María Gil-Rodríguez scite author profile

[1] Accurate methods are needed to measure changing soil water content from meter to kilometer scales. Laboratory results demonstrate the feasibility of the heat pulse method implemented with fiber optic temperature sensing to obtain accurate distributed measurements of soil water content. A fiber optic cable with an electrically conductive armoring was buried in variably saturated sand and heated via electrical resistance to create thermal pulses monitored by observing the distributed Raman backscatter. . This uncertainty could be further reduced by averaging several heat pulse interrogations and through use of a higher-performance fiber optic sensing system.

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Application of active heat pulse method with fiber optic temperature sensing for estimation of wetting bulbs and water distribution in drip emitters

Gil-Rodríguez

Rodríguez-Sinobas

Benítez-Buelga

et al. 2013

Agricultural Water Management

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Calibration of soil moisture sensing with subsurface heated fiber optics using numerical simulation

Benítez-Buelga

Rodríguez-Sinobas

Sánchez

et al. 2016

Water Resources Research

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The heat pulse probe method can be implemented with actively heated fiber optics (AHFO) to obtain distributed measurements of soil water content (θ) by using reported soil thermal responses measured by Distributed Temperature Sensing (DTS) and with a soil‐specific calibration relationship. However, most reported applications have been calibrated to homogeneous soils in a laboratory, while inexpensive efficient in situ calibration procedures useful in heterogeneous soils are lacking. Here we employed the Hydrus 2‐D/3‐D code to define a soil‐specific calibration curve. We define a 2‐D geometry of the fiber optic cable and the surrounding soil media, and simulate heat pulses to capture the soil thermal response at different soil water contents. The model was validated in an irrigated field using DTS data from two locations along the FO deployment in which reference moisture sensors were installed. Results indicate that θ was measured with the model‐based calibration with accuracy better than 0.022 m3 m−3.

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Effect of reservoir tillage on rainwater harvesting and soil erosion control under a developed rainfall simulator

Salem

Valero

Muñoz

et al. 2014

CATENA

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Effect of integrated reservoir tillage for in-situ rainwater harvesting and other tillage practices on soil physical properties

Salem¹,

Valero²,

Muñoz³

et al. 2015

Soil and Tillage Research

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