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NCEI-NOAA/climdiv/doc/state-readme.txt
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This documentation describes the record format for the statewide/regional/national
files on /pub/data/cirs/climdiv that have the filenames:
climdiv-cddcst-vx.y.z-YYYYMMDD
climdiv-hddcst-vx.y.z-YYYYMMDD
climdiv-pcpnst-vx.y.z-YYYYMMDD
climdiv-pdsist-vx.y.z-YYYYMMDD
climdiv-phdist-vx.y.z-YYYYMMDD
climdiv-pmdist-vx.y.z-YYYYMMDD
climdiv-sp01st-vx.y.z-YYYYMMDD
climdiv-sp02st-vx.y.z-YYYYMMDD
climdiv-sp03st-vx.y.z-YYYYMMDD
climdiv-sp06st-vx.y.z-YYYYMMDD
climdiv-sp09st-vx.y.z-YYYYMMDD
climdiv-sp12st-vx.y.z-YYYYMMDD
climdiv-sp24st-vx.y.z-YYYYMMDD
climdiv-tmaxst-vx.y.z-YYYYMMDD
climdiv-tminst-vx.y.z-YYYYMMDD
climdiv-tmpcst-vx.y.z-YYYYMMDD
climdiv-zndxst-vx.y.z-YYYYMMDD
nClimDiv
STATEWIDE-REGIONAL-NATIONAL
TEMPERATURE-PRECIPITATION-DROUGHT
DECEMBER 2014
The major parameters in this file are sequential statewide, regional and
national monthly maximum, minimum and average temperature (deg. F. to 10ths,
national temperature to 100ths), precipitation (inches to 100ths),
Standardized Precipitation Index (SPI), and Palmer Drought Indices (PDSI,
PHDI, PMDI, and ZNDX). Period of record is 1895 through latest month
available, updated monthly.
Values from the most recent 2 calendar years will be updated on a monthly
basis. Period of record updates will occur when the underlying data set
undergoes a version change.
METHODOLOGY:
Statewide, regional and national values in nClimDiv were derived from
area-weighted averages of 5km X 5km grid-point estimates interpolated
from station data. Station data were gridded via climatologically aided
interpolation to minimize biases from topographic and network variability.
The Global Historical Climatology Network (GHCN) Daily dataset is the source
of station data for nClimDiv. GHCN-Daily contains several major observing
networks in North America, five of which are used here. The primary network
is the National Weather Service (NWS) Cooperative Observing (COOP) program,
which consists of stations operated by volunteers as well as by agencies such
as the Federal Aviation Administration. To improve coverage in western states
and along international borders, nClimDiv also includes the National
Interagency Fire Center (NIFC) Remote Automatic Weather Station (RAWS) network,
the USDA Snow Telemetry (SNOTEL) network, the Environment Canada (EC)
network (south of 52<35>N), and part of Mexicos Servicio Meteorologico Nacional
(SMN) network (north of 24<32>N). Note that nClimDiv does not incorporate
precipitation data from RAWS because that networks tipping-bucket gauges are
unheated, leading to suspect cold-weather data.
All GHCN-Daily stations are routinely processed through a suite of logical,
serial, and spatial quality assurance reviews to identify erroneous
observations. For nClimDiv, all such data were set to missing before
computing monthly values, which in turn were subjected to additional serial
and spatial checks to eliminate residual outliers. Stations having at least
10 years of valid monthly data since 1950 were used in nClimDiv.
For temperature, bias adjustments were computed to account for historical
changes in observation time, station location, temperature instrumentation,
and siting conditions. Changes in observation time are only problematic for
the COOP network whereas changes in station location and instrumentation occur
in almost all surface networks. As in the U.S. Historical Climatology Network
version 2.5, the method of Karl et al. (1986) was applied to remove the
observation time bias from the COOP network, and the pairwise method of Menne
and Williams (2009) was used to address changes in station location and
instrumentation in all networks. Because the pairwise method also largely
accounts for local, unrepresentative trends that arise from changes in siting
conditions, nClimDiv contains no separate adjustment in that regard.
For additional information on how nClimDiv is constructed, please see:
http://journals.ametsoc.org/doi/abs/10.1175/JAMC-D-13-0248.1
In March 2015, historical data for thirteen Alaskan climate divisions were
added to the nClimDiv database and will be updated each month with the CONUS
nClimDiv data. Data for the new Alaskan climate divisions (AKCD) begin in 1925
and include the following elements: average temperature, maximum temperature
(highs), minimum temperature (lows), and precipitation. The Alaska nClimDiv
data were created and updated using similar methodology as that for the CONUS,
but with a different approach to establishing the underlying climatology. The
AKCD data are built upon the 1971-2000 PRISM averages whereas the CONUS values
utilize a base climatology derived from the nClimDiv dataset.
Monthly heating and cooling degree day values are available for the period
1895 to present. The divisional degree day values are derived from the
adjusted temperatures using a statistical algorithm. The heating and cooling
degree day values available at this site are used for operational monitoring
purposes and may be different from the heating and cooling degree day values
published in official degree day publications. Population weights utilize the 2010 Census data.
