served from IRI/LDEO Climate Data Library

*Time*(time)- grid: /T (months since 1960-01-01) ordered (0000 16 Sep 1960) to (0000 16 Sep 1961) by 1.0 N= 13 pts :grid
*Longitude*(longitude)- grid: /X (degree_east) ordered (0) to (0) by 4.0 N= 91 pts :grid
*Latitude*(latitude)- grid: /Y (degree_north) ordered (59.5S) to (59.5N) by 1.0 N= 120 pts :grid

*bufferwordsize*- 8
*CE*- null
*CS*- null
*datatype*- doublearraytype
*missing_value*- NaN
*units*- 1.76283229043234×10
^{-09}meter radian^{2}east year^{3} *history*- $integral dX$ detrended-bfl $integral dY$ $integral dT$ $integral dT$ detrended-bfl [ IGOSS TOPEX NOAA ssha ]
- Monthly mean sea surface height anomaly.
**USA**

$integral dT$ [ $integral dX$ detrended-bfl $integral dY$ $integral dT$ $integral dT$ detrended-bfl ( IGOSS TOPEX NOAA ssha ) climatology ]- Averaged over T2[16 Sep 1992 - 15 Sep 1993, 16 Sep 2000 - 15 Sep 2001] minimum 0.0% data present

- Monthly mean sea surface height anomaly.

Last updated: *Wed, 13 Feb 2019 20:27:28 GMT*

T | X | Y | |

$integral dT$ [ $integral dX$ detrended-bfl $integral dY$ $integral dT$ $integral dT$ detrended-bfl ( IGOSS TOPEX NOAA ssha ) climatology ][ X Y T |] | M | M | M |
---|

- Monthly Climatology calculates a monthly climatology by averaging over all years.
- anomalies calculates the difference between the (above) monthly climatology and the original data.
- Integrate along X Y T
- Differentiate along X Y T
- Take differences along X Y T

RMS (root mean square with mean *not* removed) over X Y T | X Y X T Y T | X Y T |

RMSA (root mean square with mean removed) over X Y T | X Y X T Y T | X Y T |

Maximum over X Y T | X Y X T Y T | X Y T |

Minimum over X Y T | X Y X T Y T | X Y T |

Detrend (best-fit-line) over X Y T | X Y X T Y T | X Y T |

Note on units