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Taylor Met Dailies
McMurdo Dry Valleys Taylor Glacier Meteorological Station Daily Averages
Andrew
Fountain
Portland State University
P.O. Box 751
Portland
OR
97207
US
(503) 725-3386
andrew@pdx.edu
http://glaciers.pdx.edu/fountain/
Peter
Doran
Louisiana State University
Dept. of Geology and Geophysics
Baton Rouge
LA
70803
US
2255781734
pdoran@lsu.edu
http://sites.google.com/site/professorpeterdoran/home
McMurdo Dry Valleys LTER
http://mcm.lternet.edu
Hassan
Basagic
Portland State University
basagic@gmail.com
field crew
Thomas
Nylen
US
thomasnylen@gmail.com
field crew
Maciej
Obryk
USGS
Cascades Volcano Observatory
Vancouver
WA
98683
US
maciej.obryk@gmail.com
field crew
Inigo
San Gil
University of New Mexico
Department of Biology, MSC03 2020 University of New Mexico
Albuquerque
NM
87131
US
(505) 277-2625
(505) 277-2541
isangil@lternet.edu
data manager
2016-01-11
English
As part of the Long Term Ecological Research in the McMurdo Dry Valleys of Antarctica, meteorological data was collected from various locations throughout Beacon, Taylor, Wright and Victoria Valleys. These files contain daily data averages derived from the high resolution data measurements for the Taylor Glacier meteorology station.
air temperature
ice
meteorology
snow depth
solar radiation
wind speed
LTER Controlled Vocabulary
air temperature
depth
ice temperature
ice thickness
LTER
McMurdo Dry Valleys
PAR
photosynthetic active radiation
photosynthetically active radiation
radiation
relative humidity
RH
snow depth
wind
wind speed
Station Keywords
Â Meteorological data is collected year-round at each of the stations in the McMurdo Dry Valleys of Antarctica.Â Â After retrieving this data (usually every January), the parameters that are recorded are processed from level 0 (raw) to levelÂ 1 (processed, provided on the web). The Â raw data file descriptions and task lists summarize what was done to get from level 0 to level 1 Â for all station found at the following address: Â Â Meteorological Task Lists
Data Policies
MCM LTER data may be used freely with the following restrictions: The Principal Investigator be sent a notice stating reasons for acquiring any data and a description of the publication intentions. The Principal Investigator of the data set be sent a copy of the report or manuscript prior to submission and be adequately cited in any resultant publications. A copy of any resultant publications should be sent to the McMurdo data manager and principal investigator. The end-user follow the guidelines set forth in the LTER Network Data Access Policy, Data Access Requirements, and General Data Use Agreement here: Definitions â€œData Setâ€ â€“ Digital data and its metadata derived from any research activity such as field observations, collections, laboratory analysis, experiments, or the post-processing of existing data and identified by a unique identifier issued by a recognized cataloging authority such as a site, university, agency, or other organization. â€œData Userâ€ - individual to whom access has been granted to this Data Set, including his or her immediate collaboration sphere, defined here as the institutions, partners, students and staff with whom the Data User collaborates, and with whom access must be granted, in order to fulfill the Data User's intended use of the Data Set â€œData Set Creatorâ€ - individual or institution that produced the Data Set â€œData Set Ownerâ€ â€“ individual or institution that holds intellectual property rights to the dataset. Note that this may or may not be defined as a legal copyright. If no other party is designated in the metadata as Data Set Owner, it may be presumed that these rights are held by the Data Set Creator. â€œData Set Distributorâ€ - individual or institution providing access to the Data Sets. â€œData Set Contactâ€ - party designated in the accompanying metadata of the Data Set as the primary contact for the Data Set. Conditions of Use The re-use of scientific data has the potential to greatly increase communication, collaboration and synthesis within and among disciplines, and thus is fostered, supported and encouraged. Permission to use this dataset is granted to the Data User free of charge subject to the following terms: 1) Acceptable use. Use of the dataset will be restricted to academic, research, educational, government, recreational, or other not-for-profit professional purposes. The Data User is permitted to produce and distribute derived works from this dataset provided that they are released under the same license terms as those accompanying this Data Set. Any other uses for the Data Set or its derived products will require explicit permission from the dataset owner. 2 ) Redistribution. The data are provided for use by the Data User. The metadata and this license must accompany all copies made and be available to all users of this Data Set. The Data User will not redistribute the original Data Set beyond this collaboration sphere. 3 ) Citation. It is considered a matter of professional ethics to acknowledge the work of other scientists. Thus, the Data User will properly cite the Data Set in any publications or in the metadata of any derived data products that were produced using the Data Set. Citation should take the following general form: Creator, Year of Data Publication, Title of Dataset, Publisher, Dataset identifier. 4 ) Acknowledgement. The Data User should acknowledge any institutional support or specific funding awards referenced in the metadata accompanying this dataset in any publications where the Data Set contributed significantly to its content. Acknowledgements should identify the supporting party, the party that received the support, and any identifying information such as grant numbers. 