Historical drought data have been added to this file for the period 1895 to
present. The file is updated monthly. All drought data are calibrated using
the period 1931-1990 (cf. Karl, 1986; Journal of Climate and Applied
Meteorology, Vol. 25, No. 1, January 1986). Drought data include:
1. Palmer Drought Severity Index (PDSI)
This is the monthly value (index) that is generated indicating the severity
of a wet or dry spell. This index is based on the principles of a balance
between moisture supply and demand. Man-made changes were not considered in
this calculation. The index generally ranges from -6 to +6, with negative
values denoting dry spells and positive values indicating wet spells. There
are a few values in the magnitude of +7 or -7. PDSI values 0 to -.5 =
normal; -0.5 to -1.0 = incipient drought; -1.0 to -2.0 = mild drought; -2.0
to -3.0 = moderate drought; -3.0 to -4.0 = severe drought; and greater than -
4.0 = extreme drought. Similar adjectives are attached to positive values of
wet spells. This is a meteorological drought index used to assess the
severity of dry or wet spells of weather.
2. Palmer Hydrological Drought Index (PHDI)
This is the monthly value (index) generated monthly that indicates the
severity of a wet or dry spell. This index is based on the principles of a
balance between moisture supply and demand. Man-made changes such as
increased irrigation, new reservoirs, and added industrial water use were not
included in the computation of this index. The index generally ranges from -
6 to +6, with negative values denoting dry spells, and positive values
indicating wet spells. There are a few values in the magnitude of +7 or -7.
PHDI values 0 to -0.5 = normal; -0.5 to -1.0 = incipient drought; -1.0 to -
2.0 = mild drought; -2.0 to -3.0 = moderate drought; -3.0 to -4.0 = severe
drought; and greater than -4.0 = extreme drought. Similar adjectives are
attached to positive values of wet spells. This is a hydrological drought
index used to assess long-term moisture supply.
3. Palmer "Z" Index (ZNDX)
This is the generated monthly Z values, and they can be expressed as the
"Moisture Anomaly Index." Each monthly Z value is a measure of the departure
from normal of the moisture climate for that month. This index can respond
to a month of above-normal precipitation, even during periods of drought.
Table 1 contains expected values of the Z index and other drought parameters.
See Historical Climatology Series 3-6 through 3-9 for a detailed description
of the drought indices.
4. Modified Palmer Drought Severity Index (PMDI)
This is a modification of the Palmer Drought Severity Index. The
modification was made by the National Weather Service Climate Analysis Center
for operational meteorological purposes. The Palmer drought program
calculates three intermediate parallel index values each month. Only one
value is selected as the PDSI drought index for the month. This selection is
made internally by the program on the basis of probabilities. If the
probability that a drought is over is 100%, then one index is used. If the
probability that a wet spell is over is 100%, then another index is used. If
the probability is between 0% and 100%, the third index is assigned to the
PDSI. The modification (PMDI) incorporates a weighted average of the wet and
dry index terms, using the probability as the weighting factor. (Thomas R.
Heddinghause and Paul Sabol, 1991; "A Review of the Palmer Drought Severity
Index and Where Do We Go From Here?," Proceedings of the Seventh Conference
on Applied Climatology, pp. 242-246, American Meteorological Society, Boston,
MA). The PMDI and PDSI will have the same value during an established
drought or wet spell (i.e., when the probability is 100%), but they will have
different values during transition periods.
5. Standardized Precipitation Index (SPxx)
This is a transformation of the probability of observing a given amount of
precipitation in xx months. A zero index value reflects the median of the
distribution of precipitation, a -3 indicates a very extreme dry spell, and a
+3 indicates a very extreme wet spell. The more the index value departs from
zero, the drier or wetter an event lasting xx months is when compared to the
long-term climatology of the location. The index allows for comparison of
precipitation observations at different locations with markedly different
climates; an index value at one location expresses the same relative departure
from median conditions at one location as at another location. It is
calculated for different time scales since it is possible to experience dry
conditions over one time scale while simultaneously experiencing wet conditions
over a different time scale.
Table 1 Classes for Wet and Dry Periods
Approximate
Cumulative
Frequency Range Range
% PHDI Category Z
> 96 > 4.00 Extreme wetness > 3.50
90-95 3.00, 3.99 Severe wetness 2.50, 3.49
73-89 1.50, 2.99 Mild to moderate 1.00, 2.49
wetness
28-72 -1.49, 1.49 Near normal -1.24, 0.99
11-27 -1.50, -2.99 Mild to moderate -1.25, -1.99
drought
5-10 -3.00, -3.99 Severe drought -2.00, -2.74
< 4 <-4.00 Extreme drought <-2.75
STATE CODE TABLE:
Range of values for the states, regions, and nation is 001-110.
