Nondestructive in situ monitoring of pea seeds germination using optical coherence tomography
Nondestructive in situ monitoring of pea seeds germination using optical coherence tomography
Seed germination and uniform plant stand in the field are the most critical crop growth stages determining the final yield. Pea (Pisum sativum L.) seeds production is often hampered due to the seed dormancy caused by the hard seed coat. Such effect is mainly attributed to poor or uneven germination and unsynchronised seedling emergence. Understanding the time course of water intake and several critical germination indicators can reveal many features of seed germination such as rate and uniformity. This paper used optical coherence tomography (OCT), a noninvasive and cross-sectional imaging technique, to monitor the inner structural changes throughout the germination process. A sequence of cross-sectional OCT images of pea (P. sativum L.) seeds, together with additional microscopic optical images, was recorded continuously and in situ for over 40 h. OCT and microscopic images revealed the changes in the internal structure and the external shape of the pea seeds during germination, respectively. It was found that the cross-sectional OCT images helped to identify the critical indicators distinguishing the different phases of germination pea seeds. Therefore, the presented OCT approach offers a fast and nondestructive way to precisely measure the structural indicators in different germination phases.
Li, Xinhua
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Yang, Xingyu
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Li, Xiaoran
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Zhao, Zhiyi
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Zhang, Zijian
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Lin, Hungyen
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Kang, Dingming
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Shen, Yaochun
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Li, Xinhua
e5d9d3fb-5022-43f4-9a5b-cb018bdde2ae
Yang, Xingyu
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Li, Xiaoran
aeed6f45-b2a2-4cbf-91b0-85c7185f913e
Zhao, Zhiyi
a39dcbaa-eea0-485f-8451-72e25daf2c34
Zhang, Zijian
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Lin, Hungyen
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Kang, Dingming
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Shen, Yaochun
0dd7fc84-23be-4931-b718-057db1286a39
Li, Xinhua, Yang, Xingyu, Li, Xiaoran, Zhao, Zhiyi, Zhang, Zijian, Lin, Hungyen, Kang, Dingming and Shen, Yaochun
(2022)
Nondestructive in situ monitoring of pea seeds germination using optical coherence tomography.
Plant Direct, 6 (7), [e428].
(doi:10.1002/pld3.428).
Abstract
Seed germination and uniform plant stand in the field are the most critical crop growth stages determining the final yield. Pea (Pisum sativum L.) seeds production is often hampered due to the seed dormancy caused by the hard seed coat. Such effect is mainly attributed to poor or uneven germination and unsynchronised seedling emergence. Understanding the time course of water intake and several critical germination indicators can reveal many features of seed germination such as rate and uniformity. This paper used optical coherence tomography (OCT), a noninvasive and cross-sectional imaging technique, to monitor the inner structural changes throughout the germination process. A sequence of cross-sectional OCT images of pea (P. sativum L.) seeds, together with additional microscopic optical images, was recorded continuously and in situ for over 40 h. OCT and microscopic images revealed the changes in the internal structure and the external shape of the pea seeds during germination, respectively. It was found that the cross-sectional OCT images helped to identify the critical indicators distinguishing the different phases of germination pea seeds. Therefore, the presented OCT approach offers a fast and nondestructive way to precisely measure the structural indicators in different germination phases.
Text
Plant Direct - 2022 - Li - Nondestructive in situ monitoring of pea seeds germination using optical coherence tomography
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Accepted/In Press date: 29 June 2022
e-pub ahead of print date: 12 July 2022
Identifiers
Local EPrints ID: 498946
URI: http://eprints.soton.ac.uk/id/eprint/498946
ISSN: 2475-4455
PURE UUID: 80043ceb-6331-4198-9178-8d5f21d65f1f
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Date deposited: 05 Mar 2025 17:30
Last modified: 22 Aug 2025 02:47
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Author:
Xinhua Li
Author:
Xingyu Yang
Author:
Xiaoran Li
Author:
Zhiyi Zhao
Author:
Zijian Zhang
Author:
Hungyen Lin
Author:
Dingming Kang
Author:
Yaochun Shen
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