Origin, Development, and Applications of Air-Coupled Broadband Ultrasounds for the Study of Tissues and Water Relations in Plant Leaves: A Review

Lola Fariñas;Domingo Sancho-Knapik;José J. Peguero-Pina;Eustaquio Gil-Pelegrín;Tomás E. Gómez Álvarez-Arenas
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Abstract

This paper reviews the origin, development and use of air-coupled ultrasonic techniques for the study of plant leaf tissues and their water relations. The two techniques proposed so far are included: Non-Contact Resonant Ultrasound Spectroscopy and Non-Resonant Time Domain Transmittance. While both are completely non-invasive, non-destructive and fast, the former has been used to determine water potential, turgor loss point and differential behavior of various leaf tissues, and has been extensively tested for different species, both in vivo and ex vivo in parallel with in-field experiments; while the latter has recently been proposed as a universal technique that can be applied to plant leaves regardless of the possibility of exciting thickness resonances.
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用于研究植物叶片组织和水分关系的空气耦合宽带超声波的起源、发展和应用:综述
本文回顾了用于研究植物叶片组织及其水分关系的空气耦合超声波技术的起源、发展和应用。其中包括迄今为止提出的两种技术:非接触共振超声波光谱法和非共振时域透射法。前者已被用于测定各种叶片组织的水势、湍流损失点和差异行为,并在不同物种上进行了广泛的体内和体外测试,与现场实验并行;而后者是最近提出的一种通用技术,无论是否可能激发厚度共振,均可应用于植物叶片。
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