Natural and laser-induced cavitation in corn stems: On the mechanisms of acoustic emissions

TL;DR

This study investigates ultrasonic acoustic emissions from cavitation in corn stems, induced both naturally and via laser, revealing insights into plant hydraulic processes and cavitation mechanisms.

Contribution

It introduces a laser-induced cavitation method in vivo to study localized embolism and acoustic emissions in plant stems, providing new understanding of cavitation dynamics.

Findings

Laser irradiation can induce cavitation in vivo in corn stems.

Ultrasonic emissions are linked to transient cavity oscillations during cavitation.

The technique enables studying plant hydraulic architecture at a localized level.

Abstract

Water in plant xylem is often superheated, and therefore in a meta-stable state. Under certain conditions, it may suddenly turn from the liquid to the vapor state. This cavitation process produces acoustic emissions. We report the measurement of ultrasonic acoustic emissions (UAE) produced by natural and induced cavitation in corn stems. We induced cavitation and UAE in vivo, in well controlled and reproducible experiments, by irradiating the bare stem of the plants with a continuous-wave laser beam. By tracing the source of UAE, we were able to detect absorption and frequency filtering of the UAE propagating through the stem. This technique allows the unique possibility of studying localized embolism of plant conduits, and thus to test hypotheses on the hydraulic architecture of plants. Based on our results, we postulate that the source of UAE is a transient "cavity oscillation" triggered by the disruptive effect of cavitation inception.