Where Three Oceans Meet: Nitrate Isotope Measurements from the South Atlantic Along 34.5°S

The South Atlantic is an important conduit for water of Southern Ocean, North Atlantic, and Indian Ocean origin. Paired nitrate isotope measurements of \(\gamma\)\(^{15}\)N and \(\gamma\)\(^{18}\)O reveal signals of distant denitrification, N\(_{2}\) fixation, and remineralization of organic matter,...

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Bibliographic Details
Main Author: Campbell, Ethan C.
Other Authors: Sigman, Daniel M., Bender, Michael L.
Format: Bachelor Thesis
Language:English
Published: 2016
Subjects:
Indian
Pacific
Southern Ocean
NADW
North Atlantic Deep Water
North Atlantic
Online Access:http://arks.princeton.edu/ark:/88435/dsp01j3860941p
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spelling ftprincetonuniv:oai:dataspace.princeton.edu:88435/dsp01j3860941p 2023-05-15T17:13:52+02:00 Where Three Oceans Meet: Nitrate Isotope Measurements from the South Atlantic Along 34.5°S Campbell, Ethan C. Sigman, Daniel M. Bender, Michael L. 2016-05-03 67 pages http://arks.princeton.edu/ark:/88435/dsp01j3860941p en_US eng http://arks.princeton.edu/ark:/88435/dsp01j3860941p Princeton University Senior Theses 2016 ftprincetonuniv 2022-04-10T20:58:37Z The South Atlantic is an important conduit for water of Southern Ocean, North Atlantic, and Indian Ocean origin. Paired nitrate isotope measurements of \(\gamma\)\(^{15}\)N and \(\gamma\)\(^{18}\)O reveal signals of distant denitrification, N\(_{2}\) fixation, and remineralization of organic matter, as well as local processes. Lowered \(\delta\)(15–18) ( \(\gamma\)\(^{15}\)N- \(\gamma\)\(^{18}\)O) within Agulhas leakage observed across the Cape Basin indicate the transport of distinct signatures of Indian Ocean N\(_{2}\) fixation into central and intermediate South Atlantic waters. This represents a potential novel paleoproxy of Indian-Atlantic exchange within sediment and microfossil records of \(\gamma\)\(^{15}\)N. Additionally, the hydrographic and isotopic properties of Lower Circumpolar Deep Water (LCDW), North Atlantic Deep Water (NADW), and Upper Circumpolar Deep Water (UCDW) are compared with observations of these water masses from the Southern Ocean, Pacific Ocean, and North Atlantic. Mass balance calculations estimate the regeneration of 0.7 μM of nitrate with an average \(\gamma\)\(^{15}\)N of 4.7h within NADW flowing through the low-latitude Atlantic. Near-surface profiles show isotopic enrichment from nitrate assimilation to be consistent with a steady-state model of concurrent nutrient consumption and resupply. The N and O isotope effects of nitrate assimilation (15e and 18e) are estimated at 5.1h and 7.1h, respectively. Lastly, anomalously low values of \(\gamma\)\(^{15}\)N and \(\gamma\)\(^{18}\)O at the base of the mixed layer constitute new evidence of in-situ nitrification within a local ‘particle maximum.’ Bachelor Thesis NADW North Atlantic Deep Water North Atlantic Southern Ocean DataSpace at Princeton University Indian Pacific Southern Ocean
institution Open Polar
collection DataSpace at Princeton University
op_collection_id ftprincetonuniv
language English
description The South Atlantic is an important conduit for water of Southern Ocean, North Atlantic, and Indian Ocean origin. Paired nitrate isotope measurements of \(\gamma\)\(^{15}\)N and \(\gamma\)\(^{18}\)O reveal signals of distant denitrification, N\(_{2}\) fixation, and remineralization of organic matter, as well as local processes. Lowered \(\delta\)(15–18) ( \(\gamma\)\(^{15}\)N- \(\gamma\)\(^{18}\)O) within Agulhas leakage observed across the Cape Basin indicate the transport of distinct signatures of Indian Ocean N\(_{2}\) fixation into central and intermediate South Atlantic waters. This represents a potential novel paleoproxy of Indian-Atlantic exchange within sediment and microfossil records of \(\gamma\)\(^{15}\)N. Additionally, the hydrographic and isotopic properties of Lower Circumpolar Deep Water (LCDW), North Atlantic Deep Water (NADW), and Upper Circumpolar Deep Water (UCDW) are compared with observations of these water masses from the Southern Ocean, Pacific Ocean, and North Atlantic. Mass balance calculations estimate the regeneration of 0.7 μM of nitrate with an average \(\gamma\)\(^{15}\)N of 4.7h within NADW flowing through the low-latitude Atlantic. Near-surface profiles show isotopic enrichment from nitrate assimilation to be consistent with a steady-state model of concurrent nutrient consumption and resupply. The N and O isotope effects of nitrate assimilation (15e and 18e) are estimated at 5.1h and 7.1h, respectively. Lastly, anomalously low values of \(\gamma\)\(^{15}\)N and \(\gamma\)\(^{18}\)O at the base of the mixed layer constitute new evidence of in-situ nitrification within a local ‘particle maximum.’
author2 Sigman, Daniel M.
Bender, Michael L.
format Bachelor Thesis
author Campbell, Ethan C.
spellingShingle Campbell, Ethan C.
Where Three Oceans Meet: Nitrate Isotope Measurements from the South Atlantic Along 34.5°S
author_facet Campbell, Ethan C.
author_sort Campbell, Ethan C.
title Where Three Oceans Meet: Nitrate Isotope Measurements from the South Atlantic Along 34.5°S
title_short Where Three Oceans Meet: Nitrate Isotope Measurements from the South Atlantic Along 34.5°S
title_full Where Three Oceans Meet: Nitrate Isotope Measurements from the South Atlantic Along 34.5°S
title_fullStr Where Three Oceans Meet: Nitrate Isotope Measurements from the South Atlantic Along 34.5°S
title_full_unstemmed Where Three Oceans Meet: Nitrate Isotope Measurements from the South Atlantic Along 34.5°S
title_sort where three oceans meet: nitrate isotope measurements from the south atlantic along 34.5°s
publishDate 2016
url http://arks.princeton.edu/ark:/88435/dsp01j3860941p
geographic Indian
Pacific
Southern Ocean
geographic_facet Indian
Pacific
Southern Ocean
genre NADW
North Atlantic Deep Water
North Atlantic
Southern Ocean
genre_facet NADW
North Atlantic Deep Water
North Atlantic
Southern Ocean
op_relation http://arks.princeton.edu/ark:/88435/dsp01j3860941p
_version_ 1766071053352697856

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