假单胞菌和内生菌根接种对洋葱（Allium cepa L.）盐碱条件下生理反应的协同效应

IF 3.8 2区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES

Scientific Reports Pub Date : 2024-09-13 DOI:10.1038/s41598-024-71165-0

Mona S. Abd El-Aal, Hanaa R. M. Farag, Ola H. Abd Elbar, Mona S. Zayed, Gamal S. Khalifa, Yasmin M. R. Abdellatif

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引用次数: 0

摘要

盐分胁迫对全世界农作物的生长和产量都有负面影响。洋葱（Allium cepa L.）对盐度有一定的敏感性。有益微生物有可能赋予其耐盐性。本研究调查了内生真菌（M）、假单胞菌（Ps）及其组合（MPs）在控制（0 ppm）、中等（2000 ppm）和高（4000 ppm）NaCl 盐度下对洋葱生长的影响。实验采用沙质壤土和洋葱栽培品种 Giza 20 进行盆栽试验。结果表明，盐度降低了生长属性、叶片色素、生物量和球茎产量，同时增加了氧化应激标记。然而，与盐碱条件下未接种的植株相比，单独或联合接种可显著增加植株高度、球茎直径和生物量产量。MPs 处理的刺激作用最大，其次是假单胞菌和菌根。总之，双重微生物接种显示出协同作用，在盐度条件下通过综合生理和生化过程对洋葱的生长和球茎产生最大益处。在盐度为 0、2000 和 4000 ppm 时，鳞茎产量比对照分别增加了 3.5%、36% 和 83%。总之，菌根-假单胞菌接种（MPs）的联合应用可有效缓解盐度胁迫。这种方法是一种很有前途的生物技术，可确保洋葱在盐碱条件下的可持续生产力。

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Synergistic effect of Pseudomonas putida and endomycorrhizal inoculation on the physiological response of onion (Allium cepa L.) to saline conditions

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Synergistic effect of Pseudomonas putida and endomycorrhizal inoculation on the physiological response of onion (Allium cepa L.) to saline conditions

Salinity stress negatively affects the growth and yield of crops worldwide. Onion (Allium cepa L.) is moderately sensitive to salinity. Beneficial microorganisms can potentially confer salinity tolerance. This study investigated the effects of endomycorrhizal fungi (M), Pseudomonas putida (Ps) and their combination (MPs) on onion growth under control (0 ppm), moderate (2000 ppm) and high (4000 ppm) NaCl salinity levels. A pot experiment was conducted with sandy loam soil and onion cultivar Giza 20. Results showed that salinity reduced growth attributes, leaf pigments, biomass and bulb yield while increasing oxidative stress markers. However, individual or combined inoculations significantly increased plant height, bulb diameter and biomass production compared to uninoculated plants under saline conditions. MPs treatment provided the highest stimulation, followed by Pseudomonas and mycorrhizae alone. Overall, dual microbial inoculation showed synergistic interaction, conferring maximum benefits for onion growth, bulbing through integrated physiological and biochemical processes under salinity. Bulb yield showed 3.5, 36 and 83% increase over control at 0, 2000 and 4000 ppm salinity, respectively. In conclusion, combined application of mycorrhizal-Pseudomonas inoculations (MPs) effectively mitigate salinity stress. This approach serves as a promising biotechnology for ensuring sustainable onion productivity under saline conditions.

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来源期刊

Scientific Reports Natural Science Disciplines-

CiteScore

7.50

自引率

4.30%

发文量

19567

审稿时长

3.9 months

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