| 1. |
- Largent, David L., et al.
(författare)
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New leptonioid species from New South Wales and northeastern Queensland, Australia
- 2016
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Ingår i: Mycotaxon. - : Mycotaxon, Ltd.. - 0093-4666 .- 2154-8889. ; 131:1, s. 153-176
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Tidskriftsartikel (refereegranskat)abstract
- Leptonia subpanniculus, L. newlingii, L. sabulosa, and L. substricta are described as new species based on morphological and molecular characters. Phylogenetic relationships and morphological similarities are discussed for these and other closely related species.
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| 2. |
- Kalsoom Khan, Faheema, et al.
(författare)
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Naming the untouchable - environmental sequences and niche partitioning as taxonomical evidence in fungi
- 2020
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Ingår i: IMA Fungus. - : BMC. - 2210-6340 .- 2210-6359. ; 11:1
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Tidskriftsartikel (refereegranskat)abstract
- Due to their submerged and cryptic lifestyle, the vast majority of fungal species are difficult to observe and describe morphologically, and many remain known to science only from sequences detected in environmental samples. The lack of practices to delimit and name most fungal species is a staggering limitation to communication and interpretation of ecology and evolution in kingdom Fungi. Here, we use environmental sequence data as taxonomical evidence and combine phylogenetic and ecological data to generate and test species hypotheses in the class Archaeorhizomycetes (Taphrinomycotina, Ascomycota). Based on environmental amplicon sequencing from a well-studied Swedish pine forest podzol soil, we generate 68 distinct species hypotheses of Archaeorhizomycetes, of which two correspond to the only described species in the class. Nine of the species hypotheses represent 78% of the sequenced Archaeorhizomycetes community, and are supported by long read data that form the backbone for delimiting species hypothesis based on phylogenetic branch lengths. Soil fungal communities are shaped by environmental filtering and competitive exclusion so that closely related species are less likely to co-occur in a niche if adaptive traits are evolutionarily conserved. In soil profiles, distinct vertical horizons represent a testable niche dimension, and we found significantly differential distribution across samples for a well-supported pair of sister species hypotheses. Based on the combination of phylogenetic and ecological evidence, we identify two novel species for which we provide molecular diagnostics and propose names. While environmental sequences cannot be automatically translated to species, they can be used to generate phylogenetically distinct species hypotheses that can be further tested using sequences as ecological evidence. We conclude that in the case of abundantly and frequently observed species, environmental sequences can support species recognition in the absences of physical specimens, while rare taxa remain uncaptured at our sampling and sequencing intensity.
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| 3. |
- Kluting, Kerri L., et al.
(författare)
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Another dark taxon comes to light: Eludereomycetes, class nov. (Pucciniomycotina, Basidiomycota), and its first known living representative, Eluderea minerophilus, gen. et sp. nov.
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Annan publikation (övrigt vetenskapligt/konstnärligt)abstract
- Only a small fraction of the world’s fungi is described, and the large number of unnamed fungal sequences from environmental DNA serves as a significant complication for taxonomic identification in metabarcoding studies. There are several deeply diverged fungal lineages—some hypothesized to represent class and order ranks—currently known only by environmental DNA sequences that represent them. Here, we describe a previously unidentified fungal culture as the first living representative of one of these lineages (previously referred to as ‘clade GS25’, hypothesized as an early diverging lineage sister to the Pucciniomycotina, Basidiomycota) and present its sequenced genome. We used a phylogenomic approach to test the placement and taxonomic rank of this lineage. We formally describe the first known species in Eludereomycetes, class nov. (Pucciniomycotina, Basidiomycota): Eluderea minerophilus, gen. et sp. nov. This species was isolated from Pinus sylvestris roots collected from a Swedish pine forest, where previously published environmental sequencing data from the site indicate that it is almost exclusively found in the deeper mineral soil horizons. Our analysis shows that the most closely related described species to E. minerophilus likely belongs to the Classiculomycetes, a class within the Pucciniomycotina that is morphologically, molecularly, and ecologically distinct from the Eludereomycetes. Identification of a living representative for this lineage previously detected in environmental DNA, ‘clade GS25’, and describing it as a new species was a somewhat serendipitous discovery made possible in part due to characteristics of two previously published studies. We call attention to some of these aspects and propose a set of practices that could be adopted by the research community to help facilitate more connections between living fungus and environmental DNA sequence. The use of such practices would in turn help to alleviate some of the complications associated with unidentified fungal DNA sequences in reference databases and contribute towards a more complete understanding of fungal diversity.
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| 4. |
- Kluting, Kerri L., et al.
(författare)
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Distribution patterns of fungal taxa and inferred functional traits reflect the non-uniform vertical stratification of soil microhabitats in a coastal pine forest
- 2019
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Ingår i: FEMS Microbiology Ecology. - : Oxford University Press (OUP). - 0168-6496 .- 1574-6941. ; 95:11
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Tidskriftsartikel (refereegranskat)abstract
- In boreal systems, soil profiles typically consist of distinct stratified horizons, with organic layers at the surface overlying deeper mineral horizons providing microhabitat variation along a depth gradient, and vertical stratification of fungal communities along such soil profiles is commonly observed. We studied fungal community structure in a coastal pine forest along a gradient of decreasing influence from the coast. In this system, the vertical stratification pattern of soil microhabitats (defined here as organic, mineral with roots and mineral without roots: O, MR and MN, respectively) is non-uniform; organic horizons are sometimes buried under drifting sand dunes. Our results show that soil microhabitats are distinct with respect to physiochemical characteristics, community composition and OTU richness. While community composition was partly related to depth and distance from the coastal forest edge, microhabitat appeared to have the strongest influence. A closer inspection of the OTUs with the highest relative sequence abundance within each microhabitat revealed that microhabitats support functionally distinct fungal communities with respect to trophic mode and growth morphology. These results suggest that in coastal pine forests, variation in soil microhabitats contributes to the high fungal diversity found belowground and may play an important role in optimizing nutrient cycling.
