Monitoring plant growth by analyzing their morphology using microfocus X-ray CT

IF 0.5 4区 工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC
Tadashi Kunieda, Maika M. Hayashi, Ryo Kumagai, Noriaki Matsuura, Makito Haruta, Jun Ohta, Taku Demura
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引用次数: 0

Abstract

The growth and development of embryophytes is deeply influenced by environmental stimuli, such as light, temperature, and soil nutrients. Understanding the mechanisms underlying the growth response of plants to environmental stimuli is crucial for agriculture. In this study, we examined the morphology of a flowering plant, Arabidopsis thaliana, using microfocus X-ray computed tomography (µCT), which enables non-destructive analysis of the external and internal structures of plants. Three-dimensional (3D) images of the plant, which were reconstructed from X-ray scanned data, clearly showed the shapes of its leaves, stems, and buds from any angle. At a higher magnification, the µCT also revealed the small hair-like structures called trichomes on the Arabidopsis leaf epidermis. However, motion artifacts found in the 3D-reconstructed images indicated that plant's growth rate was faster than scanning speed. Thus, scan parameters must be accordingly optimized. Additionally, CT-based 3D printing can be used to design micro devices that can be further used to monitor plant growth. These results suggest that µCT is a useful technique for analyzing morphology of growing plants.

利用微聚焦 X 射线 CT 分析植物形态,监测植物生长情况
胚状植物的生长和发育深受光照、温度和土壤养分等环境刺激的影响。了解植物生长对环境刺激的反应机制对农业至关重要。在这项研究中,我们利用微聚焦 X 射线计算机断层扫描(µCT)技术研究了开花植物拟南芥的形态,该技术可对植物的外部和内部结构进行非破坏性分析。根据 X 射线扫描数据重建的植物三维(3D)图像从任何角度都能清晰地显示其叶、茎和芽的形状。在较高的放大倍率下,µCT 还能显示拟南芥叶表皮上被称为毛状体的小毛状结构。不过,在三维重建图像中发现的运动伪影表明,植物的生长速度快于扫描速度。因此,必须对扫描参数进行相应的优化。此外,基于 CT 的三维打印技术还可用于设计微型装置,进一步用于监测植物生长。这些结果表明,µCT 是分析植物生长形态的有用技术。
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来源期刊
Electronics and Communications in Japan
Electronics and Communications in Japan 工程技术-工程:电子与电气
CiteScore
0.60
自引率
0.00%
发文量
45
审稿时长
6-12 weeks
期刊介绍: Electronics and Communications in Japan (ECJ) publishes papers translated from the Transactions of the Institute of Electrical Engineers of Japan 12 times per year as an official journal of the Institute of Electrical Engineers of Japan (IEEJ). ECJ aims to provide world-class researches in highly diverse and sophisticated areas of Electrical and Electronic Engineering as well as in related disciplines with emphasis on electronic circuits, controls and communications. ECJ focuses on the following fields: - Electronic theory and circuits, - Control theory, - Communications, - Cryptography, - Biomedical fields, - Surveillance, - Robotics, - Sensors and actuators, - Micromachines, - Image analysis and signal analysis, - New materials. For works related to the science, technology, and applications of electric power, please refer to the sister journal Electrical Engineering in Japan (EEJ).
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