Although Ultraviolet-B (UV-B)-plant interactions have been extensively analysed in the past years, many physiological aspects of the complex plant response mechanisms still need to be elucidated. Depending on the energy dose, this part of the electromagnetic spectrum can induce detrimental or beneficial effects in plant and fruit. In the present work, active thermography is used to analyse in real time the response of plants under different doses of artificial UV-B. In particular, we investigated the temporal variations of the leaf surface temperature (LST) to UV-B exposure by Long Pulse and Lock-in thermography in Epipremnum aureum and in Arabidopsis plants overexpressing or knockout mutants of UVR8, the known UV-B photoreceptor. In both cases, UV-B irradiation triggers a cooling effect, namely a thermal response characterised by a LST lower respect to the initial value. Lock-in thermography demonstrated that the cooling effect is associated with an immediate mobilization and accumulation of water in the leaves. Also, we demonstrated that thermographic responses change according to the different capability of plants to tolerate high UV-B radiation. Our study highlights new physiological and physical aspects of the plants response to UV-B radiation and, more in general, it opens new opportunities for the use of the thermography as smart tool for real-time monitoring of plant environmental interactions.
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