Model Parameters of Maximum Likelihood Estimates of Temperatures using Data from the Hadley Centre and the Climate Research Unit (Version 1.2)

Calvert, Bruce

Model Parameters of Maximum Likelihood Estimates of Temperatures using Data from the Hadley Centre and the Climate Research Unit (Version 1.2)

hdl:21.14106/3d3b87d3342619d57ab19cb82344fabc9b03d163

Calvert, Bruce

Dataset

Summary: This dataset consists of model parameters used to estimate the HadCRU_MLE_v1.2 dataset. Users are encouraged to read the supporting information of the referenced journal article to fully understand the meanings of these model parameters. Results of sensitivity tests using alternate sea ice source datasets from the Japanese Meteorological Agency (COBE-SST2) and the National Snow and Ice Data Center (modified G10010v2 appended with G02202v4) are also available.
Project: HadCRU_MLE (Maximum Likelihood Estimates of Temperatures using Data from the Hadley Centre and the Climate Research Unit)
Additional Information: Text File describing Updated Code of Maximum Likelihood Estimates of Temperatures using Data from the Hadley Centre and the Climate Research Unit (Version 1.2)
Code of Maximum Likelihood Estimates of Temperatures using Data from the Hadley Centre and the Climate Research Unit (Version 1.2)
Use constraints: Creative Commons Attribution 4.0 International (CC BY 4.0) (https://creativecommons.org/licenses/by/4.0/)
Data Catalog: World Data Center for Climate
Access constraints: registered users
Size: 427.52 MiB (448291859 Byte)
Format: NetCDF
Status: completely archived
Creation Date: 2024-03-01
Future Review Date: 2034-03-04
Download Permission: Please login to check permission and download options

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Cite as: [ Derived from parent entry - See data hierarchy tab ]
Calvert, Bruce (2024). Maximum Likelihood Estimates of Temperatures using Data from the Hadley Centre and the Climate Research Unit (Version 1.2). World Data Center for Climate (WDCC) at DKRZ. https://doi.org/10.26050/WDCC/HadCRU_MLE_v1.2

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Accuracy report

The quality of this dataset has been approved by Bruce T. T. Calvert on February 19, 2024. This dataset is a further derived product (classifying as a...

Description: The quality of this dataset has been approved by Bruce T. T. Calvert on February 19, 2024. This dataset is a further derived product (classifying as a level 4 data processing level) derived from various source datasets, including land surface air temperature anomalies of HadCRUT5, sea surface temperature anomalies of HadSST4, sea ice coverage of HadISST2, land mask data of OSTIAv2, the surface temperature climatology of Jones et al. (1999), the sea surface temperature climatology of HadSST3, surface elevation data of GMTED2010, and climate model output of CCSM4 for a pre-industrial control simulation. Sensitivity tests of HadCRU_MLE_v1.2 use alternate sea ice source datasets (COBE-SST2, G10010v2, and G02202v4). These source datasets either have had extensive quality control or are themselves further derived products based on source datasets that have had extensive quality control.

Completeness report

There are no missing values for estimated model parameters. In general, model parameters do not have spatial or temporal dimensions, although some par...

Description: There are no missing values for estimated model parameters. In general, model parameters do not have spatial or temporal dimensions, although some parameters in the temperature anomaly model have associated months.

	Variable	Unit
	Amplification Function Parameters	1
	Climatology Function Parameters	1
	Covariance Matrix of Maximum Likelihood Estimate of Parameters [B;r;k;z]	1
	Covariance Matrix of Maximum Likelihood Estimate of Parameters [f;r;k;z;p]	1
	Internal Variability Pattern Indices	degree_Celsius
	Lower Bound of 95% Confidence Interval of Amplification Function Parameters	1
	Lower Bound of 95% Confidence Interval of Climatology Function Parameters	1
	Lower Bound of 95% Confidence Interval of Internal Variability Pattern Indices	degree_Celsius
	Lower Bound of 95% Confidence Interval of Spatial Correlation Parameter	1
	Lower Bound of 95% Confidence Interval of Spatial Correlation Parameters	1
	Lower Bound of 95% Confidence Interval of Temporal Correlation Parameter	1
	Lower Bound of 95% Confidence Interval of Theta	degree_Celsius
	Lower Bound of 95% Confidence Interval of Theta and Internal Variability Pattern Indices	degree_Celsius
	Lower Bound of 95% Confidence Interval of Variance Parameters	1
	Maximum Likelihood Estimate of Amplification Function Parameters	1
	Maximum Likelihood Estimate of Climatology Function Parameters	1
	Maximum Likelihood Estimate of Internal Variability Pattern Indices	degree_Celsius
	Maximum Likelihood Estimate of Spatial Correlation Parameter	1
	Maximum Likelihood Estimate of Spatial Correlation Parameters	1
	Maximum Likelihood Estimate of Temporal Correlation Parameter	1
	Maximum Likelihood Estimate of Theta	degree_Celsius
	Maximum Likelihood Estimate of Theta and Internal Variability Pattern Indices	degree_Celsius
	Maximum Likelihood Estimate of Variance Parameters	1
	Median Estimate of Amplification Function Parameters	1
	Median Estimate of Climatology Function Parameters	1
	Median Estimate of Internal Variability Pattern Indices	degree_Celsius
	Median Estimate of Spatial Correlation Parameter	1
	Median Estimate of Spatial Correlation Parameters	1
	Median Estimate of Temporal Correlation Parameter	1
	Median Estimate of Theta	degree_Celsius
	Median Estimate of Theta and Internal Variability Pattern Indices	degree_Celsius
	Median Estimate of Variance Parameters	1
	Spatial Correlation Parameter	1
	Spatial Correlation Parameters	1
	Temporal Correlation Parameter	1
	Theta	degree_Celsius
	Theta and Internal Variability Pattern Indices	degree_Celsius
	Upper Bond of 95% Confidence Interval of Amplification Function Parameters	1
	Upper Bond of 95% Confidence Interval of Climatology Function Parameters	1
	Upper Bond of 95% Confidence Interval of Internal Variability Pattern Indices	degree_Celsius
	Upper Bond of 95% Confidence Interval of Spatial Correlation Parameter	1
	Upper Bond of 95% Confidence Interval of Spatial Correlation Parameters	1
	Upper Bond of 95% Confidence Interval of Temporal Correlation Parameter	1
	Upper Bond of 95% Confidence Interval of Theta	degree_Celsius
	Upper Bond of 95% Confidence Interval of Theta and Internal Variability Pattern Indices	degree_Celsius
	Upper Bond of 95% Confidence Interval of Variance Parameters	1
	Variance Parameters	1

Parent

Maximum Likelihood Estimates of Temperatures using Data from the Hadley Centre and the Climate Research Unit (Version 1.2)

Details

Parent project(s)

Maximum Likelihood Estimates of Temperatures using Data from the Hadley Centre and the Climate Research Unit

[Entry acronym: HadCRU_MLE_ModPar_v1.2] [Entry id: 5275105]