Development, calibration and testing of a low‐cost small lysimeter for monitoring evaporation and transpiration

Development, calibration and testing of a low‐cost small lysimeter for monitoring evaporation and transpiration

Weighing lysimeters differ in shape and size and are well established in measuring soil water balance components, such as evaporation, transpiration and drainage. This study addresses the development, calibration and testing of low‐cost small lysimeters for measuring evaporation and transpiration of...

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Veröffentlicht in:Irrigation and drainage 2017-04, Vol.66 (2), p.263-272
Hauptverfasser: Bello, Zaid A., Van Rensburg, Leon D.
Format: Artikel
Sprache:eng
Schlagworte:
Barley
Calibration
calibration
évapotranspiration
cellule de charge
précision
bilan hydrique
lysimètre à pesage
Components
Copyright
Drainage
Drainage measurement
Evaporation
evapotranspiration
Hordeum vulgare
Installation
Linearity
load cell
Load cells
Lysimeters
Moisture content
Monitoring
Plastics
precision
Seasons
Sensitivity
Soil
Soil profiles
Soil water
Temperature
Temperature effects
Testing
Transpiration
Water balance
Water content
weighing lysimeter
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Zusammenfassung:Weighing lysimeters differ in shape and size and are well established in measuring soil water balance components, such as evaporation, transpiration and drainage. This study addresses the development, calibration and testing of low‐cost small lysimeters for measuring evaporation and transpiration of barley in a glasshouse for three consecutive winter seasons (2011–2013). Forty‐one small lysimeters were developed and used during the study. The lysimeters were made from plastic materials mounted on Tedea‐Huntleigh model 1260 load cells. The temperature effect on the final mass reading from the load cells was corrected by deducing temperature correction factors for all the lysimeters. During calibration, the lysimeters had high linearity and no hysteresis. Sensitivities of the lysimeters ranged between 0.1 and 0.35 mm. The small lysimeters developed, installed and calibrated were able to measure evaporation and transpiration separately at high accuracy, sensitivity and precision. These lysimeters measured on hourly and daily bases, and were able to measure all the soil water balance components. Apart from the simplicity of these lysimeters, the water content of the whole soil profile could be easily monitored due to the deeper depth of the lysimeter. These small lysimeters were cheap to construct, and installation was easy compared to other lysimeters. Copyright © 2016 John Wiley & Sons, Ltd. Résumé Les lysimètres à variation de masse diffèrent dans la forme et la taille et sont bien connus pour mesurer les composantes du bilan hydrique des sols, tels que l'évaporation, la transpiration et le drainage. Cette étude porte sur le développement, l'étalonnage et les tests de petits lysimètres à faible coût pour mesurer l'évaporation et la transpiration de l'orge dans une serre pour trois hivers consécutifs (2011–2013). Quarante et un petit lysimètres ont été élaborés et utilisés au cours de l'étude. Les lysimètres étaient fabriqués à partir de matériaux en plastique montés sur des capteurs de charge Tedea‐Huntleigh modèle 1260. Les effets de la température sur la masse finale de lecture des cellules de charge ont été corrigés pour tous les lysimètres. Pendant l'étalonnage, les lysimètres avaient une haute linéarité et aucune hystérésis. La sensibilité des lysimètres variaient entre 0.1 et 0.35 mm. Les petits lysimètres développés ont pu mesurer l'évaporation et la transpiration séparément a vec justessse, sensibilité et précision. Ces lysimètres ont mesuré aux pas
ISSN:1531-0353
1531-0361
DOI:10.1002/ird.2095