5 ) Notification. The Data User will notify the Data Set Contact when any derivative work or publication based on or derived from the Data Set is distributed. The Data User will provide the data contact with two reprints of any publications resulting from use of the Data Set and will provide copies, or on-line access to, any derived digital products. Notification will include an explanation of how the Data Set was used to produce the derived work. 6 ) Collaboration. The Data Set has been released in the spirit of open scientific collaboration. Data Users are thus strongly encouraged to consider consultation, collaboration and/or co-authorship with the Data Set Creator. By accepting this Data Set, the Data User agrees to abide by the terms of this agreement. The Data Owner shall have the right to terminate this agreement immediately by written notice upon the Data User's breach of, or non-compliance with, any of its terms. The Data User may be held responsible for any misuse that is caused or encouraged by the Data User's failure to abide by the terms of this agreement. Disclaimer While substantial efforts are made to ensure the accuracy of data and documentation contained in this Data Set, complete accuracy of data and metadata cannot be guaranteed. All data and metadata are made available "as is". The Data User holds all parties involved in the production or distribution of the Data Set harmless for damages resulting from its use or interpretation.
http://gar.lternet.edu/content/taylor-glacier-meteorological-station-daily-averages
1994-01-01
2014-12-31
On September 8, 1999, at the request of Thomas Nylen, the data manager did some fine-tuning of the data. This included: Removal and flagging of WDirStD values between Nov 21, 1994 @ 15:20 and Jan 23, 1995 @ 9:20. Wind speed had already been flagged for this period, and it was determined that WDirStD values needed a similar approach. Revision of LwRadIn values between Dec 19, 1995 @ 19:15 and Jan 25, 1996 @ 9:30. The initial LwRadIn values were zero, or close to zero. During the same period, LwRadIn2 had values consistent with the operation of the instrument. Since LwRadIn2 modifies the LwRadIn values, it was concluded that the values for LwRadIn must have been lost. Thomas therefore resubmitted the correct values to use. In May 2000, the 1999-2000 data was posted. In the process, Denise Steigerwald changed the layout of the files so that they were sorted by category (air temperatures, humidity, radiation, wind etc.) rather than by year. Files containing monthly and daily averages were generated and minor adjustments were made to the metadata. On May 31, 2000, relative humidity (RH) values were corrected for a systematic error in the measurement created by an instrument manufacturer error. All RH data with air temperatures below freezing were corrected using the vapor pressure over ice (rather than over water which was used initially). The error became quite large for very cold temperatures (the correction could grow to around 30%). The formula used for the correction was:Â RH_corr=RH_orig/((A*temp*temp)+(B*temp)+C)Â where RH_corr = corrected relative humidity RH_orig = original relative humidity temp = air temperature A = 4.165E-5 B = 9.7E-3 C = 1.0 For example, with an air temperature of -2.3 and RH_orig of 50.6, the RH_corr will be 51.7. Records that showed corrected RH values greater than or equal to 100 were changed to 99.99 and flagged. In June 2000, summary files were added to the web containing daily and monthly statistics. These were generated by creating "views" of daily and monthly means, minimums, maximums and counts of the records represented in the Oracle database's meteorology tables. On June 29, 2004, Thomas Nylen flagged the incoming and outgoing shortwave radiation data between 11/21/1994 @ 1520 to 12/01/1995 @ 0945 as questionable because the values are significantly higher than L. Bonney during the time period. During this time period, two Licor pyranometers were used, but were wired similar to the Eppley Pyranometers and used the same lines in the program. It is suspected that the incorrect wiring and/or program caused the higher output. After two Eppley Pyranometers were installed on the station on December 1, 1995 @ 1045, the values matched the measurements made at Lake Bonney. In 2006, metadata was standardized by Chris Gardner and Inigo San Gil using the EML. In 2007, it was realized that the RH error was still present in parts of the dataset. Hasan Basagic made the above corrections to the TARM dataset for the date range 1/24/2004 11:30 - 1/20/2007 13:00 (104,827 records). In September, 2007 the information manager (Chris Gardner) removed all old RH data and re-inserted then newly calculated values and associated comments. The original files are archive in the 'submitted data' section of the mcmlter server. In 2013, ice depth/sonic was revised to account for discontinuities arising at the maintenance downtime In 2014, this metadata was enhanced using the Drupal Ecological Information Management System (Inigo San Gil)
McMurdo Dry Valleys LTER
http://mcm.lternet.edu
McMurdo Dry Valleys LTER
http://mcm.lternet.edu
McMurdo Dry Valleys LTER
During the 1994-1995 field season, the Taylor Glacier meteorological station was constructed at a latitude of 77 42.15845 S, longitude of 162 7.70264 E, and elevation of 334.1 meters above sea level. The station was set up to sample sensors every 30 seconds and send summary statistics (for example, averages and maximums) to solid-state storage modules every 20 minutes between November 21, 1994 and November 17, 1995 and every 15 minutes thereafter. This has resulted in approximately 20 values being recorded for final storage in every output interval. Sampling and Averaging IntervalsÂ For Sampling frequency and Data Logger output and averaging intervals please visit:http://mcmlter.lternet.edu/data/meteorology/methods/Interval_Dates.pdfSeasonal Task SummaryÂ To view the data post-processing steps for each season please visit:http://mcmlter.lternet.edu/data/meteorology/tasks/task_lists.htm
TARM_AIRT_DAILY
Description and details of the spreadsheet containing daily averages of the Taylor Glacier Met station air tempeature measurements
TARM_AIRT_DAILY.csv
666453
42
1
\n
column
,
http://gar.lternet.edu/sites/default/files/data/TARM_AIRT_DAILY.csv
METLOCID
METLOCID
Location code for this met station
string
Location code for this met station
DATE_TIME
Date_time
Date sample was collected
date
mm/dd/yyyy
`Required entry`

