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Ectomycorrhizal access to organic nitrogen mediates CO2 fertilization response in a dominant temperate tree

Peter T. Pellitier, Inés Ibáñez, Donald R. Zak, William A. Argiroff, Kirk Acharya

2021Nature Communications41 citationsDOIOpen Access PDF

Abstract

Abstract Plant–mycorrhizal interactions mediate plant nitrogen (N) limitation and can inform model projections of the duration and strength of the effect of increasing CO 2 on plant growth. We present dendrochronological evidence of a positive, but context-dependent fertilization response of Quercus rubra L . to increasing ambient CO 2 (iCO 2 ) along a natural soil nutrient gradient in a mature temperate forest. We investigated this heterogeneous response by linking metagenomic measurements of ectomycorrhizal (ECM) fungal N-foraging traits and dendrochronological models of plant uptake of inorganic N and N bound in soil organic matter (N-SOM). N-SOM putatively enhanced tree growth under conditions of low inorganic N availability, soil conditions where ECM fungal communities possessed greater genomic potential to decay SOM and obtain N-SOM. These trees were fertilized by 38 years of iCO 2 . In contrast, trees occupying inorganic N rich soils hosted ECM fungal communities with reduced SOM decay capacity and exhibited neutral growth responses to iCO 2 . This study elucidates how the distribution of N-foraging traits among ECM fungal communities govern tree access to N-SOM and subsequent growth responses to iCO 2 .

Topics & Concepts

BiologyTemperate forestContext (archaeology)EctomycorrhizaNutrientTemperate climateTemperate rainforestForagingSoil organic matterSoil waterBotanyEcologySymbiosisEcosystemMycorrhizaBacteriaPaleontologyGeneticsMycorrhizal Fungi and Plant InteractionsPeatlands and Wetlands EcologySoil Carbon and Nitrogen Dynamics
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