Oxygen isotope composition of the final chamber of planktic foraminifera provides evidence of vertical migration and depth-integrated growth

The translation of the original seawater signal (i.e. ambient temperature and δ 18 O sw ) into distinct chambers of a single shell of a foraminifer during calcification can influence our interpretation of surface ocean conditions of the past, when based upon oxygen and carbon stable isotope geochemi...

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Published in:Biogeosciences
Main Authors: Pracht, Hilde, Metcalfe, Brett, Peeters, Frank J. C.
Format: Text
Language:English
Published: 2019
Subjects:
Planktonic foraminifera
Online Access:https://doi.org/10.5194/bg-16-643-2019
https://www.biogeosciences.net/16/643/2019/
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record_format openpolar
spelling ftcopernicus:oai:publications.copernicus.org:bg67511 2023-05-15T18:01:13+02:00 Oxygen isotope composition of the final chamber of planktic foraminifera provides evidence of vertical migration and depth-integrated growth Pracht, Hilde Metcalfe, Brett Peeters, Frank J. C. 2019-02-01 application/pdf https://doi.org/10.5194/bg-16-643-2019 https://www.biogeosciences.net/16/643/2019/ eng eng doi:10.5194/bg-16-643-2019 https://www.biogeosciences.net/16/643/2019/ eISSN: 1726-4189 Text 2019 ftcopernicus https://doi.org/10.5194/bg-16-643-2019 2019-12-24T09:49:29Z The translation of the original seawater signal (i.e. ambient temperature and δ 18 O sw ) into distinct chambers of a single shell of a foraminifer during calcification can influence our interpretation of surface ocean conditions of the past, when based upon oxygen and carbon stable isotope geochemistry. In this study three different hypotheses were tested to gain more insight into biological and ecological processes that influence the resultant composition of stable isotopes of oxygen ( δ 18 O ) in the shells of planktonic foraminifera. These hypotheses were related to the shell size; the differences in isotopic composition between the final chamber and the remaining shell; and the differences between different species. Shells of Trilobatus sacculifer , Globigerinoides ruber white and Neogloboquadrina dutertrei were picked from the top of multi-core GS07-150-24, of modern age, offshore of north-eastern Brazil (3 ∘ 46.474 ′ S, 37 ∘ 03.849 ′ W) and analysed for single-shell and single-chamber stable isotope analysis. We show that the mean value of δ 18 O of the final chambers ( δ 18 O F ) is 0.2 ‰ ± 0.4 ‰ ( 1 σ ) higher than the mean value δ 18 O of the test minus the final chamber ( δ 18 O < F ) of T. sacculifer . The formation of the final chamber happens at temperatures that are approximately 1 ∘ C cooler than the chambers formed prior, suggesting both ontogenetic depth migration to deeper water and a potential offset from the surface signal. Furthermore, we show that there is no statistical difference in the δ 18 O sacculifer values of shells of three different size classes of T. sacculifer , although the pattern between the different size classes indicates depth migration during the life and growth of T. sacculifer . Comparison of vital effect corrected δ 18 O shell between T. sacculifer , G. ruber white and N. dutertrei suggests that G. ruber has a slightly shallower depth habitat ( ∼90 –120 m) compared to the other two species ( ∼100 –130 m). Disentangling depth vs. seasonal habitat is complicated given the commonality between isotope values from similar depths but different seasons; for instance, the same average isotope value will have a shallower depth habitat in May than September. Calculation of seasonal-depth habitat was therefore tested. Our results highlight the complicated nature of interpreting oxygen isotopes even for the modern record. Text Planktonic foraminifera Copernicus Publications: E-Journals Biogeosciences 16 2 643 661
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description The translation of the original seawater signal (i.e. ambient temperature and δ 18 O sw ) into distinct chambers of a single shell of a foraminifer during calcification can influence our interpretation of surface ocean conditions of the past, when based upon oxygen and carbon stable isotope geochemistry. In this study three different hypotheses were tested to gain more insight into biological and ecological processes that influence the resultant composition of stable isotopes of oxygen ( δ 18 O ) in the shells of planktonic foraminifera. These hypotheses were related to the shell size; the differences in isotopic composition between the final chamber and the remaining shell; and the differences between different species. Shells of Trilobatus sacculifer , Globigerinoides ruber white and Neogloboquadrina dutertrei were picked from the top of multi-core GS07-150-24, of modern age, offshore of north-eastern Brazil (3 ∘ 46.474 ′ S, 37 ∘ 03.849 ′ W) and analysed for single-shell and single-chamber stable isotope analysis. We show that the mean value of δ 18 O of the final chambers ( δ 18 O F ) is 0.2 ‰ ± 0.4 ‰ ( 1 σ ) higher than the mean value δ 18 O of the test minus the final chamber ( δ 18 O < F ) of T. sacculifer . The formation of the final chamber happens at temperatures that are approximately 1 ∘ C cooler than the chambers formed prior, suggesting both ontogenetic depth migration to deeper water and a potential offset from the surface signal. Furthermore, we show that there is no statistical difference in the δ 18 O sacculifer values of shells of three different size classes of T. sacculifer , although the pattern between the different size classes indicates depth migration during the life and growth of T. sacculifer . Comparison of vital effect corrected δ 18 O shell between T. sacculifer , G. ruber white and N. dutertrei suggests that G. ruber has a slightly shallower depth habitat ( ∼90 –120 m) compared to the other two species ( ∼100 –130 m). Disentangling depth vs. seasonal habitat is complicated given the commonality between isotope values from similar depths but different seasons; for instance, the same average isotope value will have a shallower depth habitat in May than September. Calculation of seasonal-depth habitat was therefore tested. Our results highlight the complicated nature of interpreting oxygen isotopes even for the modern record.
format Text
author Pracht, Hilde
Metcalfe, Brett
Peeters, Frank J. C.
spellingShingle Pracht, Hilde
Metcalfe, Brett
Peeters, Frank J. C.
Oxygen isotope composition of the final chamber of planktic foraminifera provides evidence of vertical migration and depth-integrated growth
author_facet Pracht, Hilde
Metcalfe, Brett
Peeters, Frank J. C.
author_sort Pracht, Hilde
title Oxygen isotope composition of the final chamber of planktic foraminifera provides evidence of vertical migration and depth-integrated growth
title_short Oxygen isotope composition of the final chamber of planktic foraminifera provides evidence of vertical migration and depth-integrated growth
title_full Oxygen isotope composition of the final chamber of planktic foraminifera provides evidence of vertical migration and depth-integrated growth
title_fullStr Oxygen isotope composition of the final chamber of planktic foraminifera provides evidence of vertical migration and depth-integrated growth
title_full_unstemmed Oxygen isotope composition of the final chamber of planktic foraminifera provides evidence of vertical migration and depth-integrated growth
title_sort oxygen isotope composition of the final chamber of planktic foraminifera provides evidence of vertical migration and depth-integrated growth
publishDate 2019
url https://doi.org/10.5194/bg-16-643-2019
https://www.biogeosciences.net/16/643/2019/
genre Planktonic foraminifera
genre_facet Planktonic foraminifera
op_source eISSN: 1726-4189
op_relation doi:10.5194/bg-16-643-2019
https://www.biogeosciences.net/16/643/2019/
op_doi https://doi.org/10.5194/bg-16-643-2019
container_title Biogeosciences
container_volume 16
container_issue 2
container_start_page 643
op_container_end_page 661
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