None given
AVG_AIRT1M
AVG_AIRT1M
Average of air temperature at 1 m
celsius
0.01
real
`Null`

None given
STD_AIRT1M
STD_AIRT1M
Standard deviation of the air temperature distribution at 1 m
celsius
0.01
real
`Null`

None given
MIN_AIRT1M
MIN_AIRT1M
Minimum value of the air temperature at 1 m
celsius
0.01
real
`Null`

None given
MAX_AIRT1M
MAX_AIRT1M
Maximum of the air temperature at 1 m
celsius
0.01
real
`Null`

None given
N_AIRT1M
N_AIRT1M
Number of observations for this average
dimensionless
real
AVG_AIRT3M
AVG_AIRT3M
Average air temperature at 3 m above ground
celsius
0.01
real
`Null`

None given
STD_AIRT3M
STD_AIRT3M
Standard deviation for the air temperature at 3 m above ground
celsius
0.01
real
`Null`

None given
MIN_AIRT3M
MIN_AIRT3M
Minimum value of the air temperature at 3 m above ground
celsius
0.01
real
`Null`

None given
MAX_AIRT3M
MAX_AIRT3M
Maximum value for the air temperature at 1.3 m above ground
celsius
0.01
real
`Null`

None given
N_AIRT3M
N_AIRT3M
Number of observations for this average
dimensionless
real
N_COMMENTS
N_COMMENTS
Number of observations of the measuremetns used for these statistics
dimensionless
0.01
real
`Null`

None given
TARM_DEPTH_DAILY
Description and details of the spreadsheet containing daily averages for the ice depth at the taylor glacier met station
TARM_DEPTH_DAILY.csv
183668
42
1
\n
column
,
http://gar.lternet.edu/sites/default/files/data/TARM_DEPTH_DAILY.csv
METLOCID
METLOCID
Location code for this met station
string
Location code for this met station
DATE_TIME
Date_time
Date sample was collected
date
mm/dd/yyyy
`Required entry`

None given
AVG_DEPTH
AVG_DEPTH
Daily average of the Surface Height Change - snow accumulation or loss
centimeter
0.01
real
`Null`

