辐照技术在植物抗病方面的进展：综述

Agricultural Reviews Pub Date : 2023-11-25 DOI:10.18805/ag.rf-284

N.A. Zulkifli, M.A.A. Khairul Izhar, H.Y. Lau, M.M.F. Azizi

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引用次数: 0

摘要

植物病害对全球粮食安全构成重大威胁，导致大量减产和经济损失。近年来，辐照技术已成为提高植物抗病性的一种有前途的方法。伽马辐照是一种成熟的技术，大约 60 年来一直用于培育抗病虫害能力更强的植物新品种。X 射线是另一种形式的电离辐射，也显示出增强植物抗病性的潜力。紫外线（包括 UVB 和 UVC 辐射）可通过破坏微生物的 DNA 来消灭微生物。电子束辐照是一种非电离辐射形式，已被用于研究其对植物抗病性的影响。然而，辐照技术在农业中的应用面临着公众认知、监管障碍和成本效益等挑战。这篇综述文章重点介绍了辐照技术在植物抗病方面的进展。文章强调了伽马辐照、X 射线伽马辐照、紫外线、UVB、紫外线和电子束在提高植物抗病性方面的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Advances in Irradiation Technology for Plant Disease Resistance: A Review

Plant diseases pose a significant threat to global food security, leading to substantial yield losses and economic damage. In recent years, irradiation technology has emerged as a promising approach to enhance plant disease resistance. Gamma irradiation, a well-established technique, has been utilized for approximately 60 years to develop new plant varieties with improved resistance to pests and diseases. X-ray is another form of ionizing radiation, has also shown the potential in enhancing plant disease resistance. UV light, including UVB and UVC radiation, has been effective in eliminating microorganisms by damaging their DNA. Electron beam irradiation, a non-ionizing form of radiation, has been investigated for its impact on plant disease resistance. However, the implementation of irradiation technology in agriculture faces challenges such as public perception, regulatory barriers and cost-effectiveness. This review article highlights the advances in irradiation technology for plant disease resistance. It emphasizes the potential of gamma irradiation, X-ray gamma irradiation, UV light, UVB, UVC and electron beam in enhancing plant disease resistance.

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Agricultural Reviews

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