Statistical properties of the surface velocity field in the northern Gulf of Mexico sampled by GLAD drifters

Statistical properties of the surface velocity field in the northern Gulf of Mexico sampled by GLAD drifters

The Grand LAgrangian Deployment (GLAD) used multiscale sampling and GPS technology to observe time series of drifter positions with initial drifter separation of O(100 m) to O(10 km), and nominal 5 min sampling, during the summer and fall of 2012 in the northern Gulf of Mexico. Histograms of the vel...

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Veröffentlicht in:Journal of geophysical research. Oceans 2016-07, Vol.121 (7), p.5193-5216
Hauptverfasser: Mariano, A. J., Ryan, E. H., Huntley, H. S., Laurindo, L.C., Coelho, E., Griffa, A., Özgökmen, T. M., Berta, M., Bogucki, D., Chen, S. S., Curcic, M., Drouin, K.L., Gough, M., Haus, B. K., Haza, A. C., Hogan, P., Iskandarani, M., Jacobs, G., Kirwan, A. D., Laxague, N., Lipphardt, B., Magaldi, M. G., Novelli, G., Reniers, A., Restrepo, J. M., Smith, C., Valle‐Levinson, A., Wei, M.
Format: Artikel
Sprache:eng
Schlagworte:
Autocorrelation
Autocorrelation function
Banks (topography)
Bifurcations
Buoys
Coastal zone
Data buoys
Data processing
Deployment
Diffusion coefficients
Diffusivity
Drift
Drifters
Eddies
Folding
Geophysics
GLAD drifters
Global positioning systems
GPS
Gulf of Mexico
Histograms
Hurricanes
Inertial oscillations
Offshore
Oscillations
Rotation
Sampling
Satellite navigation systems
Sea breezes
Slope
Statistical methods
Statistics
Surface velocity
surface velocity statistics
Technology
Tides
Time
Topography
Topography (geology)
Variability
Variance
Velocity
Vortices
Wind
Winds
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Zusammenfassung:The Grand LAgrangian Deployment (GLAD) used multiscale sampling and GPS technology to observe time series of drifter positions with initial drifter separation of O(100 m) to O(10 km), and nominal 5 min sampling, during the summer and fall of 2012 in the northern Gulf of Mexico. Histograms of the velocity field and its statistical parameters are non‐Gaussian; most are multimodal. The dominant periods for the surface velocity field are 1–2 days due to inertial oscillations, tides, and the sea breeze; 5–6 days due to wind forcing and submesoscale eddies; 9–10 days and two weeks or longer periods due to wind forcing and mesoscale variability, including the period of eddy rotation. The temporal e‐folding scales of a fitted drifter velocity autocorrelation function are bimodal with time scales, 0.25–0.50 days and 0.9–1.4 days, and are the same order as the temporal e‐folding scales of observed winds from nearby moored National Data Buoy Center stations. The Lagrangian integral time scales increase from coastal values of 8 h to offshore values of approximately 2 days with peak values of 3–4 days. The velocity variance is large, O(1) m2/s2, the surface velocity statistics are more anisotropic, and increased dispersion is observed at flow bifurcations. Horizontal diffusivity estimates are O(103) m2/s in coastal regions with weaker flow to O(105) m2/s in flow bifurcations, a strong jet, and during the passage of Hurricane Isaac. The Gulf of Mexico surface velocity statistics sampled by the GLAD drifters are a strong function of the feature sampled, topography, and wind forcing. Key Points Velocity statistics are heterogenous, nonstationary, non‐Gaussian, and a strong function of feature sampled, topography, & wind forcing Large velocity variance, anisotropic velocity statistics, and horizontal diffusivity values of O(105)m2/s are observed at bifurcations Fast transport pathways exist between the northern Gulf of Mexico and the southern Gulf of Mexico
ISSN:2169-9275
2169-9291
DOI:10.1002/2015JC011569