Global Monthly Palmer Drought Severity Index (PDSI)

A global monthly data set of Palmer Drought Severity Index (PDSI) from 1870 to 2005 has been produced using historical observed surface air temperature and precipitation data for global land areas, except Antarctica and Greenland, on a 2.5 x 2.5 degree grid. Calibration (or reference) period is 1950...

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Bibliographic Details
Main Author: Dai, Dr. Aiguo
Format: Dataset
Language:unknown
Published: Regional and Global Biogeochemical Dynamics Data (RGD)
Subjects:
AIR TEMPERATURE|ANALYSIS|COMPUTER MODEL
PRECIPITATION AMOUNT|RAIN GAUGE|METEOROLOGICAL STATION
SOIL WATER HOLDING CAPACITY|ANALYSIS|COMPUTER MODEL
AIR TEMPERATURE
COMPUTER MODEL
ANALYSIS
Global (gridded)
Greenland
Webb
Moberg
Antarc*
Antarctica
Online Access:https://search.dataone.org/view/Global_Monthly_Palmer_Drought_Severity_Index_(PDSI).xml
id dataone:Global_Monthly_Palmer_Drought_Severity_Index_(PDSI).xml
record_format openpolar
institution Open Polar
collection Regional and Global Biogeochemical Dynamics Data (RGD) (via DataONE)
op_collection_id dataone:urn:node:RGD
language unknown
topic AIR TEMPERATURE|ANALYSIS|COMPUTER MODEL
PRECIPITATION AMOUNT|RAIN GAUGE|METEOROLOGICAL STATION
SOIL WATER HOLDING CAPACITY|ANALYSIS|COMPUTER MODEL
AIR TEMPERATURE
COMPUTER MODEL
ANALYSIS
Global (gridded)
spellingShingle AIR TEMPERATURE|ANALYSIS|COMPUTER MODEL
PRECIPITATION AMOUNT|RAIN GAUGE|METEOROLOGICAL STATION
SOIL WATER HOLDING CAPACITY|ANALYSIS|COMPUTER MODEL
AIR TEMPERATURE
COMPUTER MODEL
ANALYSIS
Global (gridded)
Dai, Dr. Aiguo
Global Monthly Palmer Drought Severity Index (PDSI)
topic_facet AIR TEMPERATURE|ANALYSIS|COMPUTER MODEL
PRECIPITATION AMOUNT|RAIN GAUGE|METEOROLOGICAL STATION
SOIL WATER HOLDING CAPACITY|ANALYSIS|COMPUTER MODEL
AIR TEMPERATURE
COMPUTER MODEL
ANALYSIS
Global (gridded)
description A global monthly data set of Palmer Drought Severity Index (PDSI) from 1870 to 2005 has been produced using historical observed surface air temperature and precipitation data for global land areas, except Antarctica and Greenland, on a 2.5 x 2.5 degree grid. Calibration (or reference) period is 1950-1979. The PDSI was created by Palmer (1965) with the intent to measure the cumulative departure (relative to local mean conditions) in atmospheric moisture supply and demand at the surface. It incorporates antecedent precipitation, moisture supply, and moisture demand into a hydrological accounting system. To calculate the global monthly PDSI, Climate Research Unit (CRU) surface air temperature data (Jones and Moberg, 2003 and updates) were regridded to a 2.5 x 2.5 degree grid. National Centers for Environmental Prediction (NCEP) precipitation data for 1948–2003 from about 5,000 to 16,500 rain gauges during 1948–97 and about 3,500 gauges thereafter (Chen et al., 2002) were gridded using the optimal interpolation scheme. For the pre-1948 period, precipitation data from Dai et al. (1997) were used. The monthly anomalies of Dai et al. (1997) were adjusted to have zero mean values for 1950–79 and then added to the 1950–79 mean of NCEP data to obtain the total precipitation used for the PDSI calculation. For field water-holding capacity (awc), a soil texture–based water-holding-capacity map from Webb et al. (1993) was used. The time series are thought to be reliable over most land areas. The relatively low resolution used, however, does not resolve small scale variations such as those over mountains. The global monthly PDSI data are provided by UCAR/NCAR as compressed binary, text, and netCDF files with an associated README file. Oak Ridge National Laboratory (ORNL) also provides the global monthly PDSI data set, but in GeoTiff format. ORNL converted the UCAR/NCAR data from netCDF format to GeoTIFF format. The processed GeoTIFF data were fed into ORNL DAAC Web Map Service v1.1.1 (WMS), Web Coverage Service v1.0.0 (WCS), and Spatial Data Access Tool (SDAT) to provide data visualization and distribution capabilities. Sources: Chen, M., P. Xie, J. E. Janowiak, and P. A. Arkin. 2002. Global land precipitation: A 50-yr monthly analysis based on gauge observations. J. Hydrometeor., 3, 249–266. Dai, A., K. E. Trenberth, and T. Qian. 2004. A global data set of Palmer Drought Severity Index for 1870-2002: Relationship with soil moisture and effects of surface warming. J. Hydrometeorology, 5, 1117-1130. Dai, A., I. Y. Fung, and A. D. Del Genio. 1997. Surface observed global land precipitation variations during 1900–88. J. Climate, 10, 2943–2962. Jones, P. D., and A. Moberg. 2003. Hemispheric and large-scale surface air temperature variations: An extensive revision and an update to 2001. J. Climate, 16, 206–223. Palmer, W. C. 1965. Meteorological drought. Research Paper 45, U.S. Dept. of Commerce, 58 pp. Webb, R. S., C. E. Rosenzweig, and E. R. Levine. 1993. Specifying land surface characteristics in general circulation models: Soil profile data set and derived water-holding capacities. Global Biogeochem. Cycles, 7, 97–108.
format Dataset
author Dai, Dr. Aiguo
