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Schulz, Stephan; Becker, Rike; Richard‐Cerda, Juan Carlos; Usman, Mohammed O; aus der Beek, Tim; Merz, Ralf; Schüth, Christoph (2020): Energy balance and soil moisture data of an agricultural test field in Faisalabad, Pakistan [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.921389

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Abstract:
In July 2018, a monitoring station was installed on a test field (31°26'21 .3 '' N, 73°04' 18 17.7 '' E) of the University of Agriculture Faisalabad (UAF) in Pakistan. The general purpose of this station is to create a database that helps to improve the estimation of water balance components. The station operated from 2018-07-03 to 2019-06-01 and is equipped with (i) one net radiometer (NR-Lite2, Kipp & Zonen), mounted at a height of 2.5 m a.g.l., (ii) one self-calibrating soil heat flux plate (HFP01SC, Hukseflux), installed in a depth of 8 cm b.g.l., and (iii) four soil moisture and temperature sensors (CS650, Campbell Scientific), installed in a depth of 10, 20, 40 and 80 cm b.g.l., respectively. The present dataset has a temporal resolution of 1 minute and comprises records of net radiation, soil heat flux, volumetric water content, electric conductivity, and temperature. Due to empty batteries or full memory storage the records show some gaps. The cumulative gap length is 51 days, and the number of full days with records is 281.
Supplement to:
Schulz, Stephan; Becker, Rike; Richard‐Cerda, Juan Carlos; Usman, Mohammed O; aus der Beek, Tim; Merz, Ralf; Schüth, Christoph (2021): Estimating water balance components in irrigated agriculture using a combined approach of soil moisture and energy balance monitoring, and numerical modelling. Hydrological Processes, 35(3), https://doi.org/10.1002/hyp.14077
Coverage:
Latitude: 31.439200 * Longitude: 73.071600
Date/Time Start: 2018-07-02T23:52:00 * Date/Time End: 2019-06-01T10:03:00
Event(s):
Pakistan_UFA_2019 * Latitude: 31.439200 * Longitude: 73.071600 * Location: Pakistan
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
1DATE/TIMEDate/TimeSchulz, StephanGeocode
2Analysis runAnalysis runSchulz, StephanData Logger, CR800SeriesRECORD,CR800Series_2
3Soil heat, fluxSoil heat fluxW/m2Schulz, StephanData Logger, CR800SeriesDiffVolt_1_AVG,CR800
4Soil heat, fluxSoil heat fluxW/m2Schulz, StephanData Logger, CR800SeriesDiffVolt_2_Avg,13477
5Soil water content, volumetricvol SWCm3/m3Schulz, StephanData Logger, CR800Series10 cm b.g.l. (average)
6Conductivity of soil/sedimentCondmS/mSchulz, StephanData Logger, CR800Series10 cm b.g.l. (average)
7Temperature, soilT soil°CSchulz, StephanData Logger, CR800Series10 cm b.g.l. (average)
8Soil water content, volumetricvol SWCm3/m3Schulz, StephanData Logger, CR800Series20 cm b.g.l. (average)
9Conductivity of soil/sedimentCondmS/mSchulz, StephanData Logger, CR800Series20 cm b.g.l. (average)
10Temperature, soilT soil°CSchulz, StephanData Logger, CR800Series20 cm b.g.l. (average)
11Soil water content, volumetricvol SWCm3/m3Schulz, StephanData Logger, CR800Series40 cm b.g.l. (average)
12Conductivity of soil/sedimentCondmS/mSchulz, StephanData Logger, CR800Series40 cm b.g.l. (average)
13Temperature, soilT soil°CSchulz, StephanData Logger, CR800Series40 cm b.g.l. (average)
14Soil water content, volumetricvol SWCm3/m3Schulz, StephanData Logger, CR800Series80 cm b.g.l. (average)
15Conductivity of soil/sedimentCondmS/mSchulz, StephanData Logger, CR800Series80 cm b.g.l. (average)
16Temperature, soilT soil°CSchulz, StephanData Logger, CR800Series80 cm b.g.l. (average)
17Net radiationNETW/m2Schulz, StephanAverage
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0)
Size:
6804092 data points

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