Assessment of gamma radiation through agro-morphological characters in camellia sinensis L. (O.) kuntze.

IF 2.1 4区医学 Q2 BIOLOGY

International Journal of Radiation Biology Pub Date : 2023-01-01 DOI:10.1080/09553002.2022.2121872

Shobhit K Singh, Devajit Borthakur, Abhijit Tamuly, J G Manjaya, Pradeep K Patel, Boby Gogoi, Santanu Sabhapondit, Nabajyoti J Neog, A K Barooah

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引用次数: 1

Abstract

Purpose: To study the effects of gamma radiation on tea seed germination, morphological changes, and genetic variation by using gamma radiation.

Material and method: Fresh Tea seed material were irradiated with twenty different doses of gamma radiation such as 0, 2, 4, 6, 8, 10, 15, 20, 25, 30, 40, 50, 60, 70, 80 90, 100, 200, 500 and 1000 Gy from Cobalt ⁶⁰Co source from Regional Nuclear Agriculture Research Center, Bidhan Chandra Krishi Viswavidyalaya (BCKV), West Bengal, in between 2019 and 2020.

Result and conclusion: The growth behavior of tea seedling was recorded under varying levels of gamma radiation and its performance at nursery stages. It was observed seed irradiated with doses from 35 Gy to 100 Gy could germinate but could not survive beyond five (05) months. When treated with higher doses as 200 Gy, 500 Gy and 1000 Gy, no seed germination takes places due to possible damages occur in the DNA structure. Screening of growth characteristics of tea plant generally monitored by the characteristics like plant height, number of leaves, number of primary branches, base diameter, and total leaf area of plants and we found that these characteristics significantly increased with the progress of time and increasing levels of gamma radiation; however, the plant height showed decreasing trend with the increasing levels of gamma radiation, which could be due to the change in chromosomal structure and genetic alteration. After 90 weeks of planting, the plant height, no. of primary branches, the number of leaves, plant base diameter, and total leaf area per plant recorded were 36.42 cm, 1/plant, 7.11/plant, 0.62 c.m, 22.92 cm²/plant respectively under the radiation level 30 Gy, whereas the corresponding figures of the above parameters at the control treatment were 85.32 cm, 1/plant, 18.84/plant, 1.18 c.m and 26.68 cm²/plant, respectively. The total plant height, no. of primary branches, the number of leaves, plant base diameter, and total leaf area per plant were significantly influenced by the rising levels of gamma radiation (up to 100 Gy), finally, after 90 weeks of planting, the maximum no. of branching was observed in the treatment of 8 Gy, 10 Gy and 15 Gy respectively. The study reveals a hitherto open the possibility of using gamma radiation on tea plant for creation of variation in the tea seed planting materials. Further studies on mutation using tea planting materials would give an insight into its mutable gene behavior.

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伽玛辐射对昆山茶树农业形态特征的影响。

目的:利用伽玛辐射研究伽玛辐射对茶叶种子萌发、形态变化及遗传变异的影响。材料和方法:在2019年至2020年期间，用西孟加拉邦Bidhan Chandra Krishi Viswavidyalaya (BCKV)区域核农业研究中心钴钴60Co源的0、2、4、6、8、10、15、20、25、30、40、50、60、70、80、90、100、200、500和1000 Gy等20种不同剂量的伽马射线照射新鲜茶籽材料。结果与结论:记录了不同辐射水平下茶苗的生长行为及其苗期表现。结果表明，在35 ~ 100 Gy辐照下，种子能发芽，但不能存活5个月以上。在200 Gy、500 Gy和1000 Gy等较高剂量下，由于DNA结构可能发生损伤，种子不萌发。茶树生长性状的筛选一般以株高、叶数、一次枝数、基部直径、总叶面积等性状为监测指标，随着时间的推移和γ辐射水平的增加，这些性状显著增加;然而，随着γ辐射水平的增加，株高呈下降趋势，这可能与染色体结构的改变和遗传变异有关。种植90周后，株高、株高、株高、株高均显著提高。30 Gy辐照水平下，一次枝叶数、株基直径、单株总叶面积分别为36.42 cm、1株、7.11 cm、0.62 cm、22.92 cm2/株，对照处理下分别为85.32 cm、1株、18.84 cm、1.18 cm、26.68 cm2/株。总株高，无。随着γ辐射水平的升高(最高可达100 Gy)，初生枝条、叶片数、株基直径和单株总叶面积均受到显著影响。在8gy、10gy和15gy的处理下，分别观察到不同浓度的枝状反应。该研究揭示了迄今为止利用伽玛射线对茶树进行茶种材料变异的可能性。进一步利用茶树种植材料进行突变研究，将有助于深入了解其基因的可变行为。

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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来源期刊

International Journal of Radiation Biology 医学-核科学技术

CiteScore

5.00

自引率

11.50%

发文量

142

审稿时长

3 months

期刊介绍： The International Journal of Radiation Biology publishes original papers, reviews, current topic articles, technical notes/reports, and meeting reports on the effects of ionizing, UV and visible radiation, accelerated particles, electromagnetic fields, ultrasound, heat and related modalities. The focus is on the biological effects of such radiations: from radiation chemistry to the spectrum of responses of living organisms and underlying mechanisms, including genetic abnormalities, repair phenomena, cell death, dose modifying agents and tissue responses. Application of basic studies to medical uses of radiation extends the coverage to practical problems such as physical and chemical adjuvants which improve the effectiveness of radiation in cancer therapy. Assessment of the hazards of low doses of radiation is also considered.