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Plant Signaling & Behavior Volume 10, 2015 - Issue 1
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Short Communication

Sunflower exposed to high-intensity microwave-frequency electromagnetic field: electrophysiological response requires a mechanical injury to initiate

David RouxUniversité d'Avignon et des Pays de Vaucluse; Avignon, FranceCorrespondence[email protected]
,
Alexandre CatrainCommissariat Energie Atomique et Energies Alternatives (CEA), Direction des applications militaires (DAM), Gramat, France
,
Sébastien LallechereClermont Université, Université Blaise Pascal; Institut Pascal; Clermont-Ferrand, France;Centre national de la recherche scientifique (CNRS), Unité mixte de recherche (UMR) 6602, Institut Pascal; Aubière, France
&
Jean-Christophe JolyCommissariat Energie Atomique et Energies Alternatives (CEA), Direction des applications militaires (DAM), Gramat, France
Article: e972787 | Received 27 May 2014, Accepted 17 Jul 2014, Published online: 05 Feb 2015
 
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Abstract

We have monitored the electrical potential variations (EPV) of sunflower plants illuminated by a high-intensity microwave-frequency (2.5 GHz, 1.5 kV/m) electromagnetic field (EMF). We have designed an appropriate set-up that allows parallel temperature and EPV measurements while part of the plant is being exposed to the field. The results show that the considered EMF does not induce plant EPV directly. This electrophysiological response appears only when the EMF leads to a mechanical injury of the tissues via a thermal effect (dielectric heating). Once the plant inner temperature reached a threshold, we systematically observed burn-like lesions associated with the bending of the stem or leaf-stalks. Theses mechanical constraints were rapidly followed by EPVs, moving through the stem.

Disclosure of Potential Conflicts of Interest

No potential conflicts of interest were disclosed.

Funding

This work was supported by the common CEA-Gramat / Institut Blaise Pascal BIOEM laboratory (France).

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