None given
STD_DEPTH
STD_DEPTH
Standard deviation for the surface Height Change
centimeter
0.01
real
`Null`

None given
MIN_DEPTH
MIN_DEPTH
Minimum of the Surface Height Change
centimeter
0.01
real
`Null`

None given
MAX_DEPTH
MAX_DEPTH
Maximum of the Surface Height Change
centimeter
0.01
real
`Null`

None given
N_DEPTH
N_DEPTH
Number of observations for this average
dimensionless
real
N_COMMENTS
N_COMMENTS
Number of comments about the measurement in this period
dimensionless
real
TARM_ICET_DAILY
Details about the spreadsheet for the daily averages of the ice temperature recorder at the taylor glacier met station
TARM_ICET_DAILY.csv
651554
42
1
\n
column
,
"
http://gar.lternet.edu/sites/default/files/data/TARM_ICET_DAILY_0.csv
Fenwall Thermisters (192-102DEW-A01) and Caddock Tetrinox(TF050N) hi precision resistor (10Kohm) with +-5ppm/celcius and 0.01percent Resistor
Fenwall Thermisters (192-102DEW-A01) and Caddock Tetrinox(TF050N) hi precision resistor (10Kohm) with +-5ppm/celcius and 0.01percent Resistor
METLOCID
METLOCID
Location code for Canada Glacier meteorology station
string
Location code for Canada Glacier meteorology station
DATE_TIME
DATE_TIME
Date/time of sample (New Zealand DST, +13 UTC)
date
mm/yyyy
AVG_ICET50CM
AVG_ICET50CM
Ice temperature average at 50 cm depth
celsius
real
`Null`

None given
STD_ICET50CM
STD_ICET50CM
Ice temperature standard deviation of distribution at 50 cm depth
celsius
0.01
real
`Null`

None given
MIN_ICET50CM
MIN_ICET50CM
Minimum of Ice temperature at 50 centimeters depth
celsius
0.01
real
`Null`

None given
MAX_ICET50CM
MAX_ICET50CM
Maximum of Ice temperature at 50 centimeters depth
celsius
0.01
real
`Null`

None given
N_ICET50CM
N_ICET50CM
Number of Ice temperature values at 50 cm depth used for the computations
dimensionless
real
`Null`

None given
AVG_ICET1M
AVG_ICET1M
Average for the Ice temperature at 1 meter depth
celsius
0.01
real
`Null`

None given
STD_ICET1M
STD_ICET1M
standard deviation of distribution of the Ice temperature at 1 meter depth
celsius
real
MIN_ICET1M
MIN_ICET1M
minimum of the Ice temperature at 1 meter depth
celsius
0.01
real
`Null`

None given
MAX_ICET1M
MAX_ICET1M
Daily maximum of the ice temperature at 1 meter depth
celsius
0.01
real
`Null`

None given
N_ICET1M
Number of Observations
Number of observations for the daily stats.
dimensionless
real
AVG_ICET20CM
AVG_ICET20CM
Ice temperature average at 20cm
celsius
0.01
real
`Null`

None given
STD_ICET20CM
STD_ICET20CM
Standard deviation of the Ice temperature distribution at 20 cm depth
celsius
0.01
real
`Null`

None given
MIN_ICET20CM
MIN_ICET20CM
Minimum of the ice temperature at 20 cm depth
celsius
0.01
real
`Null`

None given
MAX_ICET20CM
MAX_ICET20CM
Daily maximum of the ice temperature at 20 centimeter depth
celsius
0.01
real
`Null`

None given
N_ICET20CM
Number of Observations
Number of observations for the daily stats.
dimensionless
real
AVG_NEWICET_25CM
AVG_NEWICET_25CM
Ice temperature average at 25cm
celsius
0.01
real
`Null`

None given
STD_NEWICET_25CM
STD_NEWICET_25CM
Standard deviation of the Ice temperature distribution at 25 cm depth
celsius
0.01
real
`Null`

None given
MIN_NEWICET_25CM
MIN_NEWICET_25CM
Minimum of the ice temperature at 25 cm depth
celsius
0.01
real
`Null`

None given
MAX_NEWICET_25CM
MAX_NEWICET_25CM
Maximum of Ice temperature at 25 cm depth
celsius
0.01
real
`Null`

None given
N_NEWICET_25CM
Number of Observations
Number of observations for the daily stats.
dimensionless
real
AVG_NEWICET_50CM
AVG_NEWICET_50CM
Ice temperature average at 50cm
celsius
0.01
real
`Null`

