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Editorial Type:
Article
Article Type:
Research Article

Transient Gulf Stream Meandering. Part I: An Observational Experiment

A. R. RobinsonCenter for Earth and Planetary Physics, Harvard University, Cambridge, Mass. 02138

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J. R. LuytenWoods Hole Oceanographic Institution, Woods Hole, Mass. 02543

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F. C. FuglisterWoods Hole Oceanographic Institution, Woods Hole, Mass. 02543

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Print Publication:
01 Apr 1974
DOI:
https://doi.org/10.1175/1520-0485(1974)004<0237:TGSMPI>2.0.CO;2
Page(s):
237–255
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Abstract

The results from an observational experiment on the mesoscale space-time variability of the Gulf Stream are reported. Various techniques, including aerial surveys, ship trackings of the 15C isotherm at 200 m, drogues and moored current meters were used and are compared, to give estimates of the variability of the motion over a wide range of scales. A two-week time series of daily tracks of the Stream near 70W are used to interpolate instantaneous paths over 2° of longitude. These paths provide the first detailed information on the small-scale variability of the path indicator of the Gulf Stream northeast of Cape Hatteras. Similarly, the long time series of triweekly aerial surveys provides a detailed picture of the evolution of a large-scale meander.

Abstract

The results from an observational experiment on the mesoscale space-time variability of the Gulf Stream are reported. Various techniques, including aerial surveys, ship trackings of the 15C isotherm at 200 m, drogues and moored current meters were used and are compared, to give estimates of the variability of the motion over a wide range of scales. A two-week time series of daily tracks of the Stream near 70W are used to interpolate instantaneous paths over 2° of longitude. These paths provide the first detailed information on the small-scale variability of the path indicator of the Gulf Stream northeast of Cape Hatteras. Similarly, the long time series of triweekly aerial surveys provides a detailed picture of the evolution of a large-scale meander.

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