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Summary
This directory contains a "quick-look" hindcast of the Indian Ocean
wind-driven circulation from a numerical ocean model being run at USF
using near-real-time observed winds. The model products are produced
under support from the Office of Naval Research and the National
Science Foundation Chemical Oceanography Program. The model is that
described in Jensen ... (1991) as modified by Jorge Capella to include a
finer spatial resolution, an improved bathymetry, and an extended
domain. The present version of the model has 4 layers, with the
horizontal pressure gradient assumed to vanish in the lowest layer
(the reduced gravity approximation). The mean layer depths are: layer
1: 0 - 200 m; layer 2: 200 - 450 m; layer 3: 450 - 850 m. The model
domain covers the Indian Ocean basin from 30 degrees S to 26 degrees N
and from 35 degrees E to 120 degrees E at a resolution of 1/12 degree
in latitude and longitude. A 20-year integration, driven by
climatological monthly mean winds from the FSU analysis, has been used
to "spin-up" the model. Using the end of this 20-year integration as
an initial condition, the model was run using the FSU monthly mean
real-time winds for the period January 1977 through December
1991. This integration has been updated through the 16th of the most
recently ended month using the FSU "quick-look" winds to provide a
near-real- time estimate of conditions in the Indian Ocean. Model
output and images are available via anonymous ftp to
ftp://kelvin.marine.usf.edu

The wind stress fields used to drive the ocean model are compiled by
David Legler and Jim O'Brien at Florida State University. Monthly
mean wind fields are derived from all volunteer observing fleet ship
reports that are received during each month via the GTS. The fields
consist of monthly mean pseudostress (vector wind times wind speed)
components objectively analyzed on a 1 degree by 1 degree grid using
the method of Legler et al. (1988). About 6 months after the end of
the year, all the monthly mean fields are re- analyzed using
additional data that is received in "delayed-mode" to produce a
research-grade product. These data now cover the period from January
1977 through the end of the most recent month and are available on the
Internet via anonymous ftp to ftp://coaps.fsu.edu (128.186.157.25).

Link for more data set information:
http://ompl.marine.usf.edu/ndnocn/index.html

[Summary Extracted from documentation authored by Mark E. Luther,
Zaihua Ji, and Haihua Liu http://ompl.marine.usf.edu/ndnocn/Info.html]

Geographic Coverage Spatial coordinates   

N: 26.0

S: -30.0

E: 120.0

W: 35.0

Temporal Coverage

Start Date: 1977-01-01

Location Keywords

OCEAN > INDIAN OCEAN

Science Keywords

OCEANS > BATHYMETRY/SEAFLOOR TOPOGRAPHY > WATER DEPTH OCEANS > OCEAN CIRCULATION > OCEAN CURRENTS OCEANS > OCEAN CIRCULATION > WIND-DRIVEN CIRCULATION OCEANS > OCEAN WINDS > SURFACE WINDS OCEANS > OCEAN WINDS > WIND STRESS > PSEUDOSTRESS

ISO Topic Category

OCEANS ELEVATION

Ancillary Keywords

ARABIAN CIRCULATION GIF HINDCAST IDN_NODE: GSFC/USF/DMS NCAR PSEUDOSTRESS

Originating Center

USF/DMS

Data Center

College of Marine Science, University of South Florida Data Center URL: http://www.marine.usf.edu/ Dataset ID: ARAB.GIF AND FULL.GIF Dataset ID: DAT Dataset ID: MOVIES Dataset ID: NCAR Data Center Personnel Name: MARK E. LUTHER Phone: (727)553-1528 Email: luther at marine.usf.edu Contact Address: University of South Florida St. Petersburg Campus 140 Seventh Avenue S. City: St. Petersburg Province or State: FL Postal Code: 33701 Country: USA

Distribution

Distribution Media: On-line ftp

Personnel

KATHY CHEN Role: INVESTIGATOR Contact Address: Department of Marine Sciences University of South Florida 140 Seventh Avenue South City: St. Petersburg Province or State: FL Postal Code: 33701-5016 Country: USA ZAIHUA JI Role: INVESTIGATOR Phone: (303)-497-1819 Fax: (303)-497-1291 Email: zji at ucar.edu Contact Address: National Center for Atmospheric Research CISL/DSS P.O. Box 3000 City: Boulder Province or State: CO Postal Code: 80307 Country: U.S.A. MARK E. LUTHER Role: INVESTIGATOR Phone: (727)553-1528 Email: luther at marine.usf.edu Contact Address: University of South Florida St. Petersburg Campus 140 Seventh Avenue S. City: St. Petersburg Province or State: FL Postal Code: 33701 Country: USA

Related URL

Link: VIEW RELATED INFORMATION Description: University of South Florida Ocean Modeling and Prediction Laboratory

Publications/References
Jensen, T., 1991: Modelling the seasonal undercurrents in the Somali
Current system, J. Geophys. Res., 96, 22,151-22,168.

Legler, D. M., I. M. Navon, and J. J. O'Brien, 1988: Objective
Analysis of pseudostress over the Indian Ocean using a
direct-minimization approach, Mon. Wea. Rev., 117, 709- 720.

Luther, M. E., and J. J. O'Brien, 1985. A ... model of the seasonal
circulation in the Arabian Sea forced by observed winds. Prog.
Oceanogr., 14, 353-385.

Luther, M. E., and J. J. O'Brien, 1989. Modelling the variability in
the Somali Current, Mesoscale/Synoptic Coherent Structures in
Geophysical Turbulence, J.C.J. Nihoul and B. M. Jamart, eds., pp.
373-386.

Luther, M. E., J. J. O'Brien and A. H. Meng, 1985. Morphology of the
Somali Current System during the southwest monsoon. In: J. C. J.
Nihoul (Editor), Coupled Ocean- Atmosphere Models, Elsevier,
Amsterdam, pp. 405-437.

Luther, M. E., J. J. O'Brien, and W. L. Prell, 1990: Variability in
upwelling fields in the northwestern Indian Ocean over the past 18,000
years; 1, Model experiments, Paleoceanogr., 5, 433-445.

Potemra, J. T., M. E. Luther, and J. J. O'Brien, 1991: The seasonal
circulation of the upper ocean in the Bay of Bengal, J. Geophys. Res.,
96, 12 667-12 684.

Simmons, R. C., M. E. Luther, J. J. O'Brien and D. M. Legler, 1988:
Verification of a numerical model of the Arabian Sea. J. Geophys.
Res. - Oceans, 93, 15 437-15 455.

Creation and Review Dates

Last DIF Revision Date: 2008-03-03

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