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Subtropical atlantic climate studies: introduction.

R L Molinari, G A Maul, F Chew

    Science (New York, N.Y.)
    |January 18, 1985
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    Intensive monitoring of the Florida Current over two years used direct and indirect systems. This research introduces findings on temperature and volume transport in this vital oceanographic pathway.

    Area of Science:

    • Oceanography
    • Physical Oceanography
    • Marine Monitoring

    Background:

    • The Florida Current is a significant western boundary current.
    • Understanding its dynamics is crucial for climate and marine ecosystems.
    • Previous monitoring efforts provided limited temporal and spatial data.

    Purpose of the Study:

    • To introduce a comprehensive dataset from a 2-year intensive monitoring program of the Florida Current.
    • To present results on temperature and volume transport.
    • To establish a baseline for future oceanographic studies.

    Main Methods:

    • Employed direct observing systems, including ship-deployed current profilers and moored current meters.
    • Utilized indirect observing systems such as coastal tide gauge stations, bottom pressure gauge arrays, a submarine cable, acoustic arrays, and radar installations.

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  • Collected data on temperature and volume transport.
  • Main Results:

    • Detailed measurements of temperature variations were obtained.
    • Volume transport through the Florida Current was quantified over the monitoring period.
    • Data integration from diverse observing systems provided a robust dataset.

    Conclusions:

    • The 2-year monitoring program successfully captured key oceanographic parameters of the Florida Current.
    • The collected data provides valuable insights into the current's variability.
    • This study serves as a foundation for further research into the Florida Current's role in ocean circulation.