None given
STD_NEWICET_50CM
STD_NEWICET_50CM
Standard deviation of the ice temperature values of the sensor at 50cm
celsius
real
MIN_NEWICET_50CM
MIN_NEWICET_50CM
Minimum Ice temperature at 50cm
celsius
0.01
real
`Null`

None given
MAX_NEWICET_50CM
MAX_NEWICET_50CM
Maximum of the ice temperature at 50 cm depth
celsius
0.01
real
`Null`

None given
N_NEWICET_50CM
Number of Observations
Number of observations for the daily stats.
dimensionless
real
AVG_NEWICET_75CM
AVG_NEWICET_75CM
Average of the Ice temperature at 75cm
celsius
0.01
real
`Null`

None given
STD_NEWICET_75CM
STD_NEWICET_75CM
Standard deviation of the Ice temperature distribution at 75 cm depth
celsius
0.01
real
`Null`

None given
MIN_NEWICET_75CM
MIN_NEWICET_75CM
Minimum of the ice temperature at 75 cm depth
celsius
0.01
real
`Null`

None given
MAX_NEWICET_75CM
MAX_NEWICET_75CM
Maximum of the ice temperature at 75 cm depth
celsius
0.01
real
`Null`

None given
N_NEWICET_75CM
N_NEWICET_75CM
Number of observations used for this statistic
dimensionless
real
AVG_NEWICET_100CM
AVG_NEWICET_100CM
Avergae of the Ice temperature at 100cm
celsius
0.01
real
`Null`

None given
STD_NEWICET_100CM
STD_NEWICET_100CM
Standard deviation of the Ice temperature distribution at 100 cm depth
celsius
0.01
real
`Null`

None given
MIN_NEWICET_100CM
MIN_NEWICET_100CM
Minimum of the ice temperature at 100 cm depth
celsius
0.01
real
`Null`

None given
MAX_NEWICET_100CM
MAX_NEWICET_100CM
Maximum of the ice temperature at 100 cm depth
celsius
0.01
real
`Null`

None given
N_NEWICET_100CM
N_NEWICET_100CM
Number of observations used to calculate these stats
dimensionless
real
N_COMMENTS
N_COMMENTS
Number of comments about the measurement in this period
dimensionless
real
TARM_RADN_DAILY
Description and details of the spreadsheet containing solar radiation daily averages of the Taylor Glacier Met station
TARM_RADN_DAILY.csv
701084
42
1
\n
column
,
http://gar.lternet.edu/sites/default/files/data/TARM_RADN_DAILY.csv
METLOCID
METLOCID
Location code for this met station
string
Location code for this met station
DATE_TIME
Date_time
Date sample was collected
date
mm/dd/yyyy
`Required entry`

None given
AVG_LWRADIN
AVG_LWRADIN
Average of the long wave incoming radiation
W/m^2
0.01
real
`Null`

None given
STD_LWRADIN
STD_LWRADIN
Standard deviation for the long wave incoming radiation
W/m^2
0.01
real
`Null`

None given
MIN_LWRADIN
MIN_LWRADIN
Minimum value of the long wave incoming radiation
W/m^2
0.01
real
`Null`

None given
MAX_LWRADIN
MAX_LWRADIN
Maximum value for the long wave incoming radiation
W/m^2
0.01
real
`Null`

None given
N_LWRADIN
N_LWRADIN
Number of observations for the long wave incoming radiation statistics
dimensionless
real
AVG_LWRADIN2
AVG_LWRADIN2
Average of the Incoming longwave radiation calculated from thermopile, case thermistor and the dome or hemisphere thermistor measurements
W/m2
0.1
real
`Null`

None given
STD_LWRADIN2
STD_LWRADIN2
Standard deviation of the distribution of incoming longwave radiation calculated from thermopile, case thermistor and the dome or hemisphere thermistor measurements
W/m2
0.1
real
`Null`

None given
MIN_LWRADIN2
MIN_LWRADIN2
Minimum of the incoming longwave radiation calculated from thermopile, case thermistor and the dome or hemisphere thermistor measurements
W/m2
0.1
real
`Null`

None given
MAX_LWRADIN2
MAX_LWRADIN2
Maximum of the incoming longwave radiation calculated from thermopile, case thermistor and the dome or hemisphere thermistor measurements
W/m2
0.1
real
`Null`

