A library of electrophysiological responses in plants - a model of transversal education and open science.

Plant signaling & behavior Pub Date : 2024-12-31 Epub Date: 2024-03-17 DOI:10.1080/15592324.2024.2310977

Danae Madariaga, Derek Arro, Catalina Irarrázaval, Alejandro Soto, Felipe Guerra, Angélica Romero, Fabián Ovalle, Elsa Fedrigolli, Thomas DesRosiers, Étienne Serbe-Kamp, Timothy Marzullo

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Abstract

Electrophysiology in plants is understudied, and, moreover, an ideal model for student inclusion at all levels of education. Here, we report on an investigation in open science, whereby scientists worked with high school students, faculty, and undergraduates from Chile, Germany, Serbia, South Korea, and the USA. The students recorded the electrophysiological signals of >15 plant species in response to a flame or tactile stimulus applied to the leaves. We observed that approximately 60% of the plants studied showed an electrophysiological response, with a delay of ~ 3-6 s after stimulus presentation. In preliminary conduction velocity experiments, we verified that observed signals are indeed biological in origin, with information transmission speeds of ~ 2-9 mm/s. Such easily replicable experiments can serve to include more investigators and students in contributing to our understanding of plant electrophysiology.

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植物电生理反应图书馆--横向教育和开放科学的典范。

植物的电生理学研究不足，而且是各级教育中学生参与的理想模式。在这里，我们报告了一项开放科学调查，科学家们与来自智利、德国、塞尔维亚、韩国和美国的高中生、教师和本科生进行了合作。学生们记录了 >15 种植物在叶片受到火焰或触觉刺激时的电生理信号。我们观察到，所研究的植物中约有 60% 出现了电生理反应，在刺激出现后延迟约 3-6 秒。在初步的传导速度实验中，我们验证了观察到的信号确实来源于生物，信息传输速度约为 2-9 mm/s。这种易于复制的实验可以让更多的研究人员和学生参与进来，促进我们对植物电生理学的理解。

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Plant signaling & behavior

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