诱变对盐碱地大豆(Glycine max L. (Merr))染色体状态和产量特性的影响

A. P. Simanjuntak, D. S. Hanafiah, L. Siregar
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引用次数: 0

摘要

为了满足大豆的需求,利用盐碱地等次优土地对边际土地进行改造,扩大种植面积是一种选择。获得耐盐植物的育种技术之一是利用化学突变,如秋水仙碱。本研究旨在揭示盐度对秋水仙碱诱变大豆植株性状的影响,以及秋水仙碱对染色体数目和倍性水平的影响。本研究于2020年1月至3月在苏门答腊北方大学农业学院的塑料屋进行。试验采用随机区组设计,盐度水平为0 d。m-1, 2个dS。m- 1,4个d。m-1, 6 dS.m-1)作为处理,每个处理包括10个重复。结果表明,在0.04%浓度的秋水仙碱浸泡10 h后,大豆植株的染色体数和倍性分析均未成功诱导。经诱导的大豆种植在盐碱地上。对有效枝、实荚数和单株种子重均有显著影响。秋水仙碱处理对大豆染色体数目没有明显影响,但对染色体形态有一定影响。另外,对4ds进行了盐度处理。与6 dS.m-1处理相比,m-1显著影响了灌浆荚果的数量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chromosome status and yield characteristics of soybean (Glycine max L. (Merr)) in saline soil as affected by induced mutation
To fulfill the demand of soybeans, the expansion of the planting area can be one of the choices through the conversion of marginal land by utilizing suboptimal land, such as saline soil. One of the plant breeding techniques to obtain tolerant plants to salinity is the use of chemical mutations, such as colchicine. The study aimed to reveal the effect of salinity on the characters of soybean plants (mutated with colchicine) and the effect of colchicine on the number of chromosomes and ploidy level. This study was conducted from January to March 2020 and carried out in the plastic house of Faculty of Agriculture, Universitas Sumatera Utara. The experiment was arranged in a Randomized Block Design with salinity levels (0 dS.m-1, 2 dS.m-1, 4 dS.m-1, 6 dS.m-1) as treatments and consisted of ten replications in each treatment. The result showed that the soybean plants were not successfully induced by colchicine at a concentration of 0.04 % with soaking duration of 10 hours, as indicated by the number of chromosomes and analysis of ploidy level. The soybeans that had been induced were planted in saline soil. There were significant effects observed on the productive branch, number of filled pods, and the weight of seeds per plant. Colchicine treatment did not successfully affect the number of chromosomes of soybeans but had an impact on the chromosome pattern. In addition, the salinity treatment of 4 dS.m-1 significantly affected the number of filled pods compared to the treatment of 6 dS.m-1.
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