Abstract

We describe a sensitive plant monitoring system by the detection of the bioelectric potentials in plants with boron-doped diamond (BDD) electrodes. For sensor electrodes, we used commercially available BDD, Ag, and Pt plate electrodes. We tested this approach on a hybrid species in the genus Opuntia (potted) and three different trees (ground-planted) at different places in Japan. For the Opuntia, we artificially induced bioelectric potential changes by the surface potential using the fingers. We detected substantial changes in bioelectric potentials through all electrodes during finger touches on the surface of potted Opuntia hybrid plants, although the BDD electrodes were several times more sensitive to bioelectric potential change compared to the other electrodes. Similarly for ground-planted trees, we found that both BDD and Pt electrodes detected bioelectric potential change induced by changing environmental factors (temperature and humidity) for months without replacing/removing/changing electrodes, BDD electrodes were 5–10 times more sensitive in this detection than Pt electrodes. Given these results, we conclude that BDD electrodes on live plant tissue were able to consistently detect bioelectrical potential changes in plants.

Highlights

  • Plants have various capabilities to detect environmental factors such as atmospheric temperature, humidity, and light intensity

  • Drastic changes of bioelectric potentials were monitored by all electrodes during a finger touch on the Opuntia hybrid surface

  • The amount of bioelectric potential change monitored by the boron-doped diamond (BDD) electrode is more stable than that of the other electrodes

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Summary

Introduction

Plants have various capabilities to detect environmental factors such as atmospheric temperature, humidity, and light intensity. This becomes obvious by monitoring their bioelectric potential changes [1,2,3,4,5]. We used commercially available Ag and Pt plate electrodes We tested this approach on a hybrid species in the genus Opuntia (potted) and three different trees (ground-planted) at different places in Japan. In this time, we artificially induced bioelectric potential changes using the surface potential of the human finger for the potted Opuntia. For the ground-planted trees, we recorded bioelectric potential changes of the trees and environmental factors (temperature and humidity) changes for months without replacing/removing/changing electrodes

Experimental Section
Results and Discussion
Conclusions

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