001 Alabama 030 New York
002 Arizona 031 North Carolina
003 Arkansas 032 North Dakota
004 California 033 Ohio
005 Colorado 034 Oklahoma
006 Connecticut 035 Oregon
007 Delaware 036 Pennsylvania
008 Florida 037 Rhode Island
009 Georgia 038 South Carolina
010 Idaho 039 South Dakota
011 Illinois 040 Tennessee
012 Indiana 041 Texas
013 Iowa 042 Utah
014 Kansas 043 Vermont
015 Kentucky 044 Virginia
016 Louisiana 045 Washington
017 Maine 046 West Virginia
018 Maryland 047 Wisconsin
019 Massachusetts 048 Wyoming
020 Michigan 050 Alaska
021 Minnesota 101 Northeast Region
022 Mississippi 102 East North Central Region
023 Missouri 103 Central Region
024 Montana 104 Southeast Region
025 Nebraska 105 West North Central Region
026 Nevada 106 South Region
027 New Hampshire 107 Southwest Region
028 New Jersey 108 Northwest Region
029 New Mexico 109 West Region
110 National (contiguous 48 States)
The following are the range of code values for the National Weather
Service Regions, river basins, and agricultural regions.
111 Great Plains
115 Southern Plains and Gulf Coast
120 US Rockies and Westward
121 NWS Eastern Region
122 NWS Southern Region
123 NWS Central Region
124 NWS Western Region
201 Pacific Northwest Basin
202 California River Basin
203 Great Basin
204 Lower Colorado River Basin
205 Upper Colorado River Basin
206 Rio Grande River Basin
207 Texas Gulf Coast River Basin
208 Arkansas-White-Red Basin
209 Lower Mississippi River Basin
210 Missouri River Basin
211 Souris-Red-Rainy Basin
212 Upper Mississippi River Basin
213 Great Lakes Basin
214 Tennessee River Basin
215 Ohio River Basin
216 South Atlantic-Gulf Basin
217 Mid-Atlantic Basin
218 New England Basin
220 Mississippi River Basin & Tributaties (N. of Memphis, TN)
250 Spring Wheat Belt (area weighted)
255 Primary Hard Red Winter Wheat Belt (area weighted)
256 Winter Wheat Belt (area weighted)
260 Primary Corn and Soybean Belt (area weighted)
261 Corn Belt (area weighted)
262 Soybean Belt (area weighted)
265 Cotton Belt (area weighted)
350 Spring Wheat Belt (productivity weighted)
356 Winter Wheat Belt (productivity weighted)
361 Corn Belt (productivity weighted)
362 Soybean Belt (productivity weighted)
365 Cotton Belt (productivity weighted)
450 Spring Wheat Belt (% productivity in the Palmer Z Index)
456 Winter Wheat Belt (% productivity in the Palmer Z Index)
461 Corn Belt (% productivity in the Palmer Z Index)
462 Soybean Belt (% productivity in the Palmer Z Index)
465 Cotton Belt (% productivity in the Palmer Z Index)
FILE FORMAT:
Element Record
Name Position Element Description
STATE-CODE 1-3 STATE-CODE as indicated in State Code Table above.
Range of values is 001-110 for standard states,
regions and national, 111-465 for special regions.
DIVISION-NUMBER 4 DIVISION NUMBER. Value is 0 which indicates an area-
averaged element.
ELEMENT-CODE 5-6 01 = Precipitation
02 = Average Temperature
05 = PDSI
06 = PHDI
07 = ZNDX
08 = PMDI
25 = Heating Degree Days
26 = Cooling Degree Days
27 = Maximum Temperature
28 = Minimum Temperature
71 = 1-month Standardized Precipitation Index
72 = 2-month Standardized Precipitation Index
73 = 3-month Standardized Precipitation Index
74 = 6-month Standardized Precipitation Index
75 = 9-month Standardized Precipitation Index
76 = 12-month Standardized Precipitation Index
77 = 24-month Standardized Precipitation Index
YEAR 7-10 This is the year of record. Range is 1895 to current
year processed.
(all data values are right justified):
JAN-VALUE 11-17 Palmer Drought Index format (f7.2)
Range of values -20.00 to 20.00. Decimal point
retains a position in 7-character field.
Missing values in the latest year are indicated
by -99.99.
Monthly Temperature format (f7.2)
Range of values -50.00 to 140.00 degrees Fahrenheit.
Decimals retain a position in the 7-character
field. Missing values in the latest year are
indicated by -99.90.
Monthly Precipitation format (f7.2)
Range of values 00.00 to 99.99. Decimal point
retains a position in the 7-character field.
Missing values in the latest year are indicated
by -9.99.
Monthly Degree Day format (f7.0)
Range of values 0000. to 9999. Decimal point
retains a position in the 7-character field.
Missing values in the latest year are indicated
by -9999..
Standardized Precipitation Index format (f7.2).
Range of values -4.00 to 4.00. Decimal
point retains a position in 7-character field.
Missing values in the latest year are indicated
by -99.99.
FEB-VALUE 18-24
MAR-VALUE 25-31
APR-VALUE 32-38
MAY-VALUE 39-45
JUNE-VALUE 46-52
JULY-VALUE 53-59
AUG-VALUE 60-66
SEPT-VALUE 67-73
OCT-VALUE 74-80
NOV-VALUE 81-87
DEC-VALUE 88-94
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