data: $integral dT$ root mean sq detrended-bfl $integral dX$ [ UEA CRU TS3p21 monthly tmx ]

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∫dT root mean sq detrended-bfl ∫dX [ UEA CRU TS3p21 monthly tmx ] : near-surface temperature maximum data

∫dT root mean sq detrended-bfl ∫dX [ UEA CRU TS3p21 monthly tmx ] .

Independent Variables (Grids)

Time (time): grid: /T (months since 1960-01-01) ordered (0000 1 Jan 1901) to (0000 1 Jan 2013) by 1.0 N= 1345 pts :grid
Longitude (longitude): grid: /X (degree_east) ordered (180W) to (180) by 0.5 N= 721 pts :grid

Other Info

bufferwordsize

CE

null

correlation_decay_distance

1200.0

CS

null

datatype

doublearraytype

file_missing_value

9.96920997E36

missing_value

NaN

pointwidth

standard_name

air_temperature

units

0.00145444104332861 ( degree_Kelvin above 273.15 ) radian east year

history

$integral dT$ root mean sq detrended-bfl $integral dX$ [ UEA CRU TS3p21 monthly tmx ]

Wed 10 Jul 2013 18:28:10 BST : User ianharris : Program makegridsauto.for called by update.for
Averaged over Y[90S, 90N] minimum 0.0% data present

References

Harris_etal2013

Last updated: Fri, 26 Jul 2024 12:21:16 GMT

Data Views

	T	X
$integral dT$ root mean sq detrended-bfl $integral dX$ [ UEA CRU TS3p21 monthly tmx ] [ X \| T]	M	M

Filters

Here are some filters that are useful for manipulating data. There are actually many more available, but they have to be entered manually. See Ingrid Function Documentation for more information.

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 T
Differentiate along X T
Take differences along X T

Average over X T | X T |
RMS (root mean square with mean *not* removed) over X T | X T |
RMSA (root mean square with mean removed) over X T | X T |
Maximum over X T | X T |
Minimum over X T | X T |
Detrend (best-fit-line) over X T | X T |

Note on units