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Stratigraphic and paleoceanographic alternations within a Mediterranean semi-enclosed, syn-rift basin during Marine Isotope Stage 5: The Gulf of Corinth, Greece

Stratigraphic and paleoceanographic alternations within a Mediterranean semi-enclosed, syn-rift basin during Marine Isotope Stage 5: The Gulf of Corinth, Greece
Stratigraphic and paleoceanographic alternations within a Mediterranean semi-enclosed, syn-rift basin during Marine Isotope Stage 5: The Gulf of Corinth, Greece

The Gulf of Corinth represents an ideal setting for studying the impact of sea level changes and regional climate on a semi-enclosed, syn-rift basin. Here we investigate the stratigraphic and paleoceanographic variability recorded in the sedimentary succession of the basin over the Marine Isotope Stage (MIS) 5 period when global sea level and climatic conditions along the eastern Mediterranean exhibited pronounced fluctuations. We used sedimentological (granulometry, composition), micropaleontological (planktic and benthic foraminifera), and isotopic (stable δ 18O, δ 13C, and clumped isotope) proxies on core samples from site M0079A (IODP Expedition 381) combined with additional data from the expedition overview and records from the surrounding area. The sedimentary succession comprises an alternating pattern of a) bioturbated, biogenic-rich deposits associated with increased hemipelagic sedimentation with b) partly bedded, detrital-rich sediments attributed to intercalated sediment gravity flows within the hemipelagic background under low oxic sea-surface conditions, and c) aragonite-rich laminated deposits, indicating either transitional conditions between marine and isolated environment or a highly stratified seawater column and low oxygen seafloor conditions. We find that the Gulf of Corinth lay under marine conditions for nearly the entire MIS 5 period, while the Rion sill would have been possibly shallower, even 10 m, than the current depth. Nevertheless, water exchange was restricted during the MIS 5a – MIS 4 transition when the sea level fluctuated very close to the sill height. The hydrological conditions within the Gulf during most of the highstands MIS 5a, 5c, and 5e reflect higher oxygen levels and/or increased nutrient availability compared to the Holocene and present-day regime. The combined effects of Ionian Sea inflows and enhanced riverine runoff led to increased water column stratification and low oxygen, eutrophic seafloor conditions in the Gulf of Corinth during times of high precipitation in southern Europe and deposition of sapropels S3, S4, and S5 throughout the eastern Mediterranean. In contrast, during periods of widespread cold and arid conditions in the eastern Mediterranean, water column mixing was intense within the Gulf. Prevalent marine conditions are also proposed during the MIS 5b and 5d lowstands, yet associated with predominately bedded-detrital sediments in the Gulf. A complementary investigation in the adjoining Patras Gulf is suggested to fully comprehend the dynamics of climate and sea level changes in complex rift systems.

Aragonite – Laminations, Foraminifera, Gulf of Corinth, Marine Isotope Stage 5, Sapropel-equivalent layers, Sedimentary facies
0025-3227
Sergiou, Spyros
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Geraga, Maria
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Pechlivanidou, Sofia
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Gawthorpe, Robert l.
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Ninnemann, Ulysses
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Meckler, Anna-Nele
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Modestou, Sevasti
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Angelopoulou, Dimitra
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Antoniou, Dimitra
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Diz, Paula
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Mcneill, Lisa
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Shillington, Donna j.
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Papatheodorou, George
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Sergiou, Spyros
90d334e6-e443-411e-9dd6-4a775cb401c7
Geraga, Maria
89154b59-f214-4f46-bc5d-51843cc75d14
Pechlivanidou, Sofia
d948d0c8-2d47-45a2-a826-cd0e8cdb12d7
Gawthorpe, Robert l.
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Ninnemann, Ulysses
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Meckler, Anna-Nele
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Modestou, Sevasti
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Angelopoulou, Dimitra
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Antoniou, Dimitra
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Diz, Paula
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Mcneill, Lisa
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Shillington, Donna j.
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Papatheodorou, George
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Sergiou, Spyros, Geraga, Maria, Pechlivanidou, Sofia, Gawthorpe, Robert l., Ninnemann, Ulysses, Meckler, Anna-Nele, Modestou, Sevasti, Angelopoulou, Dimitra, Antoniou, Dimitra, Diz, Paula, Mcneill, Lisa, Shillington, Donna j. and Papatheodorou, George (2024) Stratigraphic and paleoceanographic alternations within a Mediterranean semi-enclosed, syn-rift basin during Marine Isotope Stage 5: The Gulf of Corinth, Greece. Marine Geology, 474, [107340]. (doi:10.1016/j.margeo.2024.107340).

