Microbial Inoculant GB03 Increased the Yield and Quality of Grape Fruit Under Salt-Alkali Stress by Changing Rhizosphere Microbial Communities

Foods, Journal Year: 2025, Volume and Issue: 14(5), P. 711 - 711

Published: Feb. 20, 2025

Beneficial microbial agents, renowned for their cost-effectiveness, high efficiency, and environmental sustainability, play a pivotal role in enhancing plant growth, crop yield, tolerance to abiotic stresses. This research delves into the impact of GB03 agent on fruit quality 'Cabernet Sauvignon' grapes, as well soil physicochemical properties communities under saline stress. The findings revealed that salt-alkali stress significantly elevated electrical conductivity, pH, Na+ levels, total salt content, while it markedly reduced K+, organic matter, ammonium nitrogen, nitrate nitrogen levels compared control. application agent, however, successfully mitigated these detrimental effects Furthermore, augmented population abundance dominant bacteria, including Acidobacteriota, Bdellovibrionota, Gemmatimonadota etc., conditions. Crucially, also inhibited stress-induced decline grape fruit's single cluster weight, 100-grain color intensity, volatile aroma compounds, increase acids. Consequently, emerges potent strategy ameliorating saline-alkali soils bolstering resilience horticultural crops like grapes.

Language: Английский

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Study of the mechanism by which Bacillus subtilis improves the soil bacterial community environment in severely saline-alkali cotton fields

The Science of The Total Environment, Journal Year: 2024, Volume and Issue: 958, P. 178000 - 178000

Published: Dec. 12, 2024

Language: Английский

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Genome-wide identification of Glycyrrhiza uralensis Fisch. WRKY Gene family and expression analysis under salt stress

Plant Stress, Journal Year: 2024, Volume and Issue: 13, P. 100520 - 100520

Published: June 25, 2024

WRKY is one of the largest transcription factor families in higher plants, playing a crucial role plant growth, development, and responses to environmental stresses by binding W-box motif target gene promoters. Glycyrrhiza uralensis Fish. (G. uralensis), known for its extensive medicinal value adaptation saline-alkali environments, has garnered attention. However, information regarding members functions G. family relatively limited. In this study, we identified 52 GuWRKY genes from genome comprehensively investigated their characteristics through phylogenetic analysis, examination duplication events, analysis structures, conservation protein motifs. The was classified into seven groups based on collinearity revealed that many originated segmental duplications, demonstrating highly conserved domain. Promoter cis-element indicated presence elements related hormones, stress, growth development GuWRKYs. Transcriptomic distinct expression patterns GuWRKYs under salt with GuWRKY31 as potential key regulator stress responses. Subcellular localization experiments validated some predicted results. provided biological lays foundation further exploration genes.

Language: Английский

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Influence of Habitat and Effects of Salt Stress on Biochemical and Physiological Parameters of Glycyrrhiza uralensis

Plants, Journal Year: 2024, Volume and Issue: 13(15), P. 2108 - 2108

Published: July 30, 2024

The seeds of

Language: Английский

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Enhanced salt tolerance in Glycyrrhiza uralensis Fisch. via Bacillus subtilis inoculation alters microbial community

Microbiology Spectrum, Journal Year: 2024, Volume and Issue: 12(10)

Published: Aug. 27, 2024

The widespread prevalence of saline environments poses a significant global environmental challenge. Salt stress, induced by soils, disrupts soil microecology and affects the plant-microbe-soil cycling process. Utilizing microbial fungicides stands as primary strategy to mitigate salt stress-induced damage plants soils. This study investigated influence

Language: Английский

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La (NO3)3 substantially fortified Glycyrrhiza uralensis’s resilience against salt stress by interconnected pathways

BMC Plant Biology, Journal Year: 2024, Volume and Issue: 24(1)

Published: Oct. 5, 2024

Language: Английский

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Activation of microbial community and enhancement of quality by inoculating Zygosaccharomyces rouxii during the post-fermentation stage of Doubanjiang

Food Research International, Journal Year: 2024, Volume and Issue: 197, P. 115311 - 115311

Published: Nov. 4, 2024

Language: Английский

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Genome-wide identification of Glycyrrhiza uralensis Fisch. MAPK gene family and expression analysis under salt stress relieved by Bacillus subtilis

Frontiers in Genetics, Journal Year: 2024, Volume and Issue: 15

Published: July 26, 2024

Introduction: Research on Glycyrrhiza uralensis, a nonhalophyte that thrives in saline-alkaline soil and traditional Chinese medicinal component, is focused improving its ability to tolerate salt stress increase productivity preserve "Dao-di" characteristics. Furthermore, the inoculation of bioagents such as Bacillus subtilis plant responses abiotic stressors currently mainstream strategy. Mitogen-activated protein kinase (MAPK), highly conserved kinase, plays significant role various pathways. Methods: This investigation involved identification 21 members GuMAPK family from genome G. with an analysis their domains, gene structures, evolutionary relationships, phosphorylation sites using bioinformatics tools. Results: Systematic GuMAPKs classified them into four distinct subgroups, revealing differences structure exon numbers. Collinearity highlighted crucial segmental duplication expanding family, which particularly evident uralensis shows close phylogenetic relationship Arabidopsis thaliana, tomato, cucumber. Additionally, suggests strong correlation between physiological processes, including hormonal responses, resistance, growth development. Protein interaction further supported proteins regulating essential downstream genes. Through examination transcriptome expression patterns, GuMAPK16-2 emerged prospective pivotal regulatory factor context B. inoculation, finding by subcellular localization within nucleus. Discussion: These discoveries offer compelling evidence for involvement response exploration mechanisms underlying subtilis' enhancement tolerance uralensis.

Language: Английский

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