Journal
ECOSYSTEMS
Volume 16, Issue 4, Pages 590-603Publisher
SPRINGER
DOI: 10.1007/s10021-012-9632-1
Keywords
mycorrhiza; hyphae; canopy; N-15; tree; competition
Categories
Funding
- National Science Foundation [DEB-0911461]
- U.S. Department of Energy [DE-FC02-06ER64158]
- Direct For Biological Sciences [0947329] Funding Source: National Science Foundation
- Division Of Environmental Biology [0947329] Funding Source: National Science Foundation
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Forest succession may cause changes in nitrogen (N) availability, vegetation and fungal community composition that affect N uptake by trees and their mycorrhizal symbionts. Understanding how these changes affect the functioning of the mycorrhizal symbiosis is of interest to ecosystem ecology because of the fundamental roles mycorrhizae play in providing nutrition to trees and structuring forest ecosystems. We investigated changes in tree and mycorrhizal fungal community composition, the availability and uptake of N by trees and mycorrhizal fungi in a forest undergoing a successional transition (age-related loss of early successional tree taxa). In this system, 82-96% of mycorrhizal hyphae were ectomycorrhizal (EM). As biomass production of arbuscular mycorrhizal (AM) trees increased, AM hyphae comprised a significantly greater proportion of total fungal hyphae, and the EM contribution to the N requirement of EM-associated tree taxa declined from greater than 75% to less than 60%. Increasing N availability was associated with lower EM hyphal foraging and N-15 tracer uptake, yet the EM-associated later-successional species Quercus rubra was nonetheless a stronger competitor for N-15 than AM-associated Acer rubrum, likely due to the more extensive nature of the persistent EM hyphal network. These results indicate that successional increases in N availability and co-dominance by AM-associated trees have increased the importance of AM fungi in the mycorrhizal community, while down-regulating EM N acquisition and transfer processes. This work advances understanding of linkages between tree and fungal community composition, and indicates that successional changes in N availability may affect competition between tree taxa with divergent resource acquisition strategies.
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