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| 5. |
- Kluting, Kerri L., et al.
(författare)
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Forest fire influence on Tomicus piniperda-associated fungal communities and phloem nutrient availability of colonized Pinus sylvestris
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Annan publikation (övrigt vetenskapligt/konstnärligt)abstract
- Forest fire is known to positively affect bark beetle populations by providing fire-damaged trees with impaired defenses for infestation. Tomicus piniperda, the common pine shoot beetle, breeds and lays eggs under the bark of stressed pine trees and is considered a serious forest pest within its native range. Wood-colonizing fungi have been hypothesized to improve substrate quality and detoxify tree defensive chemistry to indirectly facilitate tree colonization by beetles. While some bark beetle species form symbiotic associations with beneficial fungi and actively vector their partners when colonizing new trees, T. piniperda does not have mycangia or body hairs for specific vectoring of fungi. To explore the T. piniperda-associated fungal community for signs of specific association, we used ITS metabarcoding to separately characterize fungal communities associated with surface and gut of male and female beetles. We also characterized the temporal changes in fungal community and nutrient status of pine phloem with and without beetle galleries. Sampling was performed two years after a natural forest fire and included both burnt and unburnt sites.In our study system, we find that forest fire significantly impacts the fungal community composition associated with T. piniperda and that fire may also indirectly change nutrient availability in phloem to beetle galleries. We conclude that T. piniperda can vector fungi to newly colonized trees but the absence of positive effects on substrate quality and minimal effects of sex indicate that vectoring of associated fungal communities is not a strategy associated with the T. piniperda life cycle.
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| 6. |
- Kluting, Kerri L., et al.
(författare)
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Toward a stable classification of genera within the Entolomataceae : a phylogenetic re-evaluation of the Rhodocybe-Clitopilus clade
- 2014
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Ingår i: Mycologia. - : Informa UK Limited. - 0027-5514 .- 1557-2536. ; 106:6, s. 1127-1142
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Tidskriftsartikel (refereegranskat)abstract
- Despite the recent molecular systematic analyses of the Entolomataceae (Agaricales, Basidiomycota), a robust classification of genera supported by morphological and phylogenetic evidence remains unresolved for this cosmopolitan family of pink-spored fungi. Here, a phylogenetic analysis for one of the two major clades (Rhodocybe-Clitopilus), was conducted using three nuclear protein-coding gene regions, the mitochondrial ATP synthase subunit 6 (atp6), the nuclear RNA polymerase subunit II (rpb2), and the nuclear translation elongation factor subunit 1-α (tef1). Five monophyletic groups are resolved with strong statistical support and a set of morphological features for delineation of genera is presented. In the revised classification proposed here, Clitopilus is retained, Rhodocybe is emended, two genera previously accepted as synonyms of Rhodocybe (Clitopilopsis and Rhodophana) are resurrected, and Clitocella is described as new.
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| 7. |
- Meidl, Peter, et al.
(författare)
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Soil fungal communities of ectomycorrhizal dominated woodlands across West Africa
- 2021
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Ingår i: MycoKeys. - : Pensoft Publishers. - 1314-4057 .- 1314-4049. ; 81, s. 45-68
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Tidskriftsartikel (refereegranskat)abstract
- Forests and woodlands in the West African Guineo-Sudanian transition zone contain many tree species that form symbiotic interactions with ectomycorrhizal (ECM) fungi. These fungi facilitate plant growth by increasing nutrient and water uptake and include many fruiting body-forming fungi, including some edible mushrooms. Despite their importance for ecosystem functioning and anthropogenic use, diversity and distribution of ECM fungi is severely under-documented in West Africa. We conducted a broad regional sampling across five West African countries using soil eDNA to characterize the ECM as well as the total soil fungal community in gallery forests and savanna woodlands dominated by ECM host tree species. We subsequently sequenced the entire ITS region and much of the LSU region to infer a phylogeny for all detected soil fungal species. Utilizing a long read sequencing approach allows for higher taxonomic resolution by using the full ITS region, while the highly conserved LSU gene allows for a more accurate higher-level assignment of species hypotheses, including species without ITS-based taxonomy assignments. We detect no overall difference in species richness between gallery forests and woodlands. However, additional gallery forest plots and more samples per plot would have been needed to firmly conclude this pattern. Based on both abundance and richness, species from the families Russulaceae and Inocybaceae dominate the ECM fungal soil communities across both vegetation types. The community structure of both total soil fungi and ECM fungi was significantly influenced by vegetation types and showed strong correlation within plots. However, we found no significant difference in fungal community structure between samples collected adjacent to different host tree species within each plot. We conclude that within plots, the fungal community is structured more by the overall ECM host plant community than by the species of the individual host tree that each sample was collected from.
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