Microbial Inoculants Using Spent Mushroom Substrates as Carriers Improve Soil Multifunctionality by Changing Soil Microbial Community Structure DOI
Hui Nie, Chong Li, Zhaohui Jia

et al.

Published: Jan. 1, 2023

Peat is typically used as a carrier for microbial inoculants; however, due to its non-renewable nature alternatives need be identified reliable and renewable carriers mineral-solubilizing inoculants. In pot experiments, solid inoculants were comprised of peat (P), biochar (BC), spent mushroom substrates (SMS) using Medicago sativa L. experimental materials, the effects these three on soil multifunctionality plant growth investigated. The purpose this study find that can promote optimum amount added. results revealed SMS inoculant had greatest impact biomass strongly stimulated multifunctionality, in contrast inoculant, particularly at supply level 100 g/pot. There was no significant correlation between bacterial/fungal alpha diversity. However, according co-occurrence network bacteria fungi, intimately correlated with biodiversity main ecological clusters (modules) rather than entire community structure. Module hubs connectors detected both bacterial fungal networks, but detected. keystone species module play critical roles maintaining stability aggregation networks. Soil pH major predictor changes biomass, leads therein by affecting These suggested may serve good alternative microorganisms maintain growth.

Language: Английский

Site conditions shaped the effect of silvicultural management on the biodiversity of ectomycorrhizal fungi in mixed Nothofagus forests DOI

Franco Daniel Floriani,

Verónica El Mujtar,

Camila Mateo

et al.

Forest Ecology and Management, Journal Year: 2024, Volume and Issue: 563, P. 121981 - 121981

Published: May 25, 2024

Language: Английский

Citations

0
Causal Inference from High-Dimensional Static Data in Soil Microbiota Networks DOI
Arthur Berg

Physics of Life Reviews, Journal Year: 2024, Volume and Issue: 51, P. 281 - 282

Published: Oct. 30, 2024

Language: Английский

Citations

0
Microbial inoculant-induced modifications of rhizospheric metabolites and microbial communities enhance plant growth DOI
Hui Nie,

Yuxuan Shi,

Xinxin Yang

et al.

Plant and Soil, Journal Year: 2024, Volume and Issue: unknown

Published: Nov. 22, 2024

Language: Английский

Citations

0
Microbial Inoculants Using Spent Mushroom Substrates as Carriers Improve Soil Multifunctionality by Changing Soil Microbial Community Structure DOI
Hui Nie, Chong Li, Zhaohui Jia

et al.

Published: Jan. 1, 2023

Peat is typically used as a carrier for microbial inoculants; however, due to its non-renewable nature alternatives need be identified reliable and renewable carriers mineral-solubilizing inoculants. In pot experiments, solid inoculants were comprised of peat (P), biochar (BC), spent mushroom substrates (SMS) using Medicago sativa L. experimental materials, the effects these three on soil multifunctionality plant growth investigated. The purpose this study find that can promote optimum amount added. results revealed SMS inoculant had greatest impact biomass strongly stimulated multifunctionality, in contrast inoculant, particularly at supply level 100 g/pot. There was no significant correlation between bacterial/fungal alpha diversity. However, according co-occurrence network bacteria fungi, intimately correlated with biodiversity main ecological clusters (modules) rather than entire community structure. Module hubs connectors detected both bacterial fungal networks, but detected. keystone species module play critical roles maintaining stability aggregation networks. Soil pH major predictor changes biomass, leads therein by affecting These suggested may serve good alternative microorganisms maintain growth.

Language: Английский

Citations

0