Dataset Details

Data Set ID: primet_229_a_5min_2017
Originator: Christopher Daly
Title: Meteorological data from Primary Met Station at the Andrews Forest. Variables include: fan-aspirated air temperature and four component radiation from 01-Oct-2016 to 01-Oct-2017
Abstract: A three-level hydro-climatological network for data monitoring was established in 1994. The networks at each level are nested to form a coordinated program of data acquisition and measurement. A future vision of linking the benchmark meteorological stations with regional weather stations to expand the future scope of studies was also considered in designing this network. The first-level in this top-down approach consists of Benchmark Meteorological Stations (BMS) and Benchmark Stream Stations. The BMS are designed to represent the environment across the Andrews. These stations are intended to provide complete, long-term, high temporal resolution, meso-scale hydroclimatological data. The location of the BMS network is based on factors such as elevation, aspect, vegetation gradients, and accessibility. Collected meteorological parameters are generally standardized across the BMS as well as methods and instrumentation. Secondary Meteorological Stations also follow standardized methods and serve similar purposes but are somewhat limited in meteorological parameters collected. The Primary Meteorological Station (PRIMET), Central Meteorological Station (CENMET), Upper Lookout Meteorological Station (UPLMET), and Vanilla Leaf Meteorological Station (VANMET) are the four Benchmark Stations, Climatic Station at Watershed 2 (CS2MET) and the Hi-15 Meteorological Station (H15MET) are Secondary Stations.
Key Words: Air temperature, Climate change, Climate data, Meteorological measurements, Monitoring, Photosynthetically active radiation, Precipitation, Relative humidity, Snow accumulation, Snow hydrology, Soil moisture, Soil temperature, Solar radiation, Wind speed, Disturbance
Study Type: Monitoring
Study Period: 01-Oct-2016 to 01-Oct-2017
Bounding Box: West longitude:  unspecified
North latitude:  unspecified
East longitude:  unspecified
South latitude:  unspecified
Site References: PRIMET_229
Downloads:  Formats

Data Table:  primet_229_a_5min_2017 (Main data table, 105120 records)

Access:  Public

Metadata:  Text (ESA FLED)

Data Files:  Spreadsheet (CSV Text) [32173kb], GCE Data Toolbox File [9139kb], Web Table (HTML text) [692kb]

Column List:

Column Name Units Type Description (show)
1 Site string Site code
2 Date string Calendar date and time of measurement
3 LOGGERID none integer LOGGERID
4 PROGID none floating-point Program ID of program
5 SWI_MEAN_600_0_02 w m-2 floating-point Downward shortwave radiation recorded by Hukseflux NR01
6 Flag_SWI_MEAN_600_0_02 none string QA/QC flags for Downward shortwave radiation recorded by Hukseflux NR01 (flagging criteria, where "x" is SWI_MEAN_600_0_02: x<=-10="I", x>1367="I", x>1060="Q", isnan(x)="M", x<-0.5&x>-10="Q", manual)
