Intra-annually-resolved sea surface temperature variability at the onset of the Oligocene icehouse based on Nummulites geochemistry
Intra-annually-resolved sea surface temperature variability at the onset of the Oligocene icehouse based on Nummulites geochemistry
Corals, otoliths, molluscs, and foraminifera all produce growth-banded shells, which can be subsampled to produce records of intra-annual variation in Earth's past, including seasonality. However, foraminifera remain under-utilised for this purpose, with only a handful of studies to date. In particular, the larger foraminifera, which live for several months or more, remain a largely untapped archive of past intra-annual changes. Here we use laser ablation ICPMS to generate continuous Mg/Ca records along the spiral whorl of Nummulites from the late Eocene and early Oligocene of Tanzania. Using in situ temperature logger data in a modern tropical setting, the intra and inter-test variability of this Mg/Ca palaeothermometer was calibrated utilising corresponding Mg/Ca profiles from the related modern species Heterostegina depressa. Eocene Nummulites proved affected by diagenesis and could not be used for reconstructions. However, nine Oligocene specimens showed excellent preservation enabling us to generate records of intra-test Mg/Ca variability, and transfer this to an estimate of intra/inter-annual palaeotemperature variability using the relationship between these parameters determined from our modern sample site. Our results constrain a mean annual temperature of 29.7 ± 3.9 °C, comparable with the oxygen isotope and TEX86 sea surface temperatures in previous studies from Tanzania, and intra/inter-annual temperature variability of ±2.3–3.0 °C. This is similar to both modern values for the region and sparse existing Oligocene seasonal data from the US. Our records thus contribute to unravelling Oligocene climate, and highlight the potential of larger foraminifera in filling the key seasonality gap in our understanding of past climates.
Cotton, Laura J.
a6784c65-de61-4c24-82a8-ec20b70f0f27
Evans, David
878c65c7-eab9-4362-896b-166e165eb94b
Fursman, Max
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Müller, Wolfgang
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Renema, Willem
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Pearson, Paul
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15 December 2025
Cotton, Laura J.
a6784c65-de61-4c24-82a8-ec20b70f0f27
Evans, David
878c65c7-eab9-4362-896b-166e165eb94b
Fursman, Max
fc97cefc-1abc-452f-8170-41c338db3db7
Müller, Wolfgang
360a71f7-0b47-4ff3-8c32-1912d70401aa
Renema, Willem
735cca3b-96d5-47e6-8411-d607520afa78
Pearson, Paul
c692d4d6-1823-4524-8f76-2f8e52fd1a51
Cotton, Laura J., Evans, David, Fursman, Max, Müller, Wolfgang, Renema, Willem and Pearson, Paul
(2025)
Intra-annually-resolved sea surface temperature variability at the onset of the Oligocene icehouse based on Nummulites geochemistry.
Palaeogeography, Palaeoclimatology, Palaeoecology, 680, [113350].
(doi:10.1016/j.palaeo.2025.113350).
Abstract
Corals, otoliths, molluscs, and foraminifera all produce growth-banded shells, which can be subsampled to produce records of intra-annual variation in Earth's past, including seasonality. However, foraminifera remain under-utilised for this purpose, with only a handful of studies to date. In particular, the larger foraminifera, which live for several months or more, remain a largely untapped archive of past intra-annual changes. Here we use laser ablation ICPMS to generate continuous Mg/Ca records along the spiral whorl of Nummulites from the late Eocene and early Oligocene of Tanzania. Using in situ temperature logger data in a modern tropical setting, the intra and inter-test variability of this Mg/Ca palaeothermometer was calibrated utilising corresponding Mg/Ca profiles from the related modern species Heterostegina depressa. Eocene Nummulites proved affected by diagenesis and could not be used for reconstructions. However, nine Oligocene specimens showed excellent preservation enabling us to generate records of intra-test Mg/Ca variability, and transfer this to an estimate of intra/inter-annual palaeotemperature variability using the relationship between these parameters determined from our modern sample site. Our results constrain a mean annual temperature of 29.7 ± 3.9 °C, comparable with the oxygen isotope and TEX86 sea surface temperatures in previous studies from Tanzania, and intra/inter-annual temperature variability of ±2.3–3.0 °C. This is similar to both modern values for the region and sparse existing Oligocene seasonal data from the US. Our records thus contribute to unravelling Oligocene climate, and highlight the potential of larger foraminifera in filling the key seasonality gap in our understanding of past climates.
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Accepted/In Press date: 14 October 2025
e-pub ahead of print date: 16 October 2025
Published date: 15 December 2025
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Local EPrints ID: 508836
URI: http://eprints.soton.ac.uk/id/eprint/508836
ISSN: 0031-0182
PURE UUID: 858ddd33-cf02-4af3-9907-6aeb5c5ff0b4
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Date deposited: 04 Feb 2026 17:45
Last modified: 05 Feb 2026 03:06
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Author:
Laura J. Cotton
Author:
David Evans
Author:
Max Fursman
Author:
Wolfgang Müller
Author:
Willem Renema
Author:
Paul Pearson
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