细菌内生菌苔藓假单胞菌 PR5 可通过各种施用方法改善水稻(Oryza sativa L.)的生长、养分积累和产量。

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL ACS Applied Energy Materials Pub Date : 2024-10-30 DOI:10.1186/s12870-024-05649-6
Razia Sultana, Asif Iqbal Ibne Jashim, Shah Mohammad Naimul Islam, Md Habibur Rahman, Mohammad Mahbubul Haque
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引用次数: 0

摘要

背景:假单胞菌属因其在根瘤菌中的丰富数量和促进植物生长的特殊属性而备受关注。然而,关于苔藓假单胞菌在水稻生长、养分积累和产量提高方面的最佳应用方法,还需要更多的研究。本研究探索了内生细菌 P. mosselii PR5 在水稻栽培品种 BRRI dhan29 上的应用,包括四种处理方法:对照、秧苗打底、根部淋水和无菌细胞培养物(CFC)叶面喷施:结果:与对照组相比,无论采用哪种施用方法,PR5 都能改善水稻的生长状况,提高养分吸收率和产量。在根鲜重(146.93 克/盆)、芽鲜重(758.98 克/盆)和旗叶鲜重(7.88 克/盆)、根干重(42.16 克/盆)、芽干重(97.32 克/盆)和旗叶干重(2.69 克/盆)以及粒数/穗数(224.秧苗打底处理可获得最大株高(105.67 厘米)、根长(49.0 厘米)、分蘖/盆(23.7)和圆锥花序/盆(17.67)。在所有三种施肥方法中,与对照相比,PR5 接种处理的每盆稻谷产量更高。经多元分析验证,在细菌CFC叶面喷施中,芽中的磷、镁和锌含量以及旗叶中的氮、磷、钙、镁和硅含量显著增加,并有效抑制了自然发生的稻瘟病:我们的研究结果表明,用 PR5 给水稻秧苗打底能改善水稻的生长、产量和养分吸收,而叶面喷施 CFC 则能显著提高水稻植株中大部分养分的浓度,并抑制自然发生的稻瘟病。这项研究凸显了 P. mosselii PR5 在促进水稻生长、产量和养分吸收方面的巨大潜力,尤其是通过秧苗打底和 CFC 叶面喷施方法。
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Bacterial endophyte Pseudomonas mosselii PR5 improves growth, nutrient accumulation, and yield of rice (Oryza sativa L.) through various application methods.

Background: Pseudomonas spp. have drawn considerable attention due to their rhizospheric abundance and exceptional plant growth-promoting attributes. However, more research is needed on the optimal application methods of Pseudomonas mosselii for rice growth, nutrient accumulation, and yield improvement. This research explored the application of the endophytic bacterium P. mosselii PR5 on rice cultivar BRRI dhan29 with four treatments: control, seedling priming, root drenching, and bacterial cell-free culture (CFC) foliar application.

Results: PR5 led to better rice growth, improved nutrient acquisition, and higher yields compared to the control, regardless of the application method used. The highest results in fresh weight of root (146.93 g/pot), shoot (758.98 g/pot), and flag leaf (7.88 g/pot), dry weight of root (42.16 g/pot), shoot (97.32 g/pot), and flag leaf (2.69 g/pot), and grains/panicle (224.67), were obtained from seedling priming treatment, whereas root drenching resulted in maximum plant height (105.67 cm), root length (49.0 cm), tillers/pot (23.7), and panicles/pot (17.67). In all three application methods, rice grain yield per pot was higher in PR5 inoculated treatments, compared to the control. The amount of P, Mg and Zn in the shoot and N, P, Ca, Mg and Si content in the flag leaf was significantly increased along with effective suppression of naturally occurring blast disease in bacterial CFC foliar application, validated by multivariate analysis.

Conclusion: Our results indicated that rice seedlings priming with PR5 improved rice growth, yield and nutrient uptake, whereas CFC foliar application significantly increased the concentration of most nutrients in the rice plant and suppressed the naturally occurring rice blast disease. This research highlights the significant potential of P. mosselii PR5 in enhancing rice growth, yield, and nutrient uptake, particularly through seedling priming and CFC foliar application methods.

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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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