面向作物干旱胁迫诊断的表型成像技术研究进展
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1.中国农业大学;2.北京林业大学

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S147.2

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Research Progress on Phenotype Imaging Technology for Diagnosis of CropDrought Stress
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1.China Agricultural University;2.Beijing Forestry University

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    摘要:

    干旱胁迫是影响作物产量和农业可持续发展的重要因素。作物干旱胁迫的精准诊断是提高农业水资源利用率、推动高水效农业发展的重要基础。表型成像技术能够快速、无损、准确获取和分析作物的表型特征,为作物干旱胁迫的精准诊断提供了新工具。本文重点综述了用于作物干旱胁迫诊断的表型成像技术,首先介绍了可见光(RGB)成像、三维成像、近红外成像、高光谱成像、叶绿素荧光成像和热成像六种主流表型成像技术的原理,其次概述了单个成像技术在干旱胁迫下作物表型分析的研究进展,然后总结了近几年面向作物干旱胁迫的自动化综合表型成像分析平台的研究成果,最后探讨了上述表型成像技术在作物干旱胁迫程度诊断研究中的机遇和面临的挑战。

    Abstract:

    Drought stress of crops is an important factor affecting their yield and sustainable agricultural development. Accurate diagnosis of crop drought stress is the basis for improving water resource utilization. Imaging technology can quickly, automatically, non-destructively, accurately acquire and analyze the phenotype characteristics of crops, providing a powerful new tool for crop science research. This paper focuses on the review of phenotype imaging analysis techniques for crop drought stress diagnosis. First, the single imaging technique for crop drought stress diagnosis was introduced, and then we introduced the fusion imaging technique for crop drought stress diagnosis. In the aspect of single imaging technology introduction, firstly, the principles of six phenotype imaging techniques including RGB imaging, 3D imaging, near-infrared imaging, hyperspectral imaging, chlorophyll fluorescence imaging and thermal imaging are introduced in this paper, and then we introduced research progress of the single imaging technology in crop drought stress phenotype analysis, beside the research achievements in crop drought stress in recent years were further summarized.Finally, the imaging technology was summarized and prospected at the end of each imaging technology introduction. In the fusion imaging technology of crop drought stress, this paper first summarized the research results of the automatic comprehensive phenotype imaging analysis platform of crop drought stress in recent years, and then summarized and analyzed the research of different fusion imaging methods, analyzed their advantages and disadvantages, and prospected the future research direction of fusion imaging technology in the end. With the horizontal and vertical comparative analysis of the research results of a single imaging technology, we found that RGB imaging technology has the lowest application cost and the most extensive application range, but the lowest accuracy. The 3D imaging solves the problem of crop occlusion in RGB imaging, improves the accuracy, and is widely used in high-throughput phenotype extraction platforms. The information of crop phenotype parameters can be obtained by near infrared spectroscopy, chlorophyll fluorescence and hyperspectral imaging in a fast and non-destructive way. Among them, the application scope of NIR imaging is limited due to its limited ability to obtain phenotype information and relatively high cost. And the chlorophyll fluorescence and hyperspectral imaging are better at obtaining physiological and biochemical parameters of crops, and are widely used in the fusion of imaging methods. Thermal images obtained by infrared thermal imaging are often used to obtain crop physiological parameters, and are also combined with visible light images for phenotype extraction. In the meantime, the method of obtaining crop phenotype by using the fusion of multiple imaging technologies has the advantages of different imaging technologies, which can effectively avoid the defects of a single imaging technology and make up for the deficiencies of obtaining single imaging phenotype parameters, so as to reflect the crop growth status more accurately and efficiently. And the more accurate feature extraction can be achieved by integrating various image information obtained by various imaging technologies and using artificial intelligence methods for integrated image processing. The use of fusion imaging technology to obtain crop phenotypes will be one of the important directions of crop drought stress phenotypes extraction in the future. At the end of this paper, the advantages and disadvantages of various imaging techniques are summarized, and finally discusses the existing opportunities and challenges above phenotype imaging analysis technology in diagnosing the degree of crop drought stress.

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程强,刘雨欣,杨涵青,许新宇,范继泽,颜小飞,杜太生.面向作物干旱胁迫诊断的表型成像技术研究进展[J].农业工程学报,,(). chengqiang, liuyuxin, yanghanqing, xuxinyu, fanjize, yanxiaofei, dutaisheng. Research Progress on Phenotype Imaging Technology for Diagnosis of CropDrought Stress[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE),,().

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  • 收稿日期:2023-07-19
  • 最后修改日期:2024-06-30
  • 录用日期:2024-08-21
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