Bioorganic Fertilizer Can Improve Potato Yield by Replacing Fertilizer with Isonitrogenous Content to Improve Microbial Community Composition DOI Creative Commons
Xuelian Tan,

Xinyuan Hu,

Xiaowei Liu

et al.

Agronomy, Journal Year: 2024, Volume and Issue: 14(12), P. 2881 - 2881

Published: Dec. 3, 2024

The application of bio-organic fertilizers can significantly improve soil fertility and crop yield. This study explored how replacing fertilizer with equal nitrogen affected potato quality, yield, microbial diversity after a 4-year positioning experiment. results showed that the instead 70% chemical could increase yield by 10.4–155.4% but had no significant effect on quality. Furthermore, decrease number bacterial species, it did not influence fungal communities. At phylum level, was directly proportional to abundance Gemmatimonadota Ascomycota, inversely Acidobacteriota Basidiomycota. genus Longimicrobiaceae, Lysobacter, Nocardioides were higher, whereas Vicinamibacteraceae, Gaiella, Solirubrobacter lower. Arthrobacter, Parcubacteria, Lautropia, Luteimonas, Brunneochlamydosporium signatures treatment positively correlated Thus, in dry climates little rainfall, partial substitution higher bioorganic alter composition communities rhizosphere soil, thus improving

Language: Английский

Bioorganic Fertilizer Can Improve Potato Yield by Replacing Fertilizer with Isonitrogenous Content to Improve Microbial Community Composition DOI Creative Commons
Xuelian Tan,

Xinyuan Hu,

Xiaowei Liu

et al.

Agronomy, Journal Year: 2024, Volume and Issue: 14(12), P. 2881 - 2881

Published: Dec. 3, 2024

The application of bio-organic fertilizers can significantly improve soil fertility and crop yield. This study explored how replacing fertilizer with equal nitrogen affected potato quality, yield, microbial diversity after a 4-year positioning experiment. results showed that the instead 70% chemical could increase yield by 10.4–155.4% but had no significant effect on quality. Furthermore, decrease number bacterial species, it did not influence fungal communities. At phylum level, was directly proportional to abundance Gemmatimonadota Ascomycota, inversely Acidobacteriota Basidiomycota. genus Longimicrobiaceae, Lysobacter, Nocardioides were higher, whereas Vicinamibacteraceae, Gaiella, Solirubrobacter lower. Arthrobacter, Parcubacteria, Lautropia, Luteimonas, Brunneochlamydosporium signatures treatment positively correlated Thus, in dry climates little rainfall, partial substitution higher bioorganic alter composition communities rhizosphere soil, thus improving

Language: Английский

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