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Insights into the Middle–Late Miocene palaeoceanographic development of Cyprus (eastern Mediterranean) from a new δ18O and δ13C stable isotope composite record

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Publicado en:Climate of the Past vol. 21, no. 12 (2025), p. 2501-2524
Autor principal: Cannings, Torin
Otros Autores: Robertson, Alastair H. F., Kroon, Dick
Publicado:
Copernicus GmbH
Materias:
United States > US
Indian Ocean
Cyprus
Mediterranean Sea
Atlantic Ocean
Strontium
Carbon 13
Carbon dioxide
Sea level
Isotope studies
Ocean circulation patterns
Oceans
Strontium isotopes
Salinity
Climate change
Deep sea
Cooling
Isotopes
Carbon
Miocene
Stable isotopes
Basins
Neogene
Plate tectonics
Deep water
Sedimentary rocks
Circulation patterns
Global climate
Temperature
Biostratigraphy
Future climates
Ocean circulation
Tectonics
Messinian
Environmental
Acceso en línea:Citation/Abstract
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Resumen:The Middle to Late Miocene was a time of significant global climate change. In the eastern Mediterranean region, these climatic changes coincided with important tectonic events, which resulted in changes to the organisation of oceanic gateways, altering oceanic circulation patterns. The Miocene Climatic Optimum (MCO) is regarded as the most recent CO2-driven warming event in Earth's climate history and has been proposed as an analogue for future climate change. We present a ca. 12 Ma record of oxygen and carbon stable isotopes from the island of Cyprus to help constrain the nature and extent of Miocene palaeoceanographic changes in the eastern Mediterranean region. Cyprus exposes Neogene deep-sea pelagic sedimentary rocks which are suitable for stable isotope studies. Our composite geochemical record integrates data from the Lower to Upper Miocene succession at Kottaphi Hill along the northern margin of the Troodos ophiolite, with the Upper Miocene succession at Lapatza Hill in the north of Cyprus. Calcareous nannofossil biostratigraphy reveals that the composite record spans the Miocene Climatic Optimum's onset to the beginning of the Messinian Salinity Crisis (MSC). The new stable isotopic record reveals a complex interplay between global climate change and regional to local tectonic changes. In the earlier part of the record, global climate changes dominated; however, by the end of the Late Miocene, tectonic events culminated in isolation of the Mediterranean basins, resulting in a deviation from global open-ocean trends. Strontium (Sr) isotope analysis is used primarily to help constrain the age of the Miocene successions sampled and implies changes in the connectivity of the eastern Mediterranean basins during the Late Miocene. The combined data provide a useful reference for oceanographic changes in the eastern Mediterranean basins during the Miocene, compared to the global oceans.
ISSN:1814-9324
1814-9332
DOI:10.5194/cp-21-2501-2025
Fuente:Continental Europe Database