Oxygen isotope geochemistry of Laurentide ice-sheet meltwater across Termination I

© 2017 We present a new method that quantifies the oxygen isotope geochemistry of Laurentide ice-sheet (LIS) meltwater across the last deglaciation, and reconstruct decadal-scale variations in the δ18O of LIS meltwater entering the Gulf of Mexico between ∼18 and 11 ka. We employ a technique that com...

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Published in:Quaternary Science Reviews
Main Authors: Vetter, L, Spero, HJ, Eggins, SM, Williams, C, Flower, BP
Format: Article in Journal/Newspaper
Language:English
Published: eScholarship, University of California 2017
Subjects:
Ice Sheet
Orca
Online Access:http://www.escholarship.org/uc/item/292234zr
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spelling ftcdlib:qt292234zr 2023-05-15T16:40:55+02:00 Oxygen isotope geochemistry of Laurentide ice-sheet meltwater across Termination I Vetter, L Spero, HJ Eggins, SM Williams, C Flower, BP 102 - 117 2017-12-15 application/pdf http://www.escholarship.org/uc/item/292234zr english eng eScholarship, University of California qt292234zr http://www.escholarship.org/uc/item/292234zr public Vetter, L; Spero, HJ; Eggins, SM; Williams, C; & Flower, BP. (2017). Oxygen isotope geochemistry of Laurentide ice-sheet meltwater across Termination I. Quaternary Science Reviews, 178, 102 - 117. doi:10.1016/j.quascirev.2017.10.007. UC Davis: Retrieved from: http://www.escholarship.org/uc/item/292234zr article 2017 ftcdlib https://doi.org/10.1016/j.quascirev.2017.10.007 2018-06-29T22:52:06Z © 2017 We present a new method that quantifies the oxygen isotope geochemistry of Laurentide ice-sheet (LIS) meltwater across the last deglaciation, and reconstruct decadal-scale variations in the δ18O of LIS meltwater entering the Gulf of Mexico between ∼18 and 11 ka. We employ a technique that combines laser ablation ICP-MS (LA-ICP-MS) and oxygen isotope analyses on individual shells of the planktic foraminifer Orbulina universa to quantify the instantaneous δ18Owatervalue of Mississippi River outflow, which was dominated by meltwater from the LIS. For each individual O. universa shell, we measure Mg/Ca (a proxy for temperature) and Ba/Ca (a proxy for salinity) with LA-ICP-MS, and then analyze the same O. universa for δ18O using the remaining material from the shell. From these proxies, we obtain δ18Owaterand salinity estimates for each individual foraminifer. Regressions through data obtained from discrete core intervals yield δ18Owvs. salinity relationships with a y-intercept that corresponds to the δ18Owatercomposition of the freshwater end-member. Our data suggest that from 15.5 through 14.6 ka, estimated δ18Owvalues of Mississippi River discharge from discrete core intervals range from −11‰ to −21‰ VSMOW, which is consistent with δ18O values from both regional precipitation and the low-elevation, southern margin of the LIS. During the Bølling and Allerød (14.0 through 13.3 ka), estimated δ18Owvalues of Mississippi River discharge from discrete core intervals range from −22‰ to −38‰ VSMOW. These values suggest a dynamic melting history of different parts of the LIS, with potential contributions to Mississippi River outflow from both the low-elevation, southern margin of the LIS and high-elevation, high-latitude domes in the LIS interior that were transported to the ablation zone. Prior to ∼15.5 ka, the δ18Owatervalue of the Mississippi River was similar to that of regional precipitation or low-latitude LIS meltwater, but the Ba concentration in the Mississippi basin was affected by changes in weathering within the watershed, complicating Ba-salinity relationships in the Gulf of Mexico. After 13 ka, our data suggest Mississippi River outflow did not influence surface salinity above our Gulf of Mexico Orca Basin core site. Rather, we hypothesize that open ocean conditions prevailed as sea level rose and the paleoshoreline at the southern edge of North America retreated northward. Article in Journal/Newspaper Ice Sheet Orca University of California: eScholarship Quaternary Science Reviews 178 102 117
institution Open Polar
collection University of California: eScholarship