author_facet Dai, Dr. Aiguo
author_sort Dai, Dr. Aiguo
title Global Monthly Palmer Drought Severity Index (PDSI)
title_short Global Monthly Palmer Drought Severity Index (PDSI)
title_full Global Monthly Palmer Drought Severity Index (PDSI)
title_fullStr Global Monthly Palmer Drought Severity Index (PDSI)
title_full_unstemmed Global Monthly Palmer Drought Severity Index (PDSI)
title_sort global monthly palmer drought severity index (pdsi)
publisher Regional and Global Biogeochemical Dynamics Data (RGD)
publishDate
url https://search.dataone.org/view/Global_Monthly_Palmer_Drought_Severity_Index_(PDSI).xml
op_coverage ENVELOPE(-180.0,180.0,90.0,-90.0)
BEGINDATE: 1870-01-01T00:00:00Z ENDDATE: 2005-12-31T00:00:00Z
long_lat ENVELOPE(146.867,146.867,-67.867,-67.867)
ENVELOPE(20.782,20.782,69.518,69.518)
geographic Greenland
Webb
Moberg
geographic_facet Greenland
Webb
Moberg
genre Antarc*
Antarctica
Greenland
genre_facet Antarc*
Antarctica
Greenland
_version_ 1776049818526810112
spelling dataone:Global_Monthly_Palmer_Drought_Severity_Index_(PDSI).xml 2023-09-03T20:39:50+02:00 Global Monthly Palmer Drought Severity Index (PDSI) Dai, Dr. Aiguo ENVELOPE(-180.0,180.0,90.0,-90.0) BEGINDATE: 1870-01-01T00:00:00Z ENDDATE: 2005-12-31T00:00:00Z 2014-09-25T12:35:46Z https://search.dataone.org/view/Global_Monthly_Palmer_Drought_Severity_Index_(PDSI).xml unknown Regional and Global Biogeochemical Dynamics Data (RGD) AIR TEMPERATURE|ANALYSIS|COMPUTER MODEL PRECIPITATION AMOUNT|RAIN GAUGE|METEOROLOGICAL STATION SOIL WATER HOLDING CAPACITY|ANALYSIS|COMPUTER MODEL AIR TEMPERATURE COMPUTER MODEL ANALYSIS Global (gridded) Dataset dataone:urn:node:RGD 2023-09-03T20:06:39Z A global monthly data set of Palmer Drought Severity Index (PDSI) from 1870 to 2005 has been produced using historical observed surface air temperature and precipitation data for global land areas, except Antarctica and Greenland, on a 2.5 x 2.5 degree grid. Calibration (or reference) period is 1950-1979. The PDSI was created by Palmer (1965) with the intent to measure the cumulative departure (relative to local mean conditions) in atmospheric moisture supply and demand at the surface. It incorporates antecedent precipitation, moisture supply, and moisture demand into a hydrological accounting system. To calculate the global monthly PDSI, Climate Research Unit (CRU) surface air temperature data (Jones and Moberg, 2003 and updates) were regridded to a 2.5 x 2.5 degree grid. National Centers for Environmental Prediction (NCEP) precipitation data for 1948–2003 from about 5,000 to 16,500 rain gauges during 1948–97 and about 3,500 gauges thereafter (Chen et al., 2002) were gridded using the optimal interpolation scheme. For the pre-1948 period, precipitation data from Dai et al. (1997) were used. The monthly anomalies of Dai et al. (1997) were adjusted to have zero mean values for 1950–79 and then added to the 1950–79 mean of NCEP data to obtain the total precipitation used for the PDSI calculation. For field water-holding capacity (awc), a soil texture–based water-holding-capacity map from Webb et al. (1993) was used. The time series are thought to be reliable over most land areas. The relatively low resolution used, however, does not resolve small scale variations such as those over mountains. The global monthly PDSI data are provided by UCAR/NCAR as compressed binary, text, and netCDF files with an associated README file. Oak Ridge National Laboratory (ORNL) also provides the global monthly PDSI data set, but in GeoTiff format. ORNL converted the UCAR/NCAR data from netCDF format to GeoTIFF format. The processed GeoTIFF data were fed into ORNL DAAC Web Map Service v1.1.1 (WMS), Web Coverage Service v1.0.0 (WCS), and Spatial Data Access Tool (SDAT) to provide data visualization and distribution capabilities. Sources: Chen, M., P. Xie, J. E. Janowiak, and P. A. Arkin. 2002. Global land precipitation: A 50-yr monthly analysis based on gauge observations. J. Hydrometeor., 3, 249–266. Dai, A., K. E. Trenberth, and T. Qian. 2004. A global data set of Palmer Drought Severity Index for 1870-2002: Relationship with soil moisture and effects of surface warming. J. Hydrometeorology, 5, 1117-1130. Dai, A., I. Y. Fung, and A. D. Del Genio. 1997. Surface observed global land precipitation variations during 1900–88. J. Climate, 10, 2943–2962. Jones, P. D., and A. Moberg. 2003. Hemispheric and large-scale surface air temperature variations: An extensive revision and an update to 2001. J. Climate, 16, 206–223. Palmer, W. C. 1965. Meteorological drought. Research Paper 45, U.S. Dept. of Commerce, 58 pp. Webb, R. S., C. E. Rosenzweig, and E. R. Levine. 1993. Specifying land surface characteristics in general circulation models: Soil profile data set and derived water-holding capacities. Global Biogeochem. Cycles, 7, 97–108. Dataset Antarc* Antarctica Greenland Regional and Global Biogeochemical Dynamics Data (RGD) (via DataONE) Greenland Webb ENVELOPE(146.867,146.867,-67.867,-67.867) Moberg ENVELOPE(20.782,20.782,69.518,69.518)

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