Record type: Article

Abstract

The Gulf of Corinth represents an ideal setting for studying the impact of sea level changes and regional climate on a semi-enclosed, syn-rift basin. Here we investigate the stratigraphic and paleoceanographic variability recorded in the sedimentary succession of the basin over the Marine Isotope Stage (MIS) 5 period when global sea level and climatic conditions along the eastern Mediterranean exhibited pronounced fluctuations. We used sedimentological (granulometry, composition), micropaleontological (planktic and benthic foraminifera), and isotopic (stable δ 18O, δ 13C, and clumped isotope) proxies on core samples from site M0079A (IODP Expedition 381) combined with additional data from the expedition overview and records from the surrounding area. The sedimentary succession comprises an alternating pattern of a) bioturbated, biogenic-rich deposits associated with increased hemipelagic sedimentation with b) partly bedded, detrital-rich sediments attributed to intercalated sediment gravity flows within the hemipelagic background under low oxic sea-surface conditions, and c) aragonite-rich laminated deposits, indicating either transitional conditions between marine and isolated environment or a highly stratified seawater column and low oxygen seafloor conditions. We find that the Gulf of Corinth lay under marine conditions for nearly the entire MIS 5 period, while the Rion sill would have been possibly shallower, even 10 m, than the current depth. Nevertheless, water exchange was restricted during the MIS 5a – MIS 4 transition when the sea level fluctuated very close to the sill height. The hydrological conditions within the Gulf during most of the highstands MIS 5a, 5c, and 5e reflect higher oxygen levels and/or increased nutrient availability compared to the Holocene and present-day regime. The combined effects of Ionian Sea inflows and enhanced riverine runoff led to increased water column stratification and low oxygen, eutrophic seafloor conditions in the Gulf of Corinth during times of high precipitation in southern Europe and deposition of sapropels S3, S4, and S5 throughout the eastern Mediterranean. In contrast, during periods of widespread cold and arid conditions in the eastern Mediterranean, water column mixing was intense within the Gulf. Prevalent marine conditions are also proposed during the MIS 5b and 5d lowstands, yet associated with predominately bedded-detrital sediments in the Gulf. A complementary investigation in the adjoining Patras Gulf is suggested to fully comprehend the dynamics of climate and sea level changes in complex rift systems.

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Sergiou_2024_R2 - Accepted Manuscript
Restricted to Repository staff only until 17 June 2026.
Available under License Creative Commons Attribution Non-commercial No Derivatives.
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Accepted/In Press date: 14 June 2024
e-pub ahead of print date: 17 June 2024
Published date: 17 June 2024
Keywords: Aragonite – Laminations, Foraminifera, Gulf of Corinth, Marine Isotope Stage 5, Sapropel-equivalent layers, Sedimentary facies
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Identifiers

Local EPrints ID: 492535
URI: http://eprints.soton.ac.uk/id/eprint/492535
DOI: doi:10.1016/j.margeo.2024.107340
ISSN: 0025-3227
PURE UUID: e2f93553-7eae-4b3c-9760-04c0137b3d7c
ORCID for Lisa Mcneill: ORCID iD orcid.org/0000-0002-8689-5882

Catalogue record

Date deposited: 31 Jul 2024 16:36
Last modified: 01 Aug 2024 01:37

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Contributors

Author: Spyros Sergiou
Author: Maria Geraga
Author: Sofia Pechlivanidou
Author: Robert l. Gawthorpe
Author: Ulysses Ninnemann
Author: Anna-Nele Meckler
Author: Sevasti Modestou
Author: Dimitra Angelopoulou
Author: Dimitra Antoniou
Author: Paula Diz
Author: Lisa Mcneill ORCID iD
Author: Donna j. Shillington
Author: George Papatheodorou

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