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  • 1
    Online Resource
    Online Resource
    A new method for estimating the turbulent heat flux at the bottom of the daily mixed layer
    American Geophysical Union (AGU) ; 1988
    In:  Journal of Geophysical Research: Oceans Vol. 93, No. C11 ( 1988-11-15), p. 14005-14012
    Details
    In: Journal of Geophysical Research: Oceans, American Geophysical Union (AGU), Vol. 93, No. C11 ( 1988-11-15), p. 14005-14012
    Abstract: A new method is presented for estimating the vertical turbulent heat flux at the bottom of the daily mixed layer from the temperature data in the mixed layer and net solar irradiance data at the sea surface. We assume that fluctuations in the divergence of advective heat flux have longer than daily time scales. The method is applied to data from the eastern tropical Pacific, where the daily cycle in the temperature field is confined to the upper 10–25 m. The night‐to‐day difference of the turbulent heat flux calculated from the data obtained during nine daily cycles in November 1984 agrees well on average with the same quantity estimated from microstructure observations. The night‐to‐day difference of the turbulent heat flux, estimated at several mooring stations near the equator (an average over 100 to 300 daily cycles), varies from 120 to 220 W/m 2 with larger values on the equator. Equatorial turbulence measurements show that the turbulent heat flux is much larger during nighttime than daytime. Therefore the present estimates give approximately the nighttime average, which is the major part of the turbulent heat flux. From the daytime heat budget we obtain divergence of the low‐frequency horizontal heat advection at 1°30′S, 140°W; it is governed by equatorial mesoscale fluctuations having a predominant period of 15–20 days.
    Type of Medium: Online Resource
    ISSN: 0148-0227
    URL: Article
    DOI: 10.1029/JC093iC11p14005
    Language: English
    Publisher: American Geophysical Union (AGU)
    Publication Date: 1988
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  • 2
    Online Resource
    Online Resource
    Mixing and Intrusions in a Rotating Cold-Core Feature off Cape Blanco, Oregon
    American Meteorological Society ; 1988
    In:  Journal of Physical Oceanography Vol. 18, No. 6 ( 1988-06), p. 823-833
    Details
    In: Journal of Physical Oceanography, American Meteorological Society, Vol. 18, No. 6 ( 1988-06), p. 823-833
    Type of Medium: Online Resource
    ISSN: 0022-3670 , 1520-0485
    URL: Article
    DOI: 10.1175/1520-0485(1988)018〈0823:MAIIAR〉2.0.CO;2
    Language: English
    Publisher: American Meteorological Society
    Publication Date: 1988
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  • 3
    Online Resource
    Online Resource
    Monitoring geostrophic currents at the equator
    Elsevier BV ; 1987
    In:  Deep Sea Research Part A. Oceanographic Research Papers Vol. 34, No. 7 ( 1987-7), p. 1149-1161
    Details
    In: Deep Sea Research Part A. Oceanographic Research Papers, Elsevier BV, Vol. 34, No. 7 ( 1987-7), p. 1149-1161
    Type of Medium: Online Resource
    ISSN: 0198-0149
    URL: Article
    DOI: 10.1016/0198-0149(87)90069-0
    Language: English
    Publisher: Elsevier BV
    Publication Date: 1987
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  • 4
    Online Resource
    Online Resource
    Mixing in the equatorial surface layer and thermocline
    American Geophysical Union (AGU) ; 1989
    In:  Journal of Geophysical Research: Oceans Vol. 94, No. C2 ( 1989-02-05), p. 2005-2022
    Details
    In: Journal of Geophysical Research: Oceans, American Geophysical Union (AGU), Vol. 94, No. C2 ( 1989-02-05), p. 2005-2022
    Abstract: Twelve days of microstructure measurements at the equator (140°W) in November 1984 showed a surprisingly strong effect of both the daily cycle of solar heating and wind on mixing in the upper ocean. Because of limited variations in atmospheric forcing and currents during the experiment, processes in the daily mixing cycle were similar from day to day. Only the intensity of mixing varied. The lower boundary of the diurnal surface layer separated two distinct mixing regimes, the diurnal surface layer and the thermocline. Within the diurnal surface layer (which extended to 10‐ to 35‐m depth), turbulent kinetic energy dissipation rates ε varied relatively little. Although variations in surface layer depth coincided with the daily change in direction of air‐sea surface buoyancy production of turbulent kinetic energy (or simply, the surface buoyancy flux), ε was significantly greater relative to the buoyancy flux than was expected for a simple convective layer. In the thermocline below the diurnal surface layer, ε was highly intermittent; the day‐night cycle was stronger, and variability was enhanced by turbulent “bursts” of 2–3 hours duration, which may be related to internal wave breaking events. The turbulent heat flux crossing 20‐m depth was almost equal to the surface heat flux less the irradiance penetrating below 20 m. Seventy percent of the surface heat flux was transported vertically to the water below 30 m by turbulent mixing. Only a negligible amount penetrated to the core of the Equatorial Undercurrent. The gradient Richardson number Ri distinguishes between statistically different mixing environments. However, ε cannot be predicted from the value of Ri , since the intensity of mixing depends on the intensity of forcing in a way not specified by the value of Ri alone.
    Type of Medium: Online Resource
    ISSN: 0148-0227
    URL: Article
    DOI: 10.1029/JC094iC02p02005
    Language: English
    Publisher: American Geophysical Union (AGU)
    Publication Date: 1989
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    SSG: 16,13
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    Online Resource
  • 5
    Online Resource
    Online Resource
    In situ monitoring of ocean chlorophyll via laser-induced fluorescence backscattering through an optical fiber
    Optica Publishing Group ; 1989
    In:  Applied Optics Vol. 28, No. 3 ( 1989-02-01), p. 595-
    Details
    In: Applied Optics, Optica Publishing Group, Vol. 28, No. 3 ( 1989-02-01), p. 595-
    Type of Medium: Online Resource
    ISSN: 0003-6935 , 1539-4522
    URL: Article
    DOI: 10.1364/AO.28.000595
    Language: English
    Publisher: Optica Publishing Group
    Publication Date: 1989
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