Creator: POCLOUD
Keywords: Potential Temperature,Salinity

Data at a Glance

Description

This dataset provides daily-averaged ocean potential temperature and salinity on the native Lat-Lon-Cap 90 (LLC90) model grid from the ECCO Version 4 Release 4 (V4r4) ocean and sea-ice state estimate. Ocean and sea-ice state estimates from the 'Estimating the Circulation and Climate of the Ocean' are dynamically and kinematically-consistent reconstructions of the three-dimensional, time-evolving ocean, sea-ice, and surface atmospheric state, FLUX, and transports. ECCO V4r4 is a free-running solution of 1-degree global configuration of the MIT general circulation model (MITgcm) that has been fit to observations in a least-squares sense. V4r4 data constraints include sea surface height (SSH) from satellite altimeters [ERS-1/2, TOPEX/Poseidon, GFO, ENVISAT, Jason-1,2,3, CryoSat-2, and SARAL/AltiKa]; sea surface temperature (SST) from satellite radiometers [AVHRR], sea surface salinity (SSS) from the Aquarius satellite radiometer/scatterometer, ocean bottom pressure (OBP) from the GRACE satellite gravimeter; sea ice concentration from satellite radiometers [SSM/I and SSMIS], and in-situ ocean potential temperature and salinity measured with conductivity-temperature-depth (CTD) sensors and expendable bathythermographs (XBTs) from several programs [e.g., WOCE, GO-SHIP, Argo, and others] and platforms [e.g., research vessels, gliders, moorings, ice-tethered profilers, and instrumented pinnipeds]. V4r4 covers the period 1992-01-01T12:00:00 to 2018-01-01T00:00:00.

Product Summary

Platforms

MODELS ,

MITgcm

Spatial Extent

N: 90 S: -90 E: 180 W: -180

Spatial Resolution

1 Decimal Degrees x 1 Decimal Degrees

Location

GLOBAL OCEAN

Coordinate System

CARTESIAN

Granule Spatial Representation

CARTESIAN

Temporal Extent

1992-01-01 to 2018-01-01

Data Partner

Physical Oceanography Distributed Active Archive Center, Jet Propulsion Laboratory, NASA (NASA/JPL/PODAAC)

Concept ID

C1991543736-POCLOUD

Data State

COMPLETE

Number of Files/Granules

9497

Processing Level

Published

2021-01-01

Science Keywords

Potential Temperature ,

Salinity

Citation

Citation is critically important for dataset documentation and discovery. This dataset is openly shared, without restriction, in accordance with the EOSDIS Data Use and Citation Guidance.

Copy Citation

Select a Citation Style:

Fenty, I., & Wang, O. (2020). ECCO Ocean Temperature and Salinity - Daily Mean llc90 Grid (Version 4 release 4) [Data set]. NASA Physical Oceanography Distributed Active Archive Center. https://doi.org/10.5067/ECL5D-OTS44 Date Accessed: 2026-02-11

Documents

USER'S GUIDE

ECCO Version 4 Release 4 User Guide

ALGORITHM DOCUMENTATION

SCIENCE DATA PRODUCT SOFTWARE DOCUMENTATION

PRODUCT USAGE

Sample Plots -- gcmfaces analysis of ECCO V4, Release 4 (1992-2017)

Variables

The table below lists the variables contained within a single granule for this dataset. Variables often contain observed or derived geophysical measurements collected from a variety of sources, including remote sensing instruments on satellite and airborne platforms, field campaigns, in situ measurements, and model outputs. The terms variable, parameter, scientific data set, layer, and band have been used across NASA’s Earth science disciplines; however, variable is the designated nomenclature in NASA’s Common Metadata Repository (CMR). Variable metadata attributes such as Name, Description, Units, Data Type, Fill Value, Valid Range, and Scale Factor allow users to efficiently process and analyze the data. The full range of attributes may not be applicable to all variables. Additional information on variable attributes is typically available in the data, user guide, and/or other product documentation.

For questions on a specific variable, please use the Earthdata Forum.

