Piriformospora indica alleviates soda saline-alkaline stress in Glycine max by modulating plant metabolism.

IF 4.1 2区 生物学 Q1 PLANT SCIENCES
Frontiers in Plant Science Pub Date : 2024-08-20 eCollection Date: 2024-01-01 DOI:10.3389/fpls.2024.1406542
Siyu Zhu, Feng Shi, Honghe Li, Yiwen Ding, Wei Chang, Yuan Ping, Fuqiang Song
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引用次数: 0

Abstract

Soil salinization is one of the major factors limiting agricultural production. Utilizing beneficial microorganisms like Piriformospora indica (P. indica) to enhance plant tolerance to abiotic stresses is a highly effective method, but the influence of P. indica on the growth of soybean in natural saline-alkaline soil remains unclear. Therefore, we investigated the effects of non-inoculation, P. indica inoculation, and fertilization on the growth, antioxidant defense, osmotic adjustment, and photosynthetic gas exchange parameters of soybean under two different levels of saline-alkaline stress in non-sterilized natural saline-alkaline soil. The study found that: 1) P. indica inoculation significantly promoted soybean growth, increasing plant height, root length, and biomass. Under mildly saline-alkaline stress, the increases were 11.5%, 16.0%, and 14.8%, respectively, compared to non-inoculated treatment. Under higher stress, P. indica inoculation achieved the same level of biomass increase as fertilization, while fertilization only significantly improved stem diameter. 2) Under saline-alkaline stress, P. indica inoculation significantly increased antioxidant enzyme activities and reduced malondialdehyde (MDA) content. Under mildly stress, MDA content was reduced by 47.1% and 43.3% compared to non-inoculated and fertilized treatments, respectively. Under moderate stress, the MDA content in the inoculated group was reduced by 29.9% and 36.6% compared to non-inoculated and fertilized treatments, respectively. Fertilization only had a positive effect on peroxidase (POD) activity. 3) P. indica inoculation induced plants to produce more osmotic adjustment substances. Under mildly stress, proline, soluble sugars, and soluble proteins were increased by 345.7%, 104.4%, and 6.9%, respectively, compared to non-inoculated treatment. Under higher stress, the increases were 75.4%, 179.7%, and 12.6%, respectively. Fertilization had no significant positive effect on proline content. 4) With increasing stress, soybean photosynthetic capacity in the P. indica-inoculated treatment was significantly higher than in the non-inoculated treatment, with net photosynthetic rate increased by 14.8% and 37.0% under different stress levels. These results indicate that P. indica can enhance soybean's adaptive ability to saline-alkaline stress by regulating ROS scavenging capacity, osmotic adjustment substance content, and photosynthetic capacity, thereby promoting plant growth. This suggests that P. indica has great potential in improving soybean productivity in natural saline-alkaline soils.

Piriformospora indica 通过调节植物新陈代谢减轻 Glycine max 的苏打盐碱胁迫。
土壤盐碱化是限制农业生产的主要因素之一。利用 Piriformospora indica(P. indica)等有益微生物来增强植物对非生物胁迫的耐受性是一种非常有效的方法,但 P. indica 对天然盐碱土壤中大豆生长的影响仍不清楚。因此,我们研究了未接种、接种 P. indica 和施肥对未灭菌天然盐碱地中两种不同程度盐碱胁迫下大豆的生长、抗氧化防御、渗透调节和光合气体交换参数的影响。研究发现1) 接种 P. indica 能显著促进大豆生长,增加株高、根长和生物量。在轻度盐碱胁迫下,与未接种处理相比,分别增加了 11.5%、16.0% 和 14.8%。在较高胁迫下,接种 P. indica 与施肥的生物量增加水平相同,而施肥只显著改善了茎秆直径。2)在盐碱胁迫下,接种 P. indica 能显著提高抗氧化酶活性,降低丙二醛(MDA)含量。在轻度胁迫下,与未接种处理和施肥处理相比,MDA 含量分别降低了 47.1%和 43.3%。在中度胁迫下,与未接种处理和施肥处理相比,接种组的 MDA 含量分别降低了 29.9% 和 36.6%。施肥只对过氧化物酶(POD)活性有积极影响。3) 接种籼稻诱导植物产生更多的渗透调节物质。在轻度胁迫下,与未接种处理相比,脯氨酸、可溶性糖和可溶性蛋白质分别增加了 345.7%、104.4% 和 6.9%。在较高胁迫下,分别增加了 75.4%、179.7% 和 12.6%。施肥对脯氨酸含量没有明显的积极影响。4)随着胁迫的增加,接种 P. indica 处理的大豆光合能力明显高于未接种处理,在不同胁迫水平下,净光合速率分别增加了 14.8%和 37.0%。这些结果表明,P. indica 能通过调节 ROS 清除能力、渗透调节物质含量和光合作用能力,增强大豆对盐碱胁迫的适应能力,从而促进植物生长。这表明 P. indica 在提高天然盐碱地大豆产量方面具有巨大潜力。
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来源期刊
Frontiers in Plant Science
Frontiers in Plant Science PLANT SCIENCES-
CiteScore
7.30
自引率
14.30%
发文量
4844
审稿时长
14 weeks
期刊介绍: In an ever changing world, plant science is of the utmost importance for securing the future well-being of humankind. Plants provide oxygen, food, feed, fibers, and building materials. In addition, they are a diverse source of industrial and pharmaceutical chemicals. Plants are centrally important to the health of ecosystems, and their understanding is critical for learning how to manage and maintain a sustainable biosphere. Plant science is extremely interdisciplinary, reaching from agricultural science to paleobotany, and molecular physiology to ecology. It uses the latest developments in computer science, optics, molecular biology and genomics to address challenges in model systems, agricultural crops, and ecosystems. Plant science research inquires into the form, function, development, diversity, reproduction, evolution and uses of both higher and lower plants and their interactions with other organisms throughout the biosphere. Frontiers in Plant Science welcomes outstanding contributions in any field of plant science from basic to applied research, from organismal to molecular studies, from single plant analysis to studies of populations and whole ecosystems, and from molecular to biophysical to computational approaches. Frontiers in Plant Science publishes articles on the most outstanding discoveries across a wide research spectrum of Plant Science. The mission of Frontiers in Plant Science is to bring all relevant Plant Science areas together on a single platform.
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