Mycobiomes of Young Beech Trees Are Distinguished by Organ Rather Than by Habitat, and Community Analyses Suggest Competitive Interactions Among Twig Fungi. Siddique, A. B., Biella, P., Unterseher, M., & Albrectsen, B. R. Frontiers in Microbiology, 12:646302, April, 2021.
Mycobiomes of Young Beech Trees Are Distinguished by Organ Rather Than by Habitat, and Community Analyses Suggest Competitive Interactions Among Twig Fungi [link]Paper  doi  abstract   bibtex   3 downloads  
Beech trees ( Fagus sylvatica ) are prominent keystone species of great economic and environmental value for central Europe, hosting a diverse mycobiome. The composition of endophyte communities may depend on tree health, plant organ or tissue, and growth habitat. To evaluate mycobiome communalities at local scales, buds, and twigs were sampled from two young healthy mountain beech stands in Bavaria, Germany, four kilometers apart. With Illumina high-throughput sequencing, we found 113 fungal taxa from 0.7 million high-quality reads that mainly consisted of Ascomycota (52%) and Basidiomycota (26%) taxa. Significant correlations between richness and diversity indices were observed ( p < 0.05), and mycobiomes did not differ between habitats in the current study. Species richness and diversity were higher in twigs compared to spring buds, and the assemblages in twigs shared most similarities. Interaction network analyses revealed that twig-bound fungi shared similar numbers of (interaction) links with others, dominated by negative co-occurrences, suggesting that competitive exclusion may be the predominant ecological interaction in the highly connected twig mycobiome. Combining community and network analyses strengthened the evidence that plant organs may filter endophytic communities directly through colonization access and indirectly by facilitating competitive interactions between the fungi.
@article{siddique_mycobiomes_2021,
	title = {Mycobiomes of {Young} {Beech} {Trees} {Are} {Distinguished} by {Organ} {Rather} {Than} by {Habitat}, and {Community} {Analyses} {Suggest} {Competitive} {Interactions} {Among} {Twig} {Fungi}},
	volume = {12},
	issn = {1664-302X},
	url = {https://www.frontiersin.org/articles/10.3389/fmicb.2021.646302/full},
	doi = {10/gjrpd2},
	abstract = {Beech trees (
              Fagus sylvatica
              ) are prominent keystone species of great economic and environmental value for central Europe, hosting a diverse mycobiome. The composition of endophyte communities may depend on tree health, plant organ or tissue, and growth habitat. To evaluate mycobiome communalities at local scales, buds, and twigs were sampled from two young healthy mountain beech stands in Bavaria, Germany, four kilometers apart. With Illumina high-throughput sequencing, we found 113 fungal taxa from 0.7 million high-quality reads that mainly consisted of Ascomycota (52\%) and Basidiomycota (26\%) taxa. Significant correlations between richness and diversity indices were observed (
              p
              \&lt; 0.05), and mycobiomes did not differ between habitats in the current study. Species richness and diversity were higher in twigs compared to spring buds, and the assemblages in twigs shared most similarities. Interaction network analyses revealed that twig-bound fungi shared similar numbers of (interaction) links with others, dominated by negative co-occurrences, suggesting that competitive exclusion may be the predominant ecological interaction in the highly connected twig mycobiome. Combining community and network analyses strengthened the evidence that plant organs may filter endophytic communities directly through colonization access and indirectly by facilitating competitive interactions between the fungi.},
	urldate = {2021-06-03},
	journal = {Frontiers in Microbiology},
	author = {Siddique, Abu Bakar and Biella, Paolo and Unterseher, Martin and Albrectsen, Benedicte Riber},
	month = apr,
	year = {2021},
	pages = {646302},
}
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