Topographically Distinguished Microbiome Taxonomy and Stress-Response Genes of Royal Belum Rainforest and Raja Muda Musa Peat Swamp Revealed through Metagenomic Inquisition

Ahmad, Mohd Fadzli; Abdullah, Hasdianty; Hassan, Muhammad Naim; Jamaludin, Muhammad Imran; Sivam, Ashvini; Komatsu, Kazuhiro; Sapian, Irni Suhayu; Alias, Hamidah; Mat-Isa, Mohd-Noor; Kuwahara, Victor S.; Yaacob, Nor Suhaila

doi:10.3390/ijms24010872

IJMS

2023

DOI: 10.3390/ijms24010872

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Topographically Distinguished Microbiome Taxonomy and Stress-Response Genes of Royal Belum Rainforest and Raja Muda Musa Peat Swamp Revealed through Metagenomic Inquisition

Mohd Fadzli Ahmad

Hasdianty Abdullah

Muhammad Naim Hassan

et al.

Abstract: Soil ecosystems are home to a diverse range of microorganisms, but they are only partially understood because no single-cell sequencing or whole-community sequencing provides a complete picture of these complex communities. Using one of such metagenomics approaches, we succeeded in monitoring the microbial diversity and stress-response gene in the soil samples. This study aims to test whether known differences in taxonomic diversity and composition are reflected in functional gene profiles by implementing whol… Show more

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2024

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Cited by 2 publications

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Effects of Deep Tillage on Wheat Regarding Soil Fertility and Rhizosphere Microbial Community

Sui,

Wang,

Ren

et al. 2024

Microorganisms

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Wheat production is intrinsically linked to global food security. However, wheat cultivation is constrained by the progressive degradation of soil conditions resulting from the continuous application of fertilizers. This study aimed to examine the effects of deep tillage on rhizosphere soil microbial communities and their potential role in improving soil quality, given that the specific mechanisms driving these observed benefits remain unclear. Soil fertility in this research was evaluated through the analysis of various soil parameters, including total nitrogen, total phosphorus, total potassium, available phosphorus, and available potassium, among others. The high-throughput sequencing technique was utilized to examine the rhizosphere microbial community associated with deep tillage wheat. The findings indicated that deep tillage cultivation of wheat led to reduced fertility levels in the 0–20 cm soil layer in comparison with non-deep tillage cultivation. A sequencing analysis indicated that Acidobacteria and Proteobacteria are the dominant bacterial phyla, with Proteobacteria being significantly more abundant in the deep tillage group. The dominant fungal phyla identified were Ascomycota, Mortierellomycota, and Basidiomycota. Among bacterial genera, Arthrobacter, Bacillus, and Nocardioides were predominant, with Arthrobacter showing a significantly higher presence in the deep tillage group. The predominant fungal genera included Mortierella, Alternaria, Schizothecium, and Cladosporium. Deep tillage cultivation has the potential to enhance soil quality and boost crop productivity through the modulation of soil microbial community structure.

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Effects of Deep Tillage on Wheat Regarding Soil Fertility and Rhizosphere Microbial Community

Sui,

Wang,

Ren

et al. 2024

Microorganisms

View full text Add to dashboard Cite

show abstract

Effects of Deep Tillage on Rhizosphere Soil and Microorganisms During Wheat Cultivation

Sui,

Wang,

Hou

et al. 2024

Microorganisms

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The production of wheat is fundamentally interconnected with worldwide food security. The practice of deep tillage (DT) cultivation has shown advantages in terms of soil enhancement and the mitigation of diseases and weed abundance. Nevertheless, the specific mechanisms behind these advantages are unclear. Accordingly, we aimed to clarify the influence of DT on rhizosphere soil (RS) microbial communities and its possible contribution to the improvement of soil quality. Soil fertility was evaluated by analyzing several soil characteristics. High-throughput sequencing techniques were utilized to explore the structure and function of rhizosphere microbial communities. Despite lowered fertility levels in the 0–20 cm DT soil layer, significant variations were noted in the microbial composition of the DT wheat rhizosphere, with Acidobacteria and Proteobacteria being the most prominent. Furthermore, the abundance of Bradyrhizobacteria, a nitrogen-fixing bacteria within the Proteobacteria phylum, was significantly increased. A significant increase in glycoside hydrolases within the DT group was observed, in addition to higher abundances of amino acid and carbohydrate metabolism genes in the COG and KEGG databases. Moreover, DT can enhance soil quality and boost crop productivity by modulating soil microorganisms’ carbon and nitrogen fixation capacities.

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Topographically Distinguished Microbiome Taxonomy and Stress-Response Genes of Royal Belum Rainforest and Raja Muda Musa Peat Swamp Revealed through Metagenomic Inquisition

Cited by 2 publications

References 64 publications

Effects of Deep Tillage on Wheat Regarding Soil Fertility and Rhizosphere Microbial Community

Effects of Deep Tillage on Wheat Regarding Soil Fertility and Rhizosphere Microbial Community

Effects of Deep Tillage on Rhizosphere Soil and Microorganisms During Wheat Cultivation

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