op_collection_id ftcdlib
language English
description © 2017 We present a new method that quantifies the oxygen isotope geochemistry of Laurentide ice-sheet (LIS) meltwater across the last deglaciation, and reconstruct decadal-scale variations in the δ18O of LIS meltwater entering the Gulf of Mexico between ∼18 and 11 ka. We employ a technique that combines laser ablation ICP-MS (LA-ICP-MS) and oxygen isotope analyses on individual shells of the planktic foraminifer Orbulina universa to quantify the instantaneous δ18Owatervalue of Mississippi River outflow, which was dominated by meltwater from the LIS. For each individual O. universa shell, we measure Mg/Ca (a proxy for temperature) and Ba/Ca (a proxy for salinity) with LA-ICP-MS, and then analyze the same O. universa for δ18O using the remaining material from the shell. From these proxies, we obtain δ18Owaterand salinity estimates for each individual foraminifer. Regressions through data obtained from discrete core intervals yield δ18Owvs. salinity relationships with a y-intercept that corresponds to the δ18Owatercomposition of the freshwater end-member. Our data suggest that from 15.5 through 14.6 ka, estimated δ18Owvalues of Mississippi River discharge from discrete core intervals range from −11‰ to −21‰ VSMOW, which is consistent with δ18O values from both regional precipitation and the low-elevation, southern margin of the LIS. During the Bølling and Allerød (14.0 through 13.3 ka), estimated δ18Owvalues of Mississippi River discharge from discrete core intervals range from −22‰ to −38‰ VSMOW. These values suggest a dynamic melting history of different parts of the LIS, with potential contributions to Mississippi River outflow from both the low-elevation, southern margin of the LIS and high-elevation, high-latitude domes in the LIS interior that were transported to the ablation zone. Prior to ∼15.5 ka, the δ18Owatervalue of the Mississippi River was similar to that of regional precipitation or low-latitude LIS meltwater, but the Ba concentration in the Mississippi basin was affected by changes in weathering within the watershed, complicating Ba-salinity relationships in the Gulf of Mexico. After 13 ka, our data suggest Mississippi River outflow did not influence surface salinity above our Gulf of Mexico Orca Basin core site. Rather, we hypothesize that open ocean conditions prevailed as sea level rose and the paleoshoreline at the southern edge of North America retreated northward.
format Article in Journal/Newspaper
author Vetter, L
Spero, HJ
Eggins, SM
Williams, C
Flower, BP
spellingShingle Vetter, L
Spero, HJ
Eggins, SM
Williams, C
Flower, BP
Oxygen isotope geochemistry of Laurentide ice-sheet meltwater across Termination I
author_facet Vetter, L
Spero, HJ
Eggins, SM
Williams, C
Flower, BP
author_sort Vetter, L
title Oxygen isotope geochemistry of Laurentide ice-sheet meltwater across Termination I
title_short Oxygen isotope geochemistry of Laurentide ice-sheet meltwater across Termination I
title_full Oxygen isotope geochemistry of Laurentide ice-sheet meltwater across Termination I
title_fullStr Oxygen isotope geochemistry of Laurentide ice-sheet meltwater across Termination I
title_full_unstemmed Oxygen isotope geochemistry of Laurentide ice-sheet meltwater across Termination I
title_sort oxygen isotope geochemistry of laurentide ice-sheet meltwater across termination i
publisher eScholarship, University of California
publishDate 2017
url http://www.escholarship.org/uc/item/292234zr
op_coverage 102 - 117
genre Ice Sheet
Orca
genre_facet Ice Sheet
Orca
op_source Vetter, L; Spero, HJ; Eggins, SM; Williams, C; & Flower, BP. (2017). Oxygen isotope geochemistry of Laurentide ice-sheet meltwater across Termination I. Quaternary Science Reviews, 178, 102 - 117. doi:10.1016/j.quascirev.2017.10.007. UC Davis: Retrieved from: http://www.escholarship.org/uc/item/292234zr
op_relation qt292234zr
http://www.escholarship.org/uc/item/292234zr
op_rights public
op_doi https://doi.org/10.1016/j.quascirev.2017.10.007
container_title Quaternary Science Reviews
container_volume 178
container_start_page 102
op_container_end_page 117
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