None given
N_LWRADIN2
Number of Observations
Number of observations for the daily stats.
dimensionless
real
AVG_SWRADIN
AVG_SWRADIN
Average for the short wave incoming radiation
W/m^2
0.01
real
`Null`

None given
STD_SWRADIN
STD_SWRADIN
Standard deviation for the short wave incoming radiation
W/m^2
0.01
real
`Null`

None given
MIN_SWRADIN
MIN_SWRADIN
Minimum value of the short wave incoming radiation
W/m^2
0.01
real
`Null`

None given
MAX_SWRADIN
MAX_SWRADIN
Maximum incoming shortwave radiation/solar flux
W/m2
0.1
real
`Null`

None given
N_SWRADIN
Number of Observations
Number of observations for the derived data statistics.
dimensionless
real
AVG_SWRADOUT
AVG_SWRADOUT
Average for the short wave outbound radiation
W/m^2
0.01
real
`Null`

None given
STD_SWRADOUT
STD_SWRADOUT
standard devation of the the short wave outbound radiation
W/m^2
0.01
real
`Null`

None given
MIN_SWRADOUT
MIN_SWRADOUT
Minimum the short wave outbound radiation
W/m^2
0.01
real
`Null`

None given
MAX_SWRADOUT
MAX_SWRADOUT
Maximum outgoing short wave radiation
W/m^2
0.01
real
`Null`

None given
N_SWRADOUT
N_SWRADOUT
Number of observations the short wave outbound radiation
dimensionless
real
N_COMMENTS
N_COMMENTS
Number of comments about the measurement in this period
dimensionless
real
TARM_RH_DAILY
Description and details of the spreadsheet containing RH daily averages of the Taylor glacier Met station
TARM_RH_DAILY.csv
644366
42
1
\n
column
,
http://gar.lternet.edu/sites/default/files/data/TARM_RH_DAILY.csv
METLOCID
METLOCID
Location code for this met station
string
Location code for this met station
DATE_TIME
Date_time
Date sample was collected
date
mm/dd/yyyy
`Required entry`

None given
AVG_RH
AVG_RH
Average of the relative humidity values
dimensionless
real
STD_RH
Standard Dev. of RH
The standard deviation for the distribution of rel. humidity values
dimensionless
real
MIN_RH
Minimum RH
The minimum of the relative humidity
dimensionless
real
MAX_RH
Maximum RH
The maximum of the relative humidity
dimensionless
real
N_RH
Number of Observations
Number of observations for the daily stats.
dimensionless
real
AVG_RH1M
AVG_RH1M
Average of the relative humidity at 1meter values
dimensionless
real
STD_RH1M
STD_RH1M
The standard deviation for the distribution of rel. humidity values at 1m
dimensionless
real
MIN_RH1M
Minimum RH
The minimum of the relative humidity at 1m
dimensionless
real
MAX_RH1M
Maximum RH
The maximum of the relative humidity at 1m.
dimensionless
real
N_RH1M
Number of Observations
Number of observations for the daily stats.
dimensionless
real
N_COMMENTS
N_COMMENTS
Number of comments about the measurement in this period
dimensionless
real
TARM_WSPD_DAILY
Daily averages for the wind speed at the Taylor Glacier met station - description of the spreadsheet container, units used and other details
TARM_WSPD_DAILY.csv
332623
42
1
\n
column
,
http://gar.lternet.edu/sites/default/files/data/TARM_WSPD_DAILY.csv
METLOCID
METLOCID
METLOCID identification code for the meteorological station
string
METLOCID identification code for the meteorological station
DATE_TIME
DATE_TIME
Date when measurement was taken
date
DD/MM/YYYY
AVG_WSPD
AVG_WSPD
Average of the values of the wind speed
metersPerSecond
real
STDDEV_WSPD
STDDEV_WSPD
Standard deviation of the distribution of the wind speed
metersPerSecond
real
MIN_WSPD
MIN_WSPD
Minimum value of the wind speed for the period.
metersPerSecond
real
MAX_WSPD
MAX_WSPD
Maximum value of the wind speed for the period
metersPerSecond
real
N_WSPD
N_WSPD
Number of data points used to calculate these statistics.
dimensionless
real
N_COMMENTS
N_COMMENTS
N_COMMENTS
string
N_COMMENTS