Structure and resilience of fungal communities in Alaskan boreal forest soils D. Lee Taylor Ian C. Herriott Jack W. McFarland Michael G. Booth Photographer:

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Presentation transcript:

Structure and resilience of fungal communities in Alaskan boreal forest soils D. Lee Taylor Ian C. Herriott Jack W. McFarland Michael G. Booth Photographer: Roger Ruess

Summary of Three Fungal Community Structure Studies I.Two broad surveys, 1) UP and 2) TKN black spruce sites a. Inter-annual variation b. Successional dynamics II.3) Intra-annual variation, single spruce site III.Conclusions

Coupling Diversity with Function: Metagenomics of Boreal Forest Fungi USDA-NSF Microbial Genome Sequencing Program, Goals Fill out sequence space for Alaskan fungi - Sporocarps - Soil DNA Determine how to adequately sample fungi in soil Characterize fungal community structure within the BNZ LTER site across time space and time

BNZ Upland “UP” Core Sites; Interior Alaska Black Spruce TKN Sites Upland 9 sites: UP1a, b, c - early successional UP2a, b, c - mid successional UP3a, b, c - late successional Black spruce 12 sites:- 3 dry, acidic - 3 wet, acidic - 3 dry, non-acidic - 3 wet, non-acidic Sampled same locations in 2004, cores per site/sampling date, 2100 cores total Cores divided into organic and mineral fractions; fractions pooled within sites Co-conspirators: Jack McFarland Teresa Hollingsworth Roger Ruess Niall Lennon Chad Nusbaum

Distributions of 30 Dominant Taxa Dominants have strong host preferences

NMS Ordination: UP and TKN black spruce sites, separate years Low year-year variation within a site

Black spruceUpland organic mineral organic NMS Ordination: UP and TKN black spruce sites, years combined

Tests for fungal community differentiation: multiple response permutation procedure Upland + black spruce differ; horizons differ; year-year variation insignificant

UP1 UP2 UP3 NMS Ordination: UP only, years combined 1)Strong structure by stage 2)Greatest variation in early stage

Community dissimilarities by successional stage Greatest variation in early succession F = 4.17, p = 0.036

Summary of Three Fungal Community Structure Studies I.Broad surveys, UP and TKN black spruce sites a. Inter-annual variation b. Successional dynamics II.Intra-annual variation, single spruce site III.Conclusions

Part 2: Seasonal Dynamics? Sampled 1 site (white/black spruce) : August ‘04, October ‘04, February ‘05 and May ‘05 cores into: Litter, Humic, Mineral 10 pooled cores per sampling date ~9500 clones analyzed Ian Herriott Niall Lennon Chad Nusbaum D. Lee Taylor

Fall Summer Winter Spring NMS Ordination: Humic horizon 1)Seasons have different communities 2)Summer most distinct

Summary of Three Fungal Community Structure Studies I.Broad surveys, 1) UP and 2) TKN black spruce sites a. Inter-annual variation - resilence b. Successional dynamics - strong habitat and horizon prefs, most variable early II.3) Intra-annual variation - detectable dynamics III.Conclusions

Funding Sources and Supporting Agencies

Thanks! Michelle Augustyn Jynene Black Michael Booth Dan Cardin József Geml Hope Gray Ian Herriott Scott Hillard Teresa Hollingsworth Sarah Hopkins Jason Hunt Shawn Huston Tom Marr Jack McFarland Chad Nusbaum Gary Laursen Niall Lennon Jim Long Mitali Patil Roger Ruess Ina Timling

Indicator species status among the 10 most frequent OTUs in the seasonal study

Take-Home Messages: -Inter-annual stability of communities (resilience) -Extreme structure by soil horizon -Divergence in horizon preferences among closely related taxa (fine niche-partitioning => lower resilience) -Detectable seasonal shifts in structure (resilience)

Cortinarius collinitus Cortinarius flexipes Black Spruce Site

Summary of Coring and Sequencing Efforts

Study I: Fungal diversity in 0.25g of boreal forest soil Co-conspirators: Michael Booth Jack McFarland Ian Herriott Roger Ruess Niall Lennon Chad Nusbaum

Summary Stats Total clones sequenced17664 Too short, >2% Ns, non-fungal or ITS missing8209 Chimeras identified258 Clones remaining9197 D8 - final sequences OTUs276 - Singleton OTUs162 H4 - final sequences OTUs218 - Singleton OTUs105 Combined OTUs433 Shared D8-H4 OTUs60

Rank Abundance Plot, Core D8

D8 Species Accumulation Curve

Estimated Actual Number of Species

Dominants from soil cores ~1m apart D8 H4

We have not saturated within site/sample diversity

We HAVE saturated overall diversity across these sites (enough sequences)

More sites would yield more species

Ephemeral, clumped, large + small genets, appearance unpredictable Diverse, intermixed, clumped to over- dispersed ???

B C D E F G H I J K L M N O P Q R S T A