Exploring macroevolutionary links in multi-species planktonic foraminiferal Mg∕Ca and δ18O from 15 Ma to recent
Exploring macroevolutionary links in multi-species planktonic foraminiferal Mg∕Ca and δ18O from 15 Ma to recent
The ratio of the trace element Mg over Ca (Mg/Ca) and the oxygen isotopic composition (δ
18O) of foraminiferal calcite are widely employed for reconstructing past ocean temperatures, although geochemical signals are also influenced by several other factors that vary temporally and spatially. Here, we analyse a global dataset of Mg/Ca and δ
18O data of 59 middle Miocene to recent species of planktonic foraminifera from a wide range of depth habitats, many of which have never been analysed before for Mg/Ca. We investigate the extent to which Mg/Ca and δ
18O covary through time and space and identify several sources of mismatch between the two proxies. Once the data are adjusted for long-term non-thermal factors, Mg/Ca and δ
18O are overall positively correlated in a way consistent with temperature being the dominant controller through both space and time and across many different species, including deep dwellers. However, we identify several species with systematic offsets in Mg/Ca values, to which multispecies calibrations should be applied with caution. We can track the appearance of such offsets through ancestor-descendent species over the last 15 Myr and propose that the emergence of these offsets may be the geochemical expression of evolutionary innovations. We find that virtually all of the Mg/Ca- and δ
18O-derived temperatures from the commonly used genera Globigerinoides and Trilobatus are within uncertainty of each other, highlighting the utility of these species for paleoceanographic reconstructions. Our results highlight the potential of leveraging information from species lineages to improve sea surface temperature reconstruction from planktonic foraminifera over the Cenozoic.
1095-1113
Boscolo-Galazzo, Flavia
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Evans, David
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Mawbey, Elaine M.
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Gray, William R.
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Pearson, Paul N.
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Wade, Bridget S.
882ef710-e0e7-46a1-b382-eb48b1b31a03
28 February 2025
Boscolo-Galazzo, Flavia
d5e85db4-7663-4558-9b58-60b7c2125b34
Evans, David
878c65c7-eab9-4362-896b-166e165eb94b
Mawbey, Elaine M.
ba9b907c-d736-4fc1-a72f-013cc6857fa2
Gray, William R.
e8115468-3b1a-4f51-9803-95a8af4a0bc8
Pearson, Paul N.
76269a23-3411-45a1-bc81-b3a668ef1d13
Wade, Bridget S.
882ef710-e0e7-46a1-b382-eb48b1b31a03
Boscolo-Galazzo, Flavia, Evans, David, Mawbey, Elaine M., Gray, William R., Pearson, Paul N. and Wade, Bridget S.
(2025)
Exploring macroevolutionary links in multi-species planktonic foraminiferal Mg∕Ca and δ18O from 15 Ma to recent.
Biogeosciences, 22 (4), .
(doi:10.5194/bg-22-1095-2025).
Abstract
The ratio of the trace element Mg over Ca (Mg/Ca) and the oxygen isotopic composition (δ
18O) of foraminiferal calcite are widely employed for reconstructing past ocean temperatures, although geochemical signals are also influenced by several other factors that vary temporally and spatially. Here, we analyse a global dataset of Mg/Ca and δ
18O data of 59 middle Miocene to recent species of planktonic foraminifera from a wide range of depth habitats, many of which have never been analysed before for Mg/Ca. We investigate the extent to which Mg/Ca and δ
18O covary through time and space and identify several sources of mismatch between the two proxies. Once the data are adjusted for long-term non-thermal factors, Mg/Ca and δ
18O are overall positively correlated in a way consistent with temperature being the dominant controller through both space and time and across many different species, including deep dwellers. However, we identify several species with systematic offsets in Mg/Ca values, to which multispecies calibrations should be applied with caution. We can track the appearance of such offsets through ancestor-descendent species over the last 15 Myr and propose that the emergence of these offsets may be the geochemical expression of evolutionary innovations. We find that virtually all of the Mg/Ca- and δ
18O-derived temperatures from the commonly used genera Globigerinoides and Trilobatus are within uncertainty of each other, highlighting the utility of these species for paleoceanographic reconstructions. Our results highlight the potential of leveraging information from species lineages to improve sea surface temperature reconstruction from planktonic foraminifera over the Cenozoic.
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bg-22-1095-2025
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Accepted/In Press date: 4 December 2024
Published date: 28 February 2025
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Local EPrints ID: 503566
URI: http://eprints.soton.ac.uk/id/eprint/503566
ISSN: 1726-4170
PURE UUID: 142ec5b9-e4fa-43bb-8c63-bda4c5645a37
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Date deposited: 05 Aug 2025 16:46
Last modified: 22 Aug 2025 02:38
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Contributors
Author:
Flavia Boscolo-Galazzo
Author:
David Evans
Author:
Elaine M. Mawbey
Author:
William R. Gray
Author:
Paul N. Pearson
Author:
Bridget S. Wade
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