Northwest Atlantic EOF-Based Temperature and Salinity Climatology

Climatological relationships which allow transformations among several common oceanographic variables have been developed for the Northwest Atlantic Ocean from profiles of temperature and salinity extracted from the Navy's Master Oceanographic Observation Data Set (MOODS). All pairs of temperat...

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Bibliographic Details
Main Authors: Carnes, M. R., Teague, W. J.
Other Authors: NAVAL OCEANOGRAPHIC AND ATMOSPHERIC RESEARCH LAB STENNIS SPACE CENTER MS
Format: Text
Language:English
Published: 1990
Subjects:
Physical and Dynamic Oceanography
*COMPRESSION
MATHEMATICAL MODELS
DATA PROCESSING
MEASUREMENT
TEMPERATURE
OPTIMIZATION
ENVIRONMENTS
DYNAMICS
VARIABLES
VARIATIONS
REGRESSION ANALYSIS
OCEANOGRAPHIC DATA
PROFILES
VERTICAL ORIENTATION
ERRORS
INTERPOLATION
LEAST SQUARES METHOD
COVARIANCE
ALTIMETERS
SALINITY
CLIMATOLOGY
AMPLITUDE
SURFACE TEMPERATURE
SEA WATER
OCEAN MODELS
HEIGHT
DIGITAL SIMULATION
ORTHOGONALITY
FUNCTIONS(MATHEMATICS)
OCEANOGRAPHY
DATA BASES
MOODS DATA SHEET
PE63207N
WUDN259001
Northwest Atlantic
Online Access:http://www.dtic.mil/docs/citations/ADA230214
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA230214
Description
Summary:Climatological relationships which allow transformations among several common oceanographic variables have been developed for the Northwest Atlantic Ocean from profiles of temperature and salinity extracted from the Navy's Master Oceanographic Observation Data Set (MOODS). All pairs of temperature and salinity profiles extending from the surface to at least 100 m were edited and then extended to 2000 m by optimal interpolation. Profiles from the Generalized Digital Environmental Model (GDEM) climatology were used as the assumed mean, and the between-depth temperature and salinity covariances were derived from the data set. Empirical Orthogonal Functions (EOFs) of the temperature and salinity vertical structure were computed from the extended data set. Each profile was then compressed to the amplitudes of the first three EOFs. The error variance for profiles reconstructed from the first three EOFs is only 4% of original profile variance (computed over the entire data set). Step-wise least-squares regression among temperature and salinity EOF amplitudes, dynamic heights, and surface temperature were used to construct several relationships: temperature or salinity amplitudes as a function of dynamic height (which may be derived from an altimeter measurement), temperature (salinity) EOF amplitudes are derived using the regression relationships, and the temperature (salinity) profile can then be constructed as the sum of the products of corresponding amplitudes and EOFs. Errors in derived profiles (or heights) were evaluated over all profiles in the original data set. Keywords: Sea water temperature, Oceanographic data processing, Ocean models.

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