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- Contribution of fungal biomass to persistent soil carbon across natural . . .
Fungi are known to be crucial in the formation and stabilization of soil organic matter through their exudates and dead residues (necromass) Yet, it remains unclear how fungi contribute to the persistence of carbon in soils over millennial scales across biomes
- Soil nitrogen availability regulates fungal necromass contribution to . . .
Here, a global meta-analysis of 462 paired peer studies (covering temperate, tropical, and subtropical zones) was firstly conducted to quantitatively evaluate the response of fungal vs bacterial necromass contributions across restoration strategies
- Fungal-mediated soil aggregation as a mechanism for carbon . . .
In this review, we assess the current knowledge of the contribution of fungi to soil aggregation and set a new research agenda to quantify fungal-mediated aggregation across different climates and soils
- 自然生态系统中真菌生物量对土壤持久性碳的贡献 - 科学网
Here, this study fills the knowledge gap by linking fungal carbon stocks with minerals-associated carbon stocks across major biomes
- Fungal necromass contribution to carbon sequestration in global . . .
Fungal necromass carbon (FNC) contributes significantly to the build-up of soil organic carbon (SOC) by supplying abundant recalcitrant polymeric melanin present in the fungal cell wall
- Fungal necromass contribution to carbon sequestration in global . . .
We conclude that FNC contributes to over a quarter of SOC, highlighting its major role in enhancing C sequestration worldwide Conservation practices, particularly non-tillage or reduced tillage, are important to enhance C sequestration from FNC in croplands
- Fungal necromass fate in paddy soil depends on fertilization
Microbial necromass, particularly fungal cell residue, is a primary contributor to soil organic carbon (SOC) formation Long-term fertilization strongly alters microbial life strategies, thereby influencing the contribution of microbial carbon (C) to SOC formation Fungal necromass utilization strategies by microorganisms and the mechanisms underlying their contribution to SOC accumulation
- Contribution of fungal biomass to persistent soil carbon . . .
A strong correlation between fungal biomass and reactive mineral-associated carbon stocks in soils across six biomes supports the substantial role of fungi in soil carbon persistence at the global level
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