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Effects of the Santorini (Thera) eruption on manganese behavior in Holocene sediments of the eastern Mediterranean

Effects of the Santorini (Thera) eruption on manganese behavior in Holocene sediments of the eastern Mediterranean
Effects of the Santorini (Thera) eruption on manganese behavior in Holocene sediments of the eastern Mediterranean
The explosive eruption on the island of Santorini in 1630 B.C. in Minoan times had a large environmental impact over the eastern Mediterranean region. It has even been suggested that the Mn-enriched layer (the “Marker Bed”) above the most recent sapropel (S1) in sediments of a crestal area of the Mediterranean Ridge gained Mn from a hydrothermal source related to the Santorini eruption. Radiocarbon dating of two cores from this area sampled at high resolution demonstrate that this large Mn peak in fact pre-dates the Santorini event by 2.8 ky and forms part of a pattern seen in Mn profiles from all over the eastern Mediterranean. This same Mn profile shape is altered in areas that experienced substantial deposits of either the tephra layer emitted by the Santorini eruption or the turbidites that were triggered by it. Evidence of both of these perturbations is readily identified from compositional element/Al and Sr/Ca profiles that are distinct from those of the enclosing sediments. In one core with a 37 cm thick Santorini ash layer an oxidation front succeeded in penetrating the whole ash layer after emplacement to form a Mn peak but is now retreating. In cores where thin (< 15 cm) Santorini turbidites or ash layers lie above S1, oxidation fronts initially form additional Mn peaks on top of the turbidites and subsequently alter the characteristic double peaked Mn profile shape usually observed above sapropel S1.
manganese, Santorini, diagenesis, sapropel S1, eastern Mediterranean, molybdenum
0012-821X
188-201
Reitz, A.
e25f1ee0-d381-435f-8991-faa8b1df8a13
Thomson, J.
3395054f-e507-4841-9758-a06ed37f7d6b
de Lange, G.J.
f3a5a890-cb53-44e6-b3b0-77f53bc04dac
Green, D.R.H.
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Slomp, C.P.
fd927dd8-398d-480b-91a3-27b1ebba6666
Gebhardt, A.C.
86e8b659-c867-4efe-8541-d520902edc73
Reitz, A.
e25f1ee0-d381-435f-8991-faa8b1df8a13
Thomson, J.
3395054f-e507-4841-9758-a06ed37f7d6b
de Lange, G.J.
f3a5a890-cb53-44e6-b3b0-77f53bc04dac
Green, D.R.H.
0d7d86c4-d674-4514-8aa6-259134dc7b57
Slomp, C.P.
fd927dd8-398d-480b-91a3-27b1ebba6666
Gebhardt, A.C.
86e8b659-c867-4efe-8541-d520902edc73

Reitz, A., Thomson, J., de Lange, G.J., Green, D.R.H., Slomp, C.P. and Gebhardt, A.C. (2006) Effects of the Santorini (Thera) eruption on manganese behavior in Holocene sediments of the eastern Mediterranean. Earth and Planetary Science Letters, 241 (1-2), 188-201. (doi:10.1016/j.epsl.2005.10.027).

Record type: Article

Abstract

The explosive eruption on the island of Santorini in 1630 B.C. in Minoan times had a large environmental impact over the eastern Mediterranean region. It has even been suggested that the Mn-enriched layer (the “Marker Bed”) above the most recent sapropel (S1) in sediments of a crestal area of the Mediterranean Ridge gained Mn from a hydrothermal source related to the Santorini eruption. Radiocarbon dating of two cores from this area sampled at high resolution demonstrate that this large Mn peak in fact pre-dates the Santorini event by 2.8 ky and forms part of a pattern seen in Mn profiles from all over the eastern Mediterranean. This same Mn profile shape is altered in areas that experienced substantial deposits of either the tephra layer emitted by the Santorini eruption or the turbidites that were triggered by it. Evidence of both of these perturbations is readily identified from compositional element/Al and Sr/Ca profiles that are distinct from those of the enclosing sediments. In one core with a 37 cm thick Santorini ash layer an oxidation front succeeded in penetrating the whole ash layer after emplacement to form a Mn peak but is now retreating. In cores where thin (< 15 cm) Santorini turbidites or ash layers lie above S1, oxidation fronts initially form additional Mn peaks on top of the turbidites and subsequently alter the characteristic double peaked Mn profile shape usually observed above sapropel S1.

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More information

Published date: 2006
Keywords: manganese, Santorini, diagenesis, sapropel S1, eastern Mediterranean, molybdenum

Identifiers

Local EPrints ID: 20377
URI: http://eprints.soton.ac.uk/id/eprint/20377
ISSN: 0012-821X
PURE UUID: 666068a5-d8f2-4942-ac28-cbdf9ea5940f

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Date deposited: 23 Feb 2006
Last modified: 15 Mar 2024 06:24

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Contributors

Author: A. Reitz
Author: J. Thomson
Author: G.J. de Lange
Author: D.R.H. Green
Author: C.P. Slomp
Author: A.C. Gebhardt

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