Radium-228-derived ocean mixing and trace element inputs in the South Atlantic

Trace elements (TEs) play important roles as micronutrients in modulating marine productivity in the global ocean. The South Atlantic around 40 ∘ S is a prominent region of high productivity and a transition zone between the nitrate-depleted subtropical gyre and the iron-limited Southern Ocean. Howe...

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Bibliographic Details
Published in:Biogeosciences
Main Authors: Y.-T. Hsieh, W. Geibert, E. M. S. Woodward, N. J. Wyatt, M. C. Lohan, E. P. Achterberg, G. M. Henderson
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2021
Subjects:
Ecology
QH540-549.5
Life
QH501-531
Geology
QE1-996.5
Southern Ocean
Argentine
Online Access:https://doi.org/10.5194/bg-18-1645-2021
https://doaj.org/article/66dfa5d56e934313acbc0755aa0af532
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Summary:Trace elements (TEs) play important roles as micronutrients in modulating marine productivity in the global ocean. The South Atlantic around 40 ∘ S is a prominent region of high productivity and a transition zone between the nitrate-depleted subtropical gyre and the iron-limited Southern Ocean. However, the sources and fluxes of trace elements to this region remain unclear. In this study, the distribution of the naturally occurring radioisotope 228 Ra in the water column of the South Atlantic (Cape Basin and Argentine Basin) has been investigated along a 40 ∘ S zonal transect to estimate ocean mixing and trace element supply to the surface ocean. Ra-228 profiles have been used to determine the horizontal and vertical mixing rates in the near-surface open ocean. In the Argentine Basin, horizontal mixing from the continental shelf to the open ocean shows an eddy diffusion of <math xmlns="http://www.w3.org/1998/Math/MathML" id="M4" display="inline" overflow="scroll" dspmath="mathml"><mrow><msub><mi>K</mi><mi>x</mi></msub><mo>=</mo><mn mathvariant="normal">1.8</mn><mo>±</mo><mn mathvariant="normal">1.4</mn></mrow></math> <svg:svg xmlns:svg="http://www.w3.org/2000/svg" width="69pt" height="12pt" class="svg-formula" dspmath="mathimg" md5hash="5b3549c8a00c9456492d0ff0f458c984"><svg:image xmlns:xlink="http://www.w3.org/1999/xlink" xlink:href="bg-18-1645-2021-ie00001.svg" width="69pt" height="12pt" src="bg-18-1645-2021-ie00001.png"/></svg:svg> (10 6 cm 2 s −1 ) and an integrated advection velocity <math xmlns="http://www.w3.org/1998/Math/MathML" id="M8" display="inline" overflow="scroll" dspmath="mathml"><mrow><mi>w</mi><mo>=</mo><mn mathvariant="normal">0.6</mn><mo>±</mo><mn mathvariant="normal">0.3</mn></mrow></math> <svg:svg xmlns:svg="http://www.w3.org/2000/svg" width="65pt" height="10pt" class="svg-formula" ...

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