7 SWO_MEAN_600_0_02 w m-2 floating-point Upward shortwave radiation recorded by Hukseflux NR01
8 Flag_SWO_MEAN_600_0_02 none string QA/QC flags for Upward shortwave radiation recorded by Hukseflux NR01 (flagging criteria, where "x" is SWO_MEAN_600_0_02: x<=-10="I", x>1367="I", x>1060="Q", isnan(x)="M", x<-0.5&x>-10="Q")
9 LWI_MEAN_600_0_02 w m-2 floating-point Corrrected downward longwave radiation (emited from the atmosphere). Correction factor: IR01UpCo=IR01Up+5.67*10^-8*NR01TK^4 recorded by Hukseflux NR01
10 Flag_LWI_MEAN_600_0_02 none string QA/QC flags for Corrrected downward longwave radiation (emited from the atmosphere). Correction factor: IR01UpCo=IR01Up+5.67*10^-8*NR01TK^4 recorded by Hukseflux NR01 (flagging criteria, where "x" is LWI_MEAN_600_0_02: isnan(x)="M", manual)
11 LWO_MEAN_600_0_02 w m-2 floating-point Corrrected upward longwave radiation (emited from the surface). Correction factor: IR01DnCo=IR01Dn+5.67*10^-8*NR01TK^4 recorded by Hukseflux NR01
12 Flag_LWO_MEAN_600_0_02 none string QA/QC flags for Corrrected upward longwave radiation (emited from the surface). Correction factor: IR01DnCo=IR01Dn+5.67*10^-8*NR01TK^4 recorded by Hukseflux NR01 (flagging criteria, where "x" is LWO_MEAN_600_0_02: isnan(x)="M", flag_daterange(Date,{"8/26/2022 11:10:00","8/26/2022 20:00:00"})="Q", manual)
13 NRT_MEAN_600_0_02 w m-2 floating-point Net radiation total. NetTot=UpTot-DnTot recorded by Hukseflux NR01
14 Flag_NRT_MEAN_600_0_02 none string QA/QC flags for Net radiation total. NetTot=UpTot-DnTot recorded by Hukseflux NR01 (flagging criteria, where "x" is NRT_MEAN_600_0_02: isnan(x)="M", flag_daterange(Date,{"8/26/2022 11:10:00","8/26/2022 20:00:00"})="Q", manual)
15 LWI_AVG_[]_[]_[] w m-2 floating-point Uncorrrected downward longwave radiation (emited from the atmosphere) recorded by Hukseflux NR01
16 Flag_LWI_AVG_[]_[]_[] none string QA/QC flags for Uncorrrected downward longwave radiation (emited from the atmosphere) recorded by Hukseflux NR01 (flagging criteria, where "x" is LWI_AVG_[]_[]_[]: isnan(x)="M", manual)
17 LWO_AVG_[]_[]_[] w m-2 floating-point Uncorrrected upward longwave radiation (emited from the surface) recorded by Hukseflux NR01
18 Flag_LWO_AVG_[]_[]_[] none string QA/QC flags for Uncorrrected upward longwave radiation (emited from the surface) recorded by Hukseflux NR01 (flagging criteria, where "x" is LWO_AVG_[]_[]_[]: isnan(x)="M", flag_daterange(Date,{"8/26/2022 11:10:00","8/26/2022 20:00:00"})="Q", manual)
19 TSB_MEAN_600_0_02 deg c floating-point Temperature of sensor body recorded by Hukseflux NR01
20 Flag_TSB_MEAN_600_0_02 none string QA/QC flags for Temperature of sensor body recorded by Hukseflux NR01 (flagging criteria, where "x" is TSB_MEAN_600_0_02: isnan(x)="M", manual)
