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Gaskell, Daniel E., Hull, Pincelli M. (2019) Symbiont arrangement and metabolism can explain high δ13C in Eocene planktonic foraminifera. Geology, 47 (12) 1156-1160 doi:10.1130/g46304.1

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Reference TypeJournal (article/letter/editorial)
TitleSymbiont arrangement and metabolism can explain high δ13C in Eocene planktonic foraminifera
JournalGeology
AuthorsGaskell, Daniel E.Author
Hull, Pincelli M.Author
Year2019 (December 1)Volume47
Issue12
PublisherGeological Society of America
DOIdoi:10.1130/g46304.1Search in ResearchGate
Generate Citation Formats
Mindat Ref. ID143815Long-form Identifiermindat:1:5:143815:8
GUID0
Full ReferenceGaskell, Daniel E., Hull, Pincelli M. (2019) Symbiont arrangement and metabolism can explain high δ13C in Eocene planktonic foraminifera. Geology, 47 (12) 1156-1160 doi:10.1130/g46304.1
Plain TextGaskell, Daniel E., Hull, Pincelli M. (2019) Symbiont arrangement and metabolism can explain high δ13C in Eocene planktonic foraminifera. Geology, 47 (12) 1156-1160 doi:10.1130/g46304.1
In(2019, December) Geology Vol. 47 (12) Geological Society of America
Abstract/NotesAbstract
An important question in climate modeling is whether carbon cycling is fundamentally different in warm versus cold climate states. A key line of evidence regarding this question comes from the unusually large difference in carbon-isotope values (δ13C) between shallow-dwelling muricate foraminifera and foraminifera living deeper in the water column in the Paleogene. This has been interpreted as evidence that warmer temperatures elevated the metabolic rates of carbon-recycling bacteria, resulting in a steeper gradient in the δ13C of dissolved inorganic carbon (δ13CDIC) and reduced carbon export. However, this interpretation depends on the assumption that vital effects—biological processes that bias foraminiferal δ13C—are constant throughout time. We test this assumption using a chemical model of the foraminiferal microenvironment and find that the hypothesized increase in metabolic rates should also increase vital effects, meaning that both Paleogene δ13CDIC gradients and the temperature dependence of metabolism must have been significantly lower than previously estimated. We further propose that muricate foraminifera may have evolved a novel “mat” strategy for photosymbiosis wherein symbionts rested on the muricae in a thin layer surrounding the shell. This hypothesis can explain both the function of muricae and the observed isotopic data without the need for any change in metabolism. Our work thus challenges existing interpretations of δ13C and provides a path forward to empirically test the magnitude of temperature-dependent metabolic change in the deep past.

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Gaskell, Daniel E., Ohman, Mark D., Hull, Pincelli M. (2019) Zooglider-Based Measurements of Planktonic Foraminifera in the California Current System. Journal of Foraminiferal Research, 49 (4) 390-404 doi:10.2113/gsjfr.49.4.390
Shaw, Jack O., D'haenens, Simon, Thomas, Ellen, Norris, Richard D., Lyman, Johnnie A., Bornemann, André, Hull, Pincelli M. (2021) Photosymbiosis in planktonic foraminifera across the Paleocene–Eocene thermal maximum. Paleobiology, 47 (4) 632-647 doi:10.1017/pab.2021.7
Burke, Janet E., Renema, Willem, Schiebel, Ralf, Hull, Pincelli M. (2020) Three-dimensional analysis of inter-and intraspecific variation in ontogenetic growth trajectories of planktonic foraminifera. Marine Micropaleontology, 155. 101794pp. doi:10.1016/j.marmicro.2019.101794
Ezard, Thomas H. G., Edgar, Kirsty M., Hull, Pincelli M. (2015) Environmental and biological controls on size-specific δ13 C and δ18 O in recent planktonic foraminifera. Paleoceanography, 30 (3). 151-173 doi:10.1002/2014pa002735
Elder, Leanne E., Hsiang, Allison Y., Nelson, Kaylea, Strotz, Luke C., Kahanamoku, Sara S., Hull, Pincelli M. (2018) Sixty-one thousand recent planktonic foraminifera from the Atlantic Ocean. Scientific Data, 5. doi:10.1038/sdata.2018.109
Gaskell, Daniel E., Hull, Pincelli M. (2023) Technical note: A new online tool for δ18O–temperature conversions. Climate of the Past, 19 (6) 1265-1274 doi:10.5194/cp-19-1265-2023
Burke, Janet E., Elder, Leanne E., Maas, Amy E., Gaskell, Daniel E., Clark, Elizabeth G., Hsiang, Allison Y., Foster, Gavin L., Hull, Pincelli M. (2025) Physiological and morphological scaling enables gigantism in pelagic protists. Limnology and Oceanography, 70 (2). doi:10.1002/lno.12770
Burke, Janet E., Renema, Willem, Henehan, Michael J., Elder, Leanne E., Davis, Catherine V., Maas, Amy E., Foster, Gavin L., Schiebel, Ralf, Hull, Pincelli M. (2018) Factors influencing test porosity in planktonic foraminifera. Biogeosciences, 15 (21). 6607-6619 doi:10.5194/bg-15-6607-2018
Hsiang, Allison Y., Elder, Leanne E., Hull, Pincelli M. (2016) Towards a morphological metric of assemblage dynamics in the fossil record: a test case using planktonic foraminifera. Philosophical Transactions of the Royal Society B: Biological Sciences, 371 (1691). 20150227pp. doi:10.1098/rstb.2015.0227
Edgar, K. M., Bohaty, S. M., Gibbs, S. J., Sexton, P. F., Norris, R. D., Wilson, P. A. (2013) Symbiont 'bleaching' in planktic foraminifera during the Middle Eocene Climatic Optimum. Geology, 41 (1) 15-18 doi:10.1130/g33388.1
Shaw, Jack O., Briggs, Derek E.G., Hull, Pincelli M. (2021) Fossilization potential of marine assemblages and environments. Geology, 49 (3) 258-262 doi:10.1130/g47907.1
 
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