Comparative Study on the Effect of Different Soil Improvement Methods in Blueberry Soil DOI Open Access
Yanan Li, Shuxia Liu,

Dongmei Wang

et al.

Published: Nov. 22, 2023

Soil improvement methods can result in changes the microbial community blueberry soil. However, there have been few reports on impacts of different soil function, particularly endophytic microbe. In this study, we analyzed response composition, function and nitrogen (N) cycle to using high throughput sequencing. We aimed investigate best method from a perspective. The results showed that highest diversity was observed T4 treatment (peat combined with mushroom bran), followed by T2 acidified rice husk) both rhizosphere roots. dominant phyla were Proteobacteria Actinobacteria, which most abundance T1 sulfur) treatments soil, respectively, but opposite trend root bacterial community. Interestingly, Acidobacterium Paludibaculum, belonging Acidobacteria phylum, found influence according correlation network analysis. And these bacteria abundant communities clustered into two categories: one for treatments, another T3 (mushroom bran) treatments. Compared other had significant impact functional pathways promoted growth N fixation At module level, increased relative decreased assimilating nitrate reduction reaction (ANRA), dissimilating (DNRA), denitrification completed nitrification Additionally, microbes involved fixation. Overall, our findings suggest addition peat husk is optimal cultivation.

Language: Английский

Comparative Study on the Effect of Different Soil Improvement Methods in Blueberry Soil DOI Open Access
Yanan Li, Shuxia Liu,

Dongmei Wang

et al.

Published: Nov. 22, 2023

Soil improvement methods can result in changes the microbial community blueberry soil. However, there have been few reports on impacts of different soil function, particularly endophytic microbe. In this study, we analyzed response composition, function and nitrogen (N) cycle to using high throughput sequencing. We aimed investigate best method from a perspective. The results showed that highest diversity was observed T4 treatment (peat combined with mushroom bran), followed by T2 acidified rice husk) both rhizosphere roots. dominant phyla were Proteobacteria Actinobacteria, which most abundance T1 sulfur) treatments soil, respectively, but opposite trend root bacterial community. Interestingly, Acidobacterium Paludibaculum, belonging Acidobacteria phylum, found influence according correlation network analysis. And these bacteria abundant communities clustered into two categories: one for treatments, another T3 (mushroom bran) treatments. Compared other had significant impact functional pathways promoted growth N fixation At module level, increased relative decreased assimilating nitrate reduction reaction (ANRA), dissimilating (DNRA), denitrification completed nitrification Additionally, microbes involved fixation. Overall, our findings suggest addition peat husk is optimal cultivation.

Language: Английский

Citations

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