Kandidat Galur Unggul Mutan Padi G16 Hasil Induksi Mutasi dengan Sinar Gamma

JURNAL SAINS TEKNOLOGI & LINGKUNGAN Pub Date : 2022-06-30 DOI:10.29303/jstl.v8i1.293

Ni Wayan Sri Suliartini, I. P. Y. Aryana, Anak Agung Ketut Sudharmawan, I. W. Sudika

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Abstract

The aim of this study was to obtain superior lines that had higher yields and shorter harvesting ages than their parents. The research was conducted in Saribaye Village, Lingsar, West Lombok Districts, from February to July 2020. The study used a Single Plant Design with the treatment of the M1 G16 mutant population at irradiation doses of 200 Gy, 300 Gy, 400 Gy and 500 Gy and parent (G16 line) as a control. Each treatment planted 200 seeds while the control was repeated three times. The variables observed included the number of productive tillers (saplings), panicle length (cm), number of filled and empty grains per panicle (grains), age of harvest (HSS), weight of 100 grains (g) and weight of filled grain per clump (g). . The value of genetic variance is calculated based on the reduction of phenotype variance with environmental variation (Mangoendidjojo, 2007). Determination of the potential for superior line candidates is done by setting the selection limit value (Xs) according to Kuswanto and Waluyo (2012). The selected genotype is a genotype that has a production value of more than Xs and an age of less than Xs. The results showed that there was an increase in genetic variance due to gamma ray irradiation treatment. A total of three mutant genotypes were successfully selected as candidates for superior strains, namely M1G16-9D3, M1G16-14D3, M1G16-27D3. The three mutant genotypes have the opportunity to be further developed into superior varieties with high yield potential and early maturity.

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候选谷体G16利用伽玛诱发突变

本研究的目的是获得比其亲本产量更高、收获年龄更短的优良品系。该研究于2020年2月至7月在西龙目岛林萨尔的Saribaye村进行。本研究采用单株设计，分别以200gy、300gy、400gy和500gy的辐照剂量处理M1 G16突变体群体，并以亲本(G16系)为对照。每个处理种植200颗种子，而对照组重复三次。观察到的变量包括有效分蘖数(树苗)、穗长(cm)、每穗实粒数和空粒数(粒)、收获期(HSS)、百粒重(g)和每穗实粒重(g)。遗传变异的值是根据表型变异随环境变化的减少来计算的(Mangoendidjojo, 2007)。根据Kuswanto和Waluyo(2012)的研究，通过设置选择极限值(x)来确定优秀候选品系的潜力。所选基因型为生产价值大于Xs、年龄小于Xs的基因型。结果表明，伽玛射线辐照使遗传变异增加。共成功筛选出3个突变基因型，分别为M1G16-9D3、M1G16-14D3、M1G16-27D3。这三种突变基因型有机会进一步发展成为高产、早熟的优良品种。

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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