A leaf-mounted thermal sensor for the measurement of water content

A leaf-mounted thermal sensor for the measurement of water content

► We present a micro-thermal sensor for the real-time detection of the water content of plant leaves. ► Temperature differences (ΔT) induced within leaf can be related to the water content. ► A flexible polyimide substrate ensures it is robust enough to operate on leaves. ► A comparison of device ou...

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Bibliographic Details
Published in:Sensors and actuators. A. Physical. Vol. 187; pp. 67 - 72
Main Authors: Atherton, Joseph J., Rosamond, Mark C., Zeze, Dagou A.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-11-2012
Subjects:
Devices
Heaters
Information technology
Leaf
Leaves
Moisture content
Real time
Sensors
Thermal sensor
Thermocouples
Water content
Leaf
Water content
Thermal sensor
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Summary:► We present a micro-thermal sensor for the real-time detection of the water content of plant leaves. ► Temperature differences (ΔT) induced within leaf can be related to the water content. ► A flexible polyimide substrate ensures it is robust enough to operate on leaves. ► A comparison of device output against leaf weight demonstrated operation. ► The device can monitor the real-time water content of leaves in situ on plants subjected to water stress conditions. We present a microfabricated thermal sensor for the real-time measurement of the water content of plant leaves. The device consists of a thin-film micro-heater which induces a temperature gradient within a leaf to which it is attached. Temperature differences (ΔT) between two thin-film thermocouples spaced 50μm and 160μm from the heater can be related to the thermal properties of the sample under inspection which, in turn, are dependent on the leaf water content. The sensor is fabricated on a flexible polyimide substrate to ensure that it is robust enough to operate reliably without causing visible damage to the leaves. To demonstrate the device's operation, it was clamped to abscised leaves which were allowed to dry over a period of around 6h. The device's output was then compared to the relative water content of the leaf which was directly measured by weighing the leaf. For the range considered, a linear dependence was observed between ΔT and the water content of the leaf. It is suggested that the changes in ΔT are dominated by the thermal contact resistance between the device and the leaf. The device was subsequently used to monitor the real-time water content of leaves in situ on plants subjected to water stress conditions.
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content type line 23
ISSN:0924-4247
1873-3069
DOI:10.1016/j.sna.2012.06.021