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    3H and 3He in the Beta Triangle: Observations of Gyre Ventilation and Oxygen Utilization Rates

    Source: Journal of Physical Oceanography:;1987:;Volume( 017 ):;issue: 006::page 763
    Author:
    Jenkins, William J.
    DOI: 10.1175/1520-0485(1987)017<0763:AITBTO>2.0.CO;2
    Publisher: American Meteorological Society
    Abstract: Isopycnal maps of 3H?3He age (τ) with about 100 km resolution have been obtained for a 1000-km scale area in the eastern subtropical North Atlantic. The midscale texture of the maps is consistent with isopycnal diffusivities of order 500 m?2 s?1. Analysis of the distributions within the context of advection-diffusion equations reveals that the larger scale 3H?3He age gradients observed within the area are not seriously affected by mixing on those surfaces that outcrop in the region of Ekman downwelling. Thus, isopycnal velocities can be estimated from 1/?τ, but record only the velocity component normal to the outcrop. The velocities thus obtained agree well with geostrophic estimates, although the comparison is flawed by the fundamental mismatch in timescales between the two techniques. Backward extrapolation of the maps to zero-age outcrop positions indicate that the contribution of unventilated, older, recirculated water to the gyre flow above 600 m depth is small in this area (no more than 20%). Ventilation of these density horizons thus is two to three times greater than inferred from Ekman pumping alone. A simple argument concerning the interaction of large scale flow with the topography of the depth of winter mixing shows that it is consistent with this process being a primary ventilation/subduction process for the subtropical gyre thermocline. Advection?diffusion analysis of the AOU distributions on these surfaces indicates that oxygen utilization rates may be estimated using δAOU/δτ to an accuracy of order 10%. Such estimates appear consistent with previous work, and curvature in the AOU versus τ relationship may be a reflection of a southeastward increase in surface primary productivity.
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      3H and 3He in the Beta Triangle: Observations of Gyre Ventilation and Oxygen Utilization Rates

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    contributor authorJenkins, William J.
    date accessioned2017-06-09T14:48:23Z
    date available2017-06-09T14:48:23Z
    date copyright1987/06/01
    date issued1987
    identifier issn0022-3670
    identifier otherams-27183.pdf
    identifier urihttp://onlinelibrary.yabesh.ir/handle/yetl/4164160
    description abstractIsopycnal maps of 3H?3He age (τ) with about 100 km resolution have been obtained for a 1000-km scale area in the eastern subtropical North Atlantic. The midscale texture of the maps is consistent with isopycnal diffusivities of order 500 m?2 s?1. Analysis of the distributions within the context of advection-diffusion equations reveals that the larger scale 3H?3He age gradients observed within the area are not seriously affected by mixing on those surfaces that outcrop in the region of Ekman downwelling. Thus, isopycnal velocities can be estimated from 1/?τ, but record only the velocity component normal to the outcrop. The velocities thus obtained agree well with geostrophic estimates, although the comparison is flawed by the fundamental mismatch in timescales between the two techniques. Backward extrapolation of the maps to zero-age outcrop positions indicate that the contribution of unventilated, older, recirculated water to the gyre flow above 600 m depth is small in this area (no more than 20%). Ventilation of these density horizons thus is two to three times greater than inferred from Ekman pumping alone. A simple argument concerning the interaction of large scale flow with the topography of the depth of winter mixing shows that it is consistent with this process being a primary ventilation/subduction process for the subtropical gyre thermocline. Advection?diffusion analysis of the AOU distributions on these surfaces indicates that oxygen utilization rates may be estimated using δAOU/δτ to an accuracy of order 10%. Such estimates appear consistent with previous work, and curvature in the AOU versus τ relationship may be a reflection of a southeastward increase in surface primary productivity.
    publisherAmerican Meteorological Society
    title3H and 3He in the Beta Triangle: Observations of Gyre Ventilation and Oxygen Utilization Rates
    typeJournal Paper
    journal volume17
    journal issue6
    journal titleJournal of Physical Oceanography
    identifier doi10.1175/1520-0485(1987)017<0763:AITBTO>2.0.CO;2
    journal fristpage763
    journal lastpage783
    treeJournal of Physical Oceanography:;1987:;Volume( 017 ):;issue: 006
    contenttypeFulltext
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    DSpace software copyright © 2002-2015  DuraSpace
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