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The simultaneous increase of atmospheric CO(2) and nitrogen (N) deposition to terrestrial ecosystems is predicted to alter plant productivity and, consequently, to change the amount and quality of above- and belowground carbon entering forest soils. It is not known how such changes will impact the composition and function of soil fungal communities that play a key role in degrading complex carbon. We sequenced the fungal cellobiohydrolase I gene (cbhI) from soil DNA and cDNA to compare the richness and composition of resident and expressed cbhI genes at a U.S. Department of Energy free air-carbon dioxide enrichment (FACE) site (NC), which had been exposed to elevated atmospheric CO(2) and/or N fertilization treatment for several years. Our results provide evidence that the richness and composition of the cellulolytic fungi surveyed in this study were distinct in the DNA- and cDNA-based gene surveys and were dominated by Basidiomycota that have low or no representation in public databases. The surveys did not detect differences in richness or phylum-level composition of cbhI-containing, cellulolytic fungi that correlated with elevated CO(2) or N fertilization at the time of sampling.

applied and environmental microbiology

Soil Fungal Cellobiohydrolase I Gene ( <i>cbhI</i> ) Composition and Expression in a Loblolly Pine Plantation under Conditions of Elevated Atmospheric CO <sub>2</sub> and Nitrogen Fertilization

Soil Fungal Cellobiohydrolase I Gene ( cbhI ) Composition and Expression in a Loblolly Pine Plantation under Conditions of Elevated Atmospheric CO 2 and Nitrogen Fertilization

Soil Fungal Cellobiohydrolase I Gene ( cbhI ) Composition and Expression in a Loblolly Pine Plantation under Conditions of Elevated Atmospheric CO ₂ and Nitrogen Fertilization