Studies on Mutagenic Effectiveness and Efficiency of Gamma Rays and EMS in Kodo Millet (Paspalum scrobiculatum)

J. P. Jency, R. Ravikesavan
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Abstract

Mutation breeding is the defined approach used for crop production and has played a key role in the creation of several varieties. The present research was carried out to induce mutants in kodo millet variety CO 3 using a physical mutagen (gamma rays) and a chemical mutagen  (Ethyl Methane Sulphonate) for creating novelty. Seeds were treated with five doses of gamma-rays viz., 100 Gy, 200 Gy, 300 Gy, 400 Gy, and 500 Gy at BARC, Kalpakam and with three concentrations of EMS viz., 24.15 mM, 32.20 mM and 40.25 mM. In the laboratory test, root and shoot lengths of seedlings were decreased with an increase in the dose of gamma rays and EMS. In field study, the germination percentage and survival rate of seedlings were decreased with an increase in the dose of gamma irradiation and EMS. In M2 generation, five types of chlorophyll mutations viz., albino, xantha, striata, chlorina and albomaculata were observed. Xantha and chlorina were observed in all treatments, whereas, striata and albomaculata were observed only in 200 Gy. Based on the biological damages on M2 plants, mutagenic effectiveness and efficiency were estimated. Both mutagenic effectiveness and efficiency reduced with the increase in the dose of irradiation. Regarding height reduction and lethality, the dose of 100 Gy in gamma treatment and 32.20 mM concentration in EMS treatment recorded maximum efficiency. The mutagenic effectiveness was found to be higher at gamma rays irradiated with 100 Gy and in EMS, in 24.15 mM concentration. The 100 Gray dose and 24.15 mM concentration was found to be highly effective for inducing mutation in kodo millet.
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伽玛射线和电磁诱变对古多粟(Paspalum scrobiculatum)诱变效果和效率的研究
突变育种是用于作物生产的明确方法,在创造几个品种方面发挥了关键作用。本研究采用物理诱变剂(伽马射线)和化学诱变剂(甲烷磺酸乙酯)诱变kodo millet品种co3。在BARC和Kalpakam分别用100 Gy、200 Gy、300 Gy、400 Gy和500 Gy 5种剂量的γ射线和24.15 mM、32.20 mM和40.25 mM 3种浓度的EMS处理种子。在室内试验中,幼苗的根和茎长随着γ射线和EMS剂量的增加而减小。在田间试验中,随着辐照剂量和EMS剂量的增加,幼苗的发芽率和成活率均有所下降。在M2代中,观察到5种类型的叶绿素突变,分别是白化型、黄原型、纹状型、氯化物型和褐藻型。在所有处理中均观察到黄斑和绿斑,而在200 Gy中只观察到纹状和纹状。根据对M2植株的生物危害,对其诱变效果和效率进行了评价。诱变效果和效率均随辐照剂量的增加而降低。在降高和致死方面,剂量为100 Gy的γ治疗和浓度为32.20 mM的EMS治疗效果最好。在100 Gy和24.15 mM浓度的EMS照射下,其诱变效果更高。100 Gray剂量和24.15 mM浓度对谷子诱变效果最好。
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