Peat-vermiculite alters microbiota composition towards increased soil fertility and crop productivity

Wu, Xingjie; Liu, Ye; Shang, Yiwei; Liu, Duo; Liesack, Werner; Cui, Zhenling; Peng, Jingjing; Zhang, Fusuo

doi:10.1007/s11104-021-04851-x

Cited by 22 publications

(8 citation statements)

References 60 publications

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“…The amplicon libraries were generated with the TruSeq DNA PCR-free sample preparation kit. PCR conditions for the bacterial 16S rRNA gene and ITS regions were as described previously ( 43 ). The PCR products were purified with the AMPure XP system and sequenced on an Illumina MiSeq PE 150 platform (Novogene, Tianjin, China).…”

Section: Methodsmentioning

confidence: 99%

Genome-Resolved Metagenomics Reveals Distinct Phosphorus Acquisition Strategies between Soil Microbiomes

Rensing

Han

et al. 2022

mSystems

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Section: Methodsmentioning

confidence: 99%

Genome-Resolved Metagenomics Reveals Distinct Phosphorus Acquisition Strategies between Soil Microbiomes

Rensing

Han

et al. 2022

mSystems

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“…Our study highlighted how cropping affected the network structure of different compartments of soil-plant continuum, revealing that the complex network of soil related rootzone and rhizosphere compartment were greatly affected by crop rotation, while the plant related endosphere and phyllosphere compartment were affected by continuous cropping. Previous studies have shown that crop rotation has the greatest effect on indicator species of rhizosphere microorganisms, and rhizosphere microorganisms can positively regulate a variety of microorganisms and contribute to crop yield (Sun et al, 2018 ; Kraut-Cohen et al, 2020 ; Fan et al, 2021 ; Wu et al, 2021 ). Natural connectivity analysis showed that crop rotation increased the competition between rhizosphere microorganisms, thereby enhancing the stability of the network (Foster and Bell, 2012 ; Coyte et al, 2015 ; Shi et al, 2020 ).…”

Section: Discussionmentioning

confidence: 99%

Agricultural Management Drive Bacterial Community Assembly in Different Compartments of Soybean Soil-Plant Continuum

et al. 2022

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Flowering stage of soybean is an important agronomic trait, which is important for soybean yield, quality and adaptability, and is the external expression of integrating external environmental factors and endogenous signals of the plant itself. Cropping system can change soil properties and fertility, which in turn determine plant growth and yield. The microbial community is the key regulator of plant health and production performance. Currently, there is limited understanding of the effects of cropping systems on microbial community composition, ecological processes controlling community assembly in different soil-plant continuum compartments of soybean. Here, we hope to clarify the structure and assembly process of different soybean compartments bacterial community at flowering stage through our work. The results showed that intercropping decreased the species diversity of rhizosphere and phyllosphere, and phylloaphere microbes mainly came from rhizosphere. FAPROTAX function prediction showed that indicator species sensitive to intercropping and crop rotation were involved in nitrogen/phosphorus cycle and degradation process, respectively. In addition, compared to the continuous cropping, intercropping increased the stochastic assembly processes of bacterial communities in plant-associated compartments, while crop rotation increased the complexity and stability of the rhizosphere network and the deterministic assembly process. Our study highlights the importance of intercropping and crop rotation, as well as rhizosphere and phyllosphere compartments for future crop management and sustainable agricultural regulation of crop microbial communities.

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“…Moreover, experiments have also shown that the formation of ‘Ca 2+ bridges’ between organic matter and aluminosilicate minerals improved the sorption of SOC to vermiculite, and the bridges reduced the bioavailability of SOC (Weng et al , 2005; Mikutta et al , 2007). For example, peat-modified vermiculite was found to be able to improve SOC levels, optimizing soil–root microbial communities and increasing crop yield (Pan et al , 2020; Wu et al , 2022).…”

Section: Clay Minerals Regulate the Structure And Function Of Soilmentioning

confidence: 99%

Engineering clay minerals to manage the functions of soils

Sarwar

Yang

2022

Clay miner.

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Peat-vermiculite alters microbiota composition towards increased soil fertility and crop productivity

Cited by 22 publications

References 60 publications

Genome-Resolved Metagenomics Reveals Distinct Phosphorus Acquisition Strategies between Soil Microbiomes

Genome-Resolved Metagenomics Reveals Distinct Phosphorus Acquisition Strategies between Soil Microbiomes

Agricultural Management Drive Bacterial Community Assembly in Different Compartments of Soybean Soil-Plant Continuum

Engineering clay minerals to manage the functions of soils

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