21 NR01TK_Avg_[]_[]_[]_[] w m-2 floating-point Temperature of sensor body. NR01TK=NR01TC+273.15 recorded by Hukseflux NR01
22 Flag_NR01TK_Avg_[]_[]_[]_[] none string QA/QC flags for Temperature of sensor body. NR01TK=NR01TC+273.15 recorded by Hukseflux NR01 (flagging criteria, where "x" is NR01TK_Avg_[]_[]_[]_[]: isnan(x)="M", manual)
23 NRS_AVG_[]_[]_[] w m-2 floating-point Net shortwave radiation. NetRs=SR01Up-SR01Dn recorded by Hukseflux NR01
24 Flag_NRS_AVG_[]_[]_[] none string QA/QC flags for Net shortwave radiation. NetRs=SR01Up-SR01Dn recorded by Hukseflux NR01 (flagging criteria, where "x" is NRS_AVG_[]_[]_[]: isnan(x)="M", flag_daterange(Date,{"8/26/2022 11:10:00","8/26/2022 20:00:00"})="Q", manual)
25 NRL_AVG_[]_[]_[] w m-2 floating-point Net longwave radiation. NetRl=IR01Up-IR01Dn recorded by Hukseflux NR01
26 Flag_NRL_AVG_[]_[]_[] none string QA/QC flags for Net longwave radiation. NetRl=IR01Up-IR01Dn recorded by Hukseflux NR01 (flagging criteria, where "x" is NRL_AVG_[]_[]_[]: isnan(x)="M", flag_daterange(Date,{"8/26/2022 11:10:00","8/26/2022 20:00:00"})="Q", manual)
27 SW_ALBEDO_[]_600_0_02 none floating-point Shortwave radiation albedo
28 Flag_SW_ALBEDO_[]_600_0_02 none string QA/QC flags for Shortwave radiation albedo (flagging criteria, where "x" is SW_ALBEDO_[]_600_0_02: x<0="Q", x>1="Q", isnan(x)="M")
29 IN_AVG W m-2 floating-point Total downward radiation. UpTot=SR01Up+IR01UpCo
30 Flag_IN_AVG none string QA/QC flags for Total downward radiation. UpTot=SR01Up+IR01UpCo (flagging criteria, where "x" is IN_AVG: isnan(x)="M", manual)
31 OUT_AVG_[]_[]_[]_[] w m-2 floating-point Total upward radiation; DnTot=SR01Dn+IR01DnCo recorded by Hukseflux NR01
32 Flag_OUT_AVG_[]_[]_[]_[] none string QA/QC flags for Total upward radiation; DnTot=SR01Dn+IR01DnCo recorded by Hukseflux NR01 (flagging criteria, where "x" is OUT_AVG_[]_[]_[]_[]: isnan(x)="M", manual)
33 AIRTEMP_MEAN_150_0_06 deg c floating-point Fan aspirated temperature
34 Flag_AIRTEMP_MEAN_150_0_06 none string QA/QC flags for Fan aspirated temperature (flagging criteria, where "x" is AIRTEMP_MEAN_150_0_06: isnan(x)="M", x<=-35="I", x>50="I", x<FOURLO="Q", x>FOURHI="Q", flag_valuechange(x,8,8,1)="Q", flag_valuechange(x,6.5,6.5,1)="V", flag_daterange(Date,{"8/4/2022 12:50:00","8/16/2022 16:00:00"})="I", flag_daterange(Date,{"8/16/2022 10:10:00","8/16/2022 13:20:00"})="T", flag_daterange(Date,{"09/29/2020 12:15:00","09/29/2020 15:10:00"})="Q", (AIRTEMP_MAX_150_0_06-AIRTEMP_MEAN_150_0_06)>1="Q", (AIRTEMP_MEAN_150_0_06-AIRTEMP_MIN_150_0_06)>1="Q", x>AIRTEMP_MAX_150_0_06="I", x<AIRTEMP_MIN_150_0_06=‘I’, flag_daterange(Date,{"11/02/2024 09:35:00","11/12/2024 16:15:00"})="T", manual)
35 AIRTEMP_MEAN_250_0_07 deg c floating-point Fan aspirated temperature
