利用耐盐根瘤菌提高大豆(甘氨酸MAX)耐盐性

IF 1.6 Q3 PLANT SCIENCES
I. Smirnova, A. Sadanov, G. Baimakhanova, E. Faizulina, L. Tatarkina
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引用次数: 3

摘要

大豆(Glycine max[L.]Merr.)是一种经济上重要的油料作物,其粮食需求每年都在增长。大豆是中等耐盐作物;然而,盐胁迫条件会影响其生长和产量相关性状,并最终降低生产力。在盐碱地,提高大豆产量的技术之一是接种根瘤菌。尽管如此,使用基于工业根瘤菌的生物肥料通常是无效的,因为它们对盐度缺乏适应性。给大豆注射耐盐和促进生长的根瘤菌有助于减轻对作物有害的盐胁迫影响。最近的研究试图分离出耐盐根瘤菌的本地菌株,研究其提高大豆对盐胁迫条件耐受性的能力。从盐碱地上生长的大豆根瘤中分离出24株当地耐盐根瘤菌。通过对其基本形态、生化特性和耐盐能力的研究,最终筛选出5个耐盐菌株。根瘤菌菌株能够合成刺激生长并有助于减少植物盐胁迫的代谢产物。通过对根瘤菌在生理盐水条件下结瘤能力的研究,从慢生根瘤菌中筛选出三个最有效的菌株。用耐盐根瘤菌接种大豆种子可以通过增加根系大小和根瘤数量来减轻盐度对植物生长的不利影响。因此,该研究表明,用当地耐盐根瘤菌接种大豆种子可以增强大豆对盐胁迫的耐受性,并改善作物生长和对土壤盐度的适应。使用当地分离的耐盐根瘤菌菌株将有助于为可持续农业解决盐胁迫问题提供一种关键且环保的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
USING SALT-TOLERANT RHIZOBIA TO IMPROVE THE SOYBEAN (GLYCINE MAX) RESILIENCE TO SALINITY
Soybean (Glycine max [L.] Merr.) is an economically important oilseed crop with an annual increase in growing grain demand. Soybean is a moderately salt-tolerant crop; however, salt stress conditions can affect its growth and yield-related traits and, eventually, reduce productivity. In saline soils, one of the techniques to increase soybean productivity is to use rhizobia inoculation. Although, using industrial rhizobia-based biofertilizers is often ineffective due to their lack of adaptability to salinity. Injecting soybeans with salt-tolerant and growth-promoting rhizobia helps mitigate the effects of salt stress harmful to crop plants. The recent study sought to isolate local strains of salt-tolerant rhizobia, studying its ability to increase soybean tolerance to salt stress conditions. Twenty-four local salttolerant rhizobium isolates underwent isolation from root nodules of soybean grown on saline soils. Studying their basic morphological and biochemical characteristics and ability to withstand salt stress led to the final selection of five salt-tolerant strains. The rhizobium strains were able to synthesize metabolites that stimulate growth and help reduce salt stress in plants. The study of rhizobia nodulation ability under saline conditions resulted in selecting the three most efficient strains from the Bradyrhizobium japonicum species. Inoculation of soybean seeds with salt-tolerant rhizobia proved to mitigate the adverse effects of salinity on plant growth by increasing the root size and the number of nodules in the roots. Thus, the study establishes that inoculation of soybean seeds with local salttolerant rhizobia enhances soybean tolerance to salt stress and improves crop growth and adaptation to soil salinity. Using isolated local strains of salt-tolerant rhizobia will help provide a key and environmentally friendly approach to solving the problem of salt stress for sustainable agriculture.
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来源期刊
Sabrao Journal of Breeding and Genetics
Sabrao Journal of Breeding and Genetics 农林科学-奶制品与动物科学
CiteScore
1.90
自引率
50.00%
发文量
63
期刊介绍: The SABRAO Journal of Breeding and Genetics is an international journal of plant breeding and genetics research and was first published in 1969. It is the official publication of the Society for the Advancement of Breeding Research in Asia and Oceania (SABRAO). Its objectives are to: promote the international exchange of research information on plant breeding and genetics, by describing new research findings, or ideas of a basic or practical nature; and be a medium for the exchange of ideas and news regarding members of the Society. The Journal gives priority to articles that are of direct relevance to plant breeders and with emphasis on the Asian region. Invited for publication are research articles, short communications, methods, reviews, commentaries, and opinion articles. Scientific contributions are refereed and edited to international standards. The journal publishes articles for SABRAO members mainly. The Journal preferred strongly that at least one author should be a current member of the Society. Non-members may also publish in the journal.
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