Epichloë Fungal Endophytes Have More Host-Dependent Effects on the Soil Microenvironment than on the Initial Litter Quality

Fungal endophytes have been extensively found in most terrestrial plants. This type of plant-microorganism symbiosis generates many benefits for plant growth by promoting nutrient availability, uptake, and resistance to environmental disease or stress. Recent studies have reported that fungal endoph...

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Bibliographic Details
Published in:Journal of fungi (Basel) 2022-02, Vol.8 (3), p.237
Main Authors: Yang, Zhen-Hui, Xing, Ying, Ma, Jian-Guo, Li, Yu-Man, Yang, Xiao-Qian, Wang, Xiao-Bo
Format: Article
Language:English
Subjects:
Carbon
Decomposition
Disease resistance
drunken horse grass
Endophytes
Flowers & plants
Fungi
Grasses
Infections
Litter
litter decomposition
Microenvironments
Moisture content
Molybdenum
Nitrogen
Nutrient availability
Organic soils
Phosphorus
Planting
plant–microbe symbioses
Seeds
Species
Symbiosis
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Summary:Fungal endophytes have been extensively found in most terrestrial plants. This type of plant-microorganism symbiosis generates many benefits for plant growth by promoting nutrient availability, uptake, and resistance to environmental disease or stress. Recent studies have reported that fungal endophytes have a potential impact on plant litter decomposition, but the mechanisms behind its effect are not well understood. We proposed a hypothesis that the impacts of fungal endophytes on litter decomposition are not only due to a shift in the symbiont-induced litter quality but a shift in soil microenvironment. To test this hypothesis, we set-up a field trial by planting three locally dominant grass species (wild barley, drunken horse grass, and perennial ryegrass) with endophyte-infected (E ) and -free (E ) status, respectively. The aboveground litter and bulk soil from each plant species were collected. The litter quality and the soil biotic and abiotic parameters were analyzed to identify their changes across E and E status and plant species. While endophyte status mainly caused a significant shift in soil microenvironment, plant species had a dominant effect on litter quality. Available nitrogen (N) and phosphorus (P) as well as soil organic carbon and microbial biomass in most soils with planting E plants increased by 17.19%, 14.28%, 23.82%, and 11.54%, respectively, in comparison to soils with planting E plants. Our results confirm that fungal endophytes have more of an influence on the soil microenvironment than the aboveground litter quality, providing a partial explanation of the home-field advantage of litter decomposition.
ISSN:2309-608X
2309-608X
DOI:10.3390/jof8030237