36 Flag_AIRTEMP_MEAN_250_0_07 none string QA/QC flags for Fan aspirated temperature (flagging criteria, where "x" is AIRTEMP_MEAN_250_0_07: isnan(x)="M", x<=-35="I", x>50="I", x<FOURLO="Q", x>FOURHI="Q", flag_valuechange(x,8,8,1)="Q", flag_valuechange(x,6.5,6.5,1)="V", x>AIRTEMP_MAX_250_0_07="I", x<AIRTEMP_MIN_250_0_07=‘I’, (AIRTEMP_MAX_250_0_07-AIRTEMP_MEAN_250_0_07)>1="Q", (AIRTEMP_MEAN_250_0_07-AIRTEMP_MIN_250_0_07)>1="Q", flag_daterange(Date,{"09/30/2020 10:40:00","09/30/2020 14:00:00"})="Q", flag_daterange(Date,{"01/15/2024 09:30:00","01/19/2024 10:35:00"})=’T’, flag_daterange(Date,{’01/20/2024 12:00:00",’01/28/2024 08:30:00"})=’T", manual)
37 AIRTEMP_MEAN_350_0_08 deg c floating-point Fan aspirated temperature
38 Flag_AIRTEMP_MEAN_350_0_08 none string QA/QC flags for Fan aspirated temperature (flagging criteria, where "x" is AIRTEMP_MEAN_350_0_08: isnan(x)="M", x<=-35="I", x>50="I", x<FOURLO="Q", x>FOURHI="Q", flag_valuechange(x,8,8,1)="Q", flag_valuechange(x,6.5,6.5,1)="V", (AIRTEMP_MAX_350_0_08-AIRTEMP_MEAN_350_0_08)>1="Q", (AIRTEMP_MEAN_350_0_08-AIRTEMP_MIN_350_0_08)>1="Q", x>AIRTEMP_MAX_350_0_08="I", x<AIRTEMP_MIN_350_0_08=‘I’, flag_daterange(Date,{"09/29/2020 08:10:00","09/30/2020 15:40:00"})="Q", flag_daterange(Date,{"01/15/2024 09:30:00","01/19/2024 10:35:00"})=’T’, flag_daterange(Date,{’01/20/2024 12:00:00",’01/28/2024 08:30:00"})=’T", flag_daterange(Date,{’06/07/2023 13:50:00",’06/07/2023 14:00:00"})=’I", manual)
39 AIRTEMP_MEAN_450_0_09 deg c floating-point Fan aspirated temperature
40 Flag_AIRTEMP_MEAN_450_0_09 none string QA/QC flags for Fan aspirated temperature (flagging criteria, where "x" is AIRTEMP_MEAN_450_0_09: isnan(x)="M", x<=-35="I", x>50="I", x<FOURLO="Q", x>FOURHI="Q", flag_valuechange(x,8,8,1)="Q", flag_valuechange(x,6.5,6.5,1)="V", (AIRTEMP_MAX_450_0_09-AIRTEMP_MEAN_450_0_09)>1="Q", (AIRTEMP_MEAN_450_0_09-AIRTEMP_MIN_450_0_09)>1="Q", x>AIRTEMP_MAX_450_0_09="I", x<AIRTEMP_MIN_450_0_09=‘I’, flag_daterange(Date,{"10/01/2020 09:05:00","10/01/2020 10:55:00"})="Q", flag_daterange(Date,{"09/02/2023 17:00:00","11/13/2023 17:15:00"})="Q", flag_daterange(Date,{"01/15/2024 09:30:00","01/19/2024 10:35:00"})=’T’, flag_daterange(Date,{’01/20/2024 12:00:00",’01/28/2024 08:30:00"})=’T", flag_daterange(Date,{"03/29/2024 05:00:00","05/09/2024 20:00:00"})="T", flag_daterange(Date,{"07/07/2024 04:30:00","07/10/2024 19:15:00"})="T", manual)
41 AIRTEMP_MAX_150_0_06 deg c floating-point Fan aspirated temperature
42 Flag_AIRTEMP_MAX_150_0_06 none string QA/QC flags for Fan aspirated temperature (flagging criteria, where "x" is AIRTEMP_MAX_150_0_06: isnan(x)="M", x<=-35="I", x>50="I", x<FOURLO="Q", x>FOURHI="Q", flag_valuechange(x,8,8,1)="Q", flag_valuechange(x,6.5,6.5,1)="V", manual)
43 AIRTEMP_MAX_250_0_07 deg c floating-point Fan aspirated temperature
44 Flag_AIRTEMP_MAX_250_0_07 none string QA/QC flags for Fan aspirated temperature (flagging criteria, where "x" is AIRTEMP_MAX_250_0_07: isnan(x)="M", x<=-35="I", x>50="I", x<FOURLO="Q", x>FOURHI="Q", flag_valuechange(x,8,8,1)="Q", flag_valuechange(x,6.5,6.5,1)="V", manual)
