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Edwards, Joseph [1], Yang, Wendy [2].

Relationship between ectomycorrhizal communities and host tree genera in infleunceing soil carbon and nutrient cycling.

Ectomycorrhizal fungi (EMF) are important drivers of forest ecosystem function, critical for nutrient cycling in soils and uptake of these nutrients by their tree mutualists. While EMF-associated effects on ecosystem processes are often generalized across EMF as a unified guild based on their shared morphology, their diverse phylogenetic lineages may represent hidden functional diversity. Phylogenetic differences among EMF may promote community-driven effects on their function in soils and ecosystems that would not be captured by the traditional "ecto- vs arbuscular-mycorrhizal" dichotomy thought to shape ecosystem function. We hypothesize that, if phylogenetic relationships within EMF communities are linked with their function in the ecosystem, then soils with more closely related EMF communities will feature similar biogeochemical traits than those with more distantly related EMF communities.  To test this hypothesis, we measured EMF phylogenetic biodiversity via high-throughput sequencing as well as key biogeochemical variables indicative of ecosystem function (i.e. soil enzyme activities, soil nutrient concentrations, and soil organic matter fractions) in forest soils in a "prairie grove" forest ecosystem. Within a censused forest plot, we collected soils from locations near three different genera of EMF-associating trees (and) thought to have different litter chemistry and host-specific interactions with EMF communities.     We found soil biogeochemical variables to diverge among the focal EMF tree genera, and that these differences may be related to differing EMF communities associating with host trees. While soil properties such as pH and soil moisture did not differ among soils collected from beneath different tree genera, soil enzyme stoichiometries differed. The potential rates of carbon : nutrient degrading enzyme activities were significantly greater beneath species than or for both nitrogen (p<0.05) and phosphorus (p<0.01). Further, the relative abundance of EMF compared to other fungal functional groups was also lower under species than the other genera (p<0.05), and the most abundant EMF taxa were different among the three tree genera. species are thought to have relatively low carbon : nutrient ratio in  their leaf litter compared to other EMF-associating tree species, which may cause them to select for different root microbiome communities than other broad-leaf EMF species. Further, the microbial communities associated with species demonstrated a greater enzymatic potential for carbon degradation than communities associated with the other ectomycorrhizal trees, suggesting that functional differences among EMF communities can have an impact on biogeochemical cycling in forest ecosystems.

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1 - University of Illinois at Urbana-Champaign, Program in Ecology, Evolution, and Conservation Biology, 632 Morrill Hall, 505 S. Goodwin Ave, Urbana, IL, 61801, USA
2 - University of Illinois at Urbana-Champaign, Plant Biology and Geology, 639 Morrill Hall, 505 S. Goodwin Ave, Urbana, IL, 61801, United States

Ectomycorrhizal fungi
Temperate forest
Soil biogeochemistry
Carbon cycling
Soil organic matter
Nutrient cycling

Presentation Type: Oral Paper
Session: MY3, Mycology: Fungus-Plant Interactions - Ectomycorrhizae and Orchid Mycorrhizae
Location: /
Date: Tuesday, July 20th, 2021
Time: 4:00 PM(EDT)
Number: MY3005
Abstract ID:51
Candidate for Awards:MSA Best Oral Presentation Award by a Graduate Student

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