Using in situ vertical displacements to characterize changes in moisture load

Using in situ vertical displacements to characterize changes in moisture load

Changes in soil moisture content alter the load on underlying material, and we have developed a technique for characterizing this effect by using an extensometer to measure the displacement caused by the load change. The extensometer is pushed into soil at depths of 5 m or more, and displacement bet...

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Veröffentlicht in:Water resources research 2015-08, Vol.51 (8), p.5998-6016
Hauptverfasser: Murdoch, Lawrence C., Freeman, Clay E., Germanovich, Leonid N., Thrash, Colby, DeWolf, Scott
Format: Artikel
Sprache:eng
Schlagworte:
Calibration
Evapotranspiration
geolysimeter
hydromechanics
Moisture content
Rainfall
Soil moisture
vadose zone
Water content
Water depth
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container_end_page 6016
container_issue 8
container_start_page 5998
container_title Water resources research
container_volume 51
creator Murdoch, Lawrence C.
Freeman, Clay E.
Germanovich, Leonid N.
Thrash, Colby
DeWolf, Scott
description Changes in soil moisture content alter the load on underlying material, and we have developed a technique for characterizing this effect by using an extensometer to measure the displacement caused by the load change. The extensometer is pushed into soil at depths of 5 m or more, and displacement between two anchors separated by ∼1.5 m is measured with a resolution of better than 0.01 μm (10−8 m). The instrument is sensitive to load changes at the ground surface within a radial distance that is roughly twice its depth, potentially providing a method for averaging changes in water content over hundreds of m2 or more. During a field trial at a site in South Carolina, compressive displacements in unsaturated saprolite were strongly correlated to rainfall with a calibration factor of 0.16 μm displacement per mm of rainfall ±0.002 μm/mm (R2 = 0.95). Estimates of the net change in water volume per unit area made using the calibration factor from rainfall were similar to independent estimates of evapotranspiration. The technique was affected by barometric pressure variations, but the sensitivity was less than expected and does not hinder meaningful application. A companion instrument demonstrated the displacement signal was repeatable. Key Points: Small displacements caused by changes in moisture can be measured at depth The method was validated by comparing data from two instruments to hydro‐data The method samples a region ∼2× the depth of the sensor, hundreds of m2 or more
doi_str_mv 10.1002/2015WR017335
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source Wiley-Blackwell AGU Digital Library; Wiley Online Library Journals Frontfile Complete; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects Calibration
Evapotranspiration
geolysimeter
hydromechanics
Moisture content
Rainfall
Soil moisture
vadose zone
Water content
Water depth
title Using in situ vertical displacements to characterize changes in moisture load
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