Name Sort descending	Description	Units	Data Type	Fill Value	Valid Range	Scale Factor
i	In the Arakawa C-grid system, tracer (e.g., THETA) and 'v' variables (e.g., VVEL) have the same x coordinate on the model grid.	N/A	int	N/A	N/A	1
i_g	In the Arakawa C-grid system, 'u' (e.g., UVEL) and 'g' variables (e.g., XG) have the same x coordinate on the model grid.	N/A	int	N/A	N/A	1
j	In the Arakawa C-grid system, tracer (e.g., THETA) and 'u' variables (e.g., UVEL) have the same y coordinate on the model grid.	N/A	int	N/A	N/A	1
j_g	In the Arakawa C-grid system, 'v' (e.g., VVEL) and 'g' variables (e.g., XG) have the same y coordinate.	N/A	int	N/A	N/A	1
k	grid index in z for tracer variables	N/A	int	N/A	N/A	1
k_l	First index corresponds to the top surface of the uppermost tracer grid cell. The use of 'l' in the variable name follows the MITgcm convention for ocean variables in which the lower (l) face of a tracer grid cell on the logical grid corresponds to the top face of the grid cell on the physical grid.	N/A	int	N/A	N/A	1
k_p1	Includes top of uppermost model tracer cell (k_p1=0) and bottom of lowermost tracer cell (k_p1=51).	N/A	int	N/A	N/A	1
k_u	First index corresponds to the bottom surface of the uppermost tracer grid cell. The use of 'u' in the variable name follows the MITgcm convention for ocean variables in which the upper (u) face of a tracer grid cell on the logical grid corresponds to the bottom face of the grid cell on the physical grid.	N/A	int	N/A	N/A	1
SALT	Salinity	1e-3	float	9.96921E+36	167.35779 to 413.2123	1
THETA	Sea water potential temperature is the temperature a parcel of sea water would have if moved adiabatically to sea level pressure. Note: the equation of state is a modified UNESCO formula by Jackett and McDougall (1995), which uses the model variable potential temperature as input assuming a horizontally and temporally constant pressure of $p_0=-g ho_{0} z$.	degree_C	float	9.96921E+36	-29.179373 to 364.2514	1
tile	The ECCO V4 horizontal model grid is divided into 13 tiles of 90x90 cells for convenience.	N/A	int	N/A	N/A	1
time	center time of averaging period	hours since 1992-01-01T12:00:00	int	N/A	N/A	1
time_bnds	Start and end times of averaging period.	N/A	int	N/A	N/A	1
XC	nonuniform grid spacing	degrees_east	float	N/A	N/A	1
XC_bnds	Bounds array follows CF conventions. XC_bnds[i,j,0] = 'southwest' corner (j-1, i-1), XC_bnds[i,j,1] = 'southeast' corner (j-1, i+1), XC_bnds[i,j,2] = 'northeast' corner (j+1, i+1), XC_bnds[i,j,3] = 'northwest' corner (j+1, i-1). Note: 'southwest', 'southeast', northwest', and 'northeast' do not correspond to geographic orientation but are used for convenience to describe the computational grid. See MITgcm dcoumentation for details.	N/A	float	N/A	N/A	1
XG	Nonuniform grid spacing. Note: 'southwest' does not correspond to geographic orientation but is used for convenience to describe the computational grid. See MITgcm dcoumentation for details.	degrees_east	float	N/A	N/A	1
YC	nonuniform grid spacing	degrees_north	float	N/A	N/A	1
YC_bnds	Bounds array follows CF conventions. YC_bnds[i,j,0] = 'southwest' corner (j-1, i-1), YC_bnds[i,j,1] = 'southeast' corner (j-1, i+1), YC_bnds[i,j,2] = 'northeast' corner (j+1, i+1), YC_bnds[i,j,3] = 'northwest' corner (j+1, i-1). Note: 'southwest', 'southeast', northwest', and 'northeast' do not correspond to geographic orientation but are used for convenience to describe the computational grid. See MITgcm dcoumentation for details.	N/A	float	N/A	N/A	1
YG	Nonuniform grid spacing. Note: 'southwest' does not correspond to geographic orientation but is used for convenience to describe the computational grid. See MITgcm dcoumentation for details.	degrees_north	float	N/A	N/A	1
Z	Non-uniform vertical spacing.	m	float	N/A	N/A	1
Zl	First element is 0m, the depth of the top face of the first tracer grid cell (ocean surface). Last element is the depth of the top face of the deepest grid cell. The use of 'l' in the variable name follows the MITgcm convention for ocean variables in which the lower (l) face of a tracer grid cell on the logical grid corresponds to the top face of the grid cell on the physical grid. In other words, the logical vertical grid of MITgcm ocean variables is inverted relative to the physical vertical grid.	m	float	N/A	N/A	1
Zp1	Contains one element more than the number of vertical layers. First element is 0m, the depth of the upper interface of the surface grid cell. Last element is the depth of the lower interface of the deepest grid cell.	m	float	N/A	N/A	1
Zu	First element is -10m, the depth of the bottom face of the first tracer grid cell. Last element is the depth of the bottom face of the deepest grid cell. The use of 'u' in the variable name follows the MITgcm convention for ocean variables in which the upper (u) face of a tracer grid cell on the logical grid corresponds to the bottom face of the grid cell on the physical grid. In other words, the logical vertical grid of MITgcm ocean variables is inverted relative to the physical vertical grid.	m	float	N/A	N/A	1
Z_bnds	One pair of depths for each vertical level.	N/A	float	N/A	N/A	1

ECCO Ocean Temperature and Salinity - Daily Mean llc90 Grid (Version 4 Release 4)