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Ectomycorrhizal associations in tropical montane forest: insights into their influence on nutrient cycling and functional responses to soil fertility
Corrales, Adriana
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https://hdl.handle.net/2142/90899
Description
- Title
- Ectomycorrhizal associations in tropical montane forest: insights into their influence on nutrient cycling and functional responses to soil fertility
- Author(s)
- Corrales, Adriana
- Issue Date
- 2016-04-22
- Director of Research (if dissertation) or Advisor (if thesis)
- Dalling, James W.
- Doctoral Committee Chair(s)
- Dalling, James W.
- Committee Member(s)
- Paige, Ken N.
- Heath, Katy D.
- Yannarell, Anthony
- Mangan, Scott
- Department of Study
- Plant Biology
- Discipline
- Plant Biology
- Degree Granting Institution
- University of Illinois at Urbana-Champaign
- Degree Name
- Ph.D.
- Degree Level
- Dissertation
- Keyword(s)
- Beta diversity
- Community structure
- Fortuna Forest Reserve
- Mycorrhizal networks
- Russula (Russulaceae)
- Decomposition
- Juglandaceae
- Mycorrhizal symbiosis
- Panama
- Stable isotopes
- Nitrogen addition
- Abstract
- In Panamanian montane forest, the ectomycorrhizal tree Oreomunnea mexicana forms monodominant stands where it accounts for up to 70% of individuals. Monodominance is unexpected in tropical forest because the accumulation of host-specific pathogens is thought to limit the local abundance of individual species. Although rare, monodominant forests have now been recognized in all major tropical regions and include a wide diversity of tree taxa. Notably, many monodominant species associate with a particular type of mutualist: ectomycorrhizal (EM) fungi. Ectomycorrhizal associations are rare in tropical forests where most species associate with arbuscular mycorrhizal fungi. Oreomunnea associates with a diverse community of ectomycorrhizal fungi. In a survey of Oreomunnea root tips using sanger sequencing, I identified 115 EM fungal taxa from 234 EM Oreomunnea root tips collected from four sites across a soil fertility gradient. There was a high compositional turnover in the EM fungal communities associated with Oreomunnea with a significant effect of soil fertility on EM fungal compositional variation. In addition, analysis of the phylogenetic beta diversity for Russula, the most abundant and diverse EM genus in the community, revealed that Russula species show greater than expected phylogenetic dissimilarity among taxa occupying sites with contrasting fertility. Current theory on how monodominance is maintained has focused on alterations to plant-microbial interactions. I tested three potential mechanisms by which EM fungi may potentially allow a host tree species to achieve monodominance: (1) by conferring resistance to soil-borne pathogens that are responsible for negative plant-soil feedback experienced by competing species, (2) by connecting juveniles to adults through ectomycorrhizal networks that transfer water, nutrients or carbon, and (3) by altering ecosystem nutrient economies, thereby reducing the availability of limiting resources to competing species. After testing these three hypotheses I found no evidence for positive feedback on Oreomunnea abundance caused by either pathogen resistance or the formation of mycorrhizal networks. Instead, the presence of EM fungi was associated with a reduction in inorganic nitrogen availability tightening the nitrogen cycle, making it difficult for other, non-EM tree species to compete. Ectomycorrhizal fungi have been shown to respond differently to N addition depending on their functional traits. I studied EM fungal communities associated with Oreomunnea in control plots and plots that had received a nitrogen addition treatment for nine years, I found a significant difference in the species composition of the EM fungal community between plot treatments, and differences in the abundance of some genera. Members of the EM fungal genera Laccaria and Lactarius, showed an increase in their relative abundance with N addition while members of the genus Cortinarius showed a strong reduction in relative abundance. Increased N availability in tropical ecosystems could result in a reduction in EM fungal taxa specialized in organic N and P absorption (e.g., Cortinarius) along with a decrease in EM colonization of host plants potentially having implications in soil C storage, and ecosystem N cycling ultimately affecting forest productivity and diversity. The isotopic composition of EM fruiting bodies has been shown to be a useful tool for understanding the functional role of EM fungi in ecosystems. After analyzing the δ15N and δ13C of Russula fruiting bodies, and its correlation with Oreomunnea host abundance and soil inorganic N availability, I found that the isotopic composition of the Russula community reflects increased host demand for ectomycorrhizal fungal nitrogen supply with a reduction in soil inorganic nitrogen availability. These results are consistent with an increase in N sequestration by EM fungi in sites with higher host abundance. Given the high correlation of host abundance, N availability, and N transfer from EM fungi to the host (reflected in fruiting body δ15N) in our system here I provide further evidence that the formation of Oreomunnea dominated forest is facilitated by its associated EM fungi. In conclusion I found that EM fungi are highly diverse in tropical montane forest and that they can facilitate the formation of monodominant forest of EM associated tree species by altering the N cycle. Also, I predicted increase in N availability due to atmospheric N deposition, could potentially alter the interaction between EM fungi and their host plant potentially leading to biotic and abiotic changes in the ecosystem.
- Graduation Semester
- 2016-05
- Type of Resource
- text
- Permalink
- http://hdl.handle.net/2142/90899
- Copyright and License Information
- Copyright 2016 Adriana Corrales Osorio
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