SOMACLONAL PUTATIVE MUTANTS OF RICE TOLERANT TO SALINITY

Q4 Agricultural and Biological Sciences

Indonesian Journal of Agricultural Science Pub Date : 2018-12-09 DOI:10.21082/ijas.v19n2.2018.p67-74

R. Yunita, N. Khumaida, D. Sopandie, I. Mariska

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引用次数: 1

Abstract

Soil salinity could significantly reduce rice yield, therefore, varieties tolerant to salinity are urgent to be developed. Mutation induction could be used to create rice mutants tolerant to salinity. The study aimed to evaluate the tolerance of somaclonal mutants of rice to NaCl salinity in a greenhouse condition and characterize their tolerance mechanism. A total of 45 putative mutants were generated by a gamma ray mutation induction followed with in vitro selection in the growth media containing different NaCl concentrations in the greenhouse experiment. The study consisted of two-factor treatments, namely three levels of NaCl concentrations and 45 rice mutants suspected to be tolerant to salinity, arranged in a completely randomized design. Proline, cations (K, Na, Ca, and Mg) content, and stomata density were evaluated. The results showed that eight mutants were tolerant to 150 mM NaCl, namely CH30, CH-4-2, II-13-42, II-13-7, II-13-10, II-13-13, II-13- 2, and IA-3-21. These tolerant mutants had a higher Na content compared to the check parent. The tolerant mutants had a high proline content, lower Na, and stable K, Mg and Ca cations as well as had a greater number of stomata and higher stomata length-width ratio. Some of the identified tolerant mutants demonstrated the tolerant mechanism against salinity stress. Further studies are required to evaluate these tolerant mutants in the field conditions under salinity stress.

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水稻耐盐体细胞克隆突变体

土壤盐碱化会显著降低水稻产量，因此，急需开发耐盐碱品种。诱变可以用来培育耐盐碱的水稻突变体。本研究旨在评估水稻体细胞克隆突变体在温室条件下对NaCl盐度的耐受性，并表征其耐受机制。在温室实验中，通过γ射线突变诱导，然后在含有不同NaCl浓度的生长培养基中进行体外选择，总共产生了45个推定的突变体。该研究由两个因素处理组成，即三个水平的NaCl浓度和45个怀疑耐盐的水稻突变体，以完全随机的设计进行排列。脯氨酸、阳离子（K、Na、Ca和Mg）含量和气孔密度进行了评估。结果表明，8个突变体对150mM NaCl具有耐受性，即CH30、CH-4-2、II-13-42、II-13-7、II-13-10、II-13-13、II-13-2和IA-3-21。与对照亲本相比，这些耐受突变体具有更高的Na含量。抗性突变体脯氨酸含量高，Na含量低，K、Mg和Ca阳离子稳定，气孔数量多，气孔长宽比高。一些已鉴定的耐受突变体证明了其对盐度胁迫的耐受机制。需要进一步的研究来在盐度胁迫下的田间条件下评估这些耐受突变体。

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来源期刊

Indonesian Journal of Agricultural Science Agricultural and Biological Sciences-Soil Science

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

12 weeks