken on one hand as a modern equivalent to ancient limestone-hosted Cu deposits and on the other hand use as a replica of ancient salt deposit undergoing halokinetic processes as far as the petrophysical processes are concerned.
KW - Holocene
KW - Mud diapirism
KW - N Colombia
KW - Neotectonic
KW - Reef-strand plain transect
UR - http://www.scopus.com/inward/record.url?scp=85066929193&partnerID=8YFLogxK
U2 - 10.1016/j.margeo.2019.05.012
DO - 10.1016/j.margeo.2019.05.012
M3 - Article
AN - SCOPUS:85066929193
VL - 415
JO - Marine Geology
JF - Marine Geology
SN - 0025-3227
M1 - 105953
ER -