Data format is:
Date Day Date2 T.Max Smx T.Min Smn Rain Srn Evap Sev Radn Ssl VP Svp RHmaxT RHminT Mlake Mpot Mact Mwet (yyyymmdd) () (ddmmyyyy) (oC) () (oC) () (mm) () (mm) () (MJ/m2) () (hPa) () (%) (%) (mm) (mm) (mm) (mm)
Example
"19970526" 365 26/05/1997 -99.9 999 -99.9 999 9999.9 999 999.9 999 999.9 999 999.9 999 9999.9 9999.9 9999.9 9999.9 9999.9 9999.9" "" " This file is SPACE DELIMITED for easy import into both spreadsheets and programs." "The first line 19970526 contains dummy data and is provided to allow spreadsheets to sense the columns" " To read into a spreadsheet select DELIMITED and SPACE." " " " " "========= The following essential information and notes should be kept in the data file ==========" " " "The Data Drill system and data are copyright to the Queensland Government Department of Environment, Tourism, Science and Innovation (DETSI)" "SILO data, with the exception of Patched Point data for Queensland, are supplied to the licencee only and may not be given, lent, or sold to any other party" " " "Notes:" " * Data Drill for Lat, Long: -20.00 145.00 (DECIMAL DEGREES), 20 00'S 145 00'E Your Ref: standard" " * Elevation: 724 m " " * Extracted from SILO on 20190703" " * Please read the documentation on the Data Drill at http://www.longpaddock.qld.gov.au/silo" " " " * As evaporation is read at 9am, it has been shifted to the day before" " ie The evaporation measured on 20 April is in row for 19 April" " * The 6 Source columns Smx, Smn, Srn, Sev, Ssl, Svp indicate the source of the data to their left, namely Max temp, Min temp, Rainfall, Evaporation, Radiation and Vapour Pressure respectively" " 25 = interpolated daily observations, 75 = interpolated long term average" " " " * Relative Humidity has been calculated using 9am VP, T.Max and T.Min" " RHmaxT is estimated Relative Humidity at Temperature T.Max" " RHminT is estimated Relative Humidity at Temperature T.Min" " * Mlake = Morton evaporation over shallow lakes," " * Mpotential = Morton potential evapotranspiration over land," " * Mactual = Morton actual evapotranspiration over land, and " " * Mwet = Morton wet environment areal evapotranspiration over land." " These were all calculated using the formulae in the 1983 Morton paper:" " Journal of hydrology, Vol 66,page 1-77" " As the evapotranspiration has been calculated from other data, particularly, Tmax, Tmin, Rad, and VP," " its accuracy and source code are dependant on the source and accuracy of the data in those columns." " * The accuracy of the data depends on many factors including date, location, and variable." " For consistency data is supplied using one decimal place, however it is not accurate to that precision." " Further information is available from http://www.longpaddock.qld.gov.au/silo" "====================================================================================================" " " Date Day Date2 T.Max Smx T.Min Smn Rain Srn Evap Sev Radn Ssl VP Svp RHmaxT RHminT Mlake Mpot Mact Mwet (yyyymmdd) () (ddmmyyyy) (oC) () (oC) () (mm) () (mm) () (MJ/m2) () (hPa) () (%) (%) (mm) (mm) (mm) (mm) 20190101 1 1-01-2019 33.0 25 19.0 25 0.0 25 10.6 25 19.0 25 16.0 25 31.8 72.9 5.2 8.5 1.3 4.9 20190102 2 2-01-2019 33.5 25 19.5 25 0.0 25 12.0 25 22.0 25 17.0 25 32.9 75.0 6.0 8.9 2.2 5.6 20190103 3 3-01-2019 34.0 25 19.5 25 0.0 25 10.4 25 19.0 25 15.0 25 28.2 66.2 5.3 9.2 0.7 5.0 20190104 4 4-01-2019 35.0 25 20.5 25 0.0 25 8.4 25 22.0 25 17.0 25 30.2 70.5 6.1 9.6 1.9 5.7 20190105 5 5-01-2019 33.5 25 20.0 25 0.0 25 9.0 25 24.0 25 18.0 25 34.8 77.0 6.5 9.1 3.0 6.1 20190106 6 6-01-2019 35.0 25 20.0 25 0.0 25 10.2 25 21.0 25 21.0 25 37.3 89.9 6.0 8.2 3.1 5.6 20190107 7 7-01-2019 35.0 25 20.5 25 0.0 25 7.8 25 19.0 25 20.0 25 35.6 83.0 5.6 8.3 2.2 5.2 20190108 8 8-01-2019 36.5 25 21.0 25 0.0 25 8.8 25 19.0 25 20.0 25 32.7 80.5 5.7 8.9 1.9 5.4 20190109 9 9-01-2019 35.5 25 21.5 25 0.0 25 8.8 25 18.0 25 21.0 25 36.3 81.9 5.5 8.3 2.1 5.2 20190110 10 10-01-2019 31.0 25 22.5 25 0.6 25 7.4 25 24.0 25 24.0 25 53.4 88.1 6.7 7.8 5.3 6.5 20190111 11 11-01-2019 31.5 25 22.5 25 6.1 25 9.2 25 22.0 25 22.0 25 47.6 80.7 6.2 7.9 3.8 5.8 20190112 12 12-01-2019 33.0 25 21.5 25 1.0 25 8.6 25 19.0 25 20.0 25 39.8 78.0 5.5 8.0 2.3 5.2 20190113 13 13-01-2019 33.0 25 20.0 25 0.0 25 9.6 25 22.0 25 16.0 25 31.8 68.5 5.9 9.2 1.9 5.5 20190114 14 14-01-2019 32.5 25 21.5 25 0.0 25 8.6 25 20.0 25 20.0 25 40.9 78.0 5.7 8.1 2.6 5.3 20190115 15 15-01-2019 33.5 25 23.0 25 0.0 25 8.6 25 18.0 25 20.0 25 38.7 71.2 5.4 8.4 1.8 5.1 20190116 16 16-01-2019 35.0 25 20.5 25 0.0 25 10.8 25 21.0 25 17.0 25 30.2 70.5 5.9 9.5 1.6 5.5 20190117 17 17-01-2019 33.5 25 21.0 25 0.0 25 11.8 25 25.0 25 18.0 25 34.8 72.4 6.8 9.6 3.1 6.3 20190118 18 18-01-2019 33.5 25 20.5 25 0.0 25 9.4 25 12.0 25 19.0 25 36.7 78.8 4.0 7.0 0.5 3.8 20190119 19 19-01-2019 34.0 25 21.5 25 0.0 25 11.2 25 18.0 25 20.0 25 37.6 78.0 5.4 8.2 1.9 5.1 20190120 20 20-01-2019 34.0 25 20.0 25 0.0 25 9.6 25 18.0 25 17.0 25 32.0 72.7 5.2 8.6 1.1 4.9 20190121 21 21-01-2019 33.5 25 20.0 25 0.0 25 12.6 25 19.0 25 17.0 25 32.9 72.7 5.3 8.6 1.4 5.0 20190122 22 22-01-2019 34.0 25 20.5 25 0.0 25 11.0 25 22.0 25 17.0 25 32.0 70.5 6.1 9.3 2.0 5.7 20190123 23 23-01-2019 34.0 25 20.5 25 0.0 25 10.4 25 19.0 25 19.0 25 35.7 78.8 5.5 8.3 2.0 5.1 20190124 24 24-01-2019 35.5 25 22.5 25 0.0 25 9.4 25 16.0 25 21.0 25 36.3 77.1 5.1 8.3 1.5 4.9 20190125 25 25-01-2019 31.5 25 23.0 25 0.0 25 9.8 25 17.0 25 20.0 25 43.3 71.2 5.1 7.7 1.9 4.8 20190126 26 26-01-2019 30.0 25 21.5 25 0.0 25 11.6 25 19.0 25 21.0 25 49.5 81.9 5.3 7.0 3.1 5.0 20190127 27 27-01-2019 27.0 25 21.0 25 3.0 25 6.4 25 16.0 25 22.0 25 61.7 88.5 4.5 5.4 3.5 4.4 20190128 28 28-01-2019 26.5 25 20.5 25 9.3 25 4.8 25 15.0 25 24.0 25 69.3 99.6 4.5 4.6 4.2 4.4 20190129 29 29-01-2019 27.5 25 22.0 25 10.7 25 2.2 25 17.0 25 25.0 25 68.1 94.6 4.9 5.2 4.4 4.8 20190130 30 30-01-2019 25.5 25 22.0 25 33.4 25 3.8 25 15.0 25 26.0 25 79.7 98.4 4.4 4.4 4.4 4.4 20190131 31 31-01-2019 26.5 25 21.0 25 48.2 25 4.8 25 14.0 25 27.0 25 78.0 100.0 4.1 4.0 4.0 4.0