45 AIRTEMP_MAX_350_0_08 deg c floating-point Fan aspirated temperature
46 Flag_AIRTEMP_MAX_350_0_08 none string QA/QC flags for Fan aspirated temperature (flagging criteria, where "x" is AIRTEMP_MAX_350_0_08: isnan(x)="M", x<=-35="I", x>50="I", x<FOURLO="Q", x>FOURHI="Q", flag_valuechange(x,8,8,1)="Q", flag_valuechange(x,6.5,6.5,1)="V", manual)
47 AIRTEMP_MAX_450_0_09 deg c floating-point Fan aspirated temperature
48 Flag_AIRTEMP_MAX_450_0_09 none string QA/QC flags for Fan aspirated temperature (flagging criteria, where "x" is AIRTEMP_MAX_450_0_09: isnan(x)="M", x<=-35="I", x>50="I", x<FOURLO="Q", x>FOURHI="Q", flag_valuechange(x,8,8,1)="Q", flag_valuechange(x,6.5,6.5,1)="V", manual)
49 AIRTEMP_MIN_150_0_06 deg c floating-point Fan aspirated temperature
50 Flag_AIRTEMP_MIN_150_0_06 none string QA/QC flags for Fan aspirated temperature (flagging criteria, where "x" is AIRTEMP_MIN_150_0_06: isnan(x)="M", x<=-35="I", x>50="I", x<FOURLO="Q", x>FOURHI="Q", flag_valuechange(x,8,8,1)="Q", flag_valuechange(x,6.5,6.5,1)="V", manual)
51 AIRTEMP_MIN_250_0_07 deg c floating-point Fan aspirated temperature
52 Flag_AIRTEMP_MIN_250_0_07 none string QA/QC flags for Fan aspirated temperature (flagging criteria, where "x" is AIRTEMP_MIN_250_0_07: isnan(x)="M", x<=-35="I", x>50="I", x<FOURLO="Q", x>FOURHI="Q", flag_valuechange(x,8,8,1)="Q", flag_valuechange(x,6.5,6.5,1)="V", manual)
53 AIRTEMP_MIN_350_0_08 deg c floating-point Fan aspirated temperature
54 Flag_AIRTEMP_MIN_350_0_08 none string QA/QC flags for Fan aspirated temperature (flagging criteria, where "x" is AIRTEMP_MIN_350_0_08: isnan(x)="M", x<=-35="I", x>50="I", x<FOURLO="Q", x>FOURHI="Q", flag_valuechange(x,8,8,1)="Q", flag_valuechange(x,6.5,6.5,1)="V", manual)
55 AIRTEMP_MIN_450_0_09 deg c floating-point Fan aspirated temperature
56 Flag_AIRTEMP_MIN_450_0_09 none string QA/QC flags for Fan aspirated temperature (flagging criteria, where "x" is AIRTEMP_MIN_450_0_09: isnan(x)="M", x<=-35="I", x>50="I", x<FOURLO="Q", x>FOURHI="Q", flag_valuechange(x,8,8,1)="Q", flag_valuechange(x,6.5,6.5,1)="V", manual)
57 SWI_TOT_600_0_02 MJ/m2 floating-point Calculated total radiative energy. MJ/m2 = val_in_watts * number_seconds_in_period / 1000000
58 Flag_SWI_TOT_600_0_02 none string QA/QC flags for Calculated total radiative energy. MJ/m2 = val_in_watts * number_seconds_in_period / 1000000 (flagging criteria, where "x" is SWI_TOT_600_0_02: manual)
59 SWO_TOT_600_0_02 MJ/m2 floating-point Calculated total radiative energy. MJ/m2 = val_in_watts * number_seconds_in_period / 1000000
60 Flag_SWO_TOT_600_0_02 none string QA/QC flags for Calculated total radiative energy. MJ/m2 = val_in_watts * number_seconds_in_period / 1000000 (flagging criteria, where "x" is SWO_TOT_600_0_02: manual)
Last Modified: 29-Jun-2025 04:24:40