| 1. |
- Badou, Sylvestre A., et al.
(författare)
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Paxilloboletus gen. nov., a new lamellate bolete genus from tropical Africa
- 2022
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Ingår i: Mycological progress. - : Springer Nature. - 1617-416X .- 1861-8952. ; 21:1, s. 243-256
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Tidskriftsartikel (refereegranskat)abstract
- This study presents Paxilloboletus gen. nov., a new lamellate bolete genus represented by two tropical African species, Paxilloboletus africanus sp. nov. and Paxilloboletus latisporus sp. nov. Although the new taxa strongly resemble Paxillus (Paxillaceae), they lack clamp connections and form a separate generic clade within the Boletaceae phylogeny. The new species are lookalikes, morphologically only separable by their spore morphology. Descriptions and illustrations of the new genus and new species are given, as well as comments on ecology, distribution, and morphological differences with other gilled Boletaceae.
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| 2. |
- Eshghi Sahraei, Shadi, et al.
(författare)
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Effects of operational taxonomic unit inference methods on soil microeukaryote community analysis using long‐read metabarcoding
- 2022
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Ingår i: Ecology and Evolution. - : John Wiley & Sons. - 2045-7758. ; 12:3
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Tidskriftsartikel (refereegranskat)abstract
- Long amplicon metabarcoding has opened the door for phylogenetic analysis of the largely unknown communities of microeukaryotes in soil. Here, we amplified and sequenced the ITS and LSU regions of the rDNA operon (around 1500 bp) from grassland soils using PacBio SMRT sequencing. We tested how three different methods for generation of operational taxonomic units (OTUs) effected estimated richness and identified taxa, and how well large-scale ecological patterns associated with shifting environmental conditions were recovered in data from the three methods. The field site at Kungsängen Nature Reserve has drawn frequent visitors since Linnaeus's time, and its species rich vegetation includes the largest population of Fritillaria meleagris in Sweden. To test the effect of different OTU generation methods, we sampled soils across an abrupt moisture transition that divides the meadow community into a Carex acuta dominated plant community with low species richness in the wetter part, which is visually distinct from the mesic-dry part that has a species rich grass-dominated plant community including a high frequency of F. meleagris. We used the moisture and plant community transition as a framework to investigate how detected belowground microeukaryotic community composition was influenced by OTU generation methods. Soil communities in both moisture regimes were dominated by protists, a large fraction of which were taxonomically assigned to Ciliophora (Alveolata) while 30%–40% of all reads were assigned to kingdom Fungi. Ecological patterns were consistently recovered irrespective of OTU generation method used. However, different methods strongly affect richness estimates and the taxonomic and phylogenetic resolution of the characterized community with implications for how well members of the microeukaryotic communities can be recognized in the data.
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| 3. |
- Furneaux, Brendan R., et al.
(författare)
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Both ectomycorrhizal tree diversity and soil characteristics structure ectomycorrhizal mushroom communities, and production in Sudanian savanna woodlands
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Annan publikation (övrigt vetenskapligt/konstnärligt)abstract
- Ectomycorrhiza (ECM) are a symbiosis between plant and fungi where the plant get nutrients and other benefits from the fungi while the fungi get energy rich carbon compounds from the plant.Many ECM fungi form fleshy fruitbodies, including many choice edible mushrooms.Sudanian savanna woodlands are a tropical ecosystem that has a large proportion of ECM trees, but is under severe threat due to human activities.Based on three mushroom seasons of biweekly frutingbody collection we analyze the environmental factors driving the structure of the ECM community, including: composition, diversity, richness and biomass production.As wild edible mushrooms are an important food supplement in the region, we also analyzed the community structure of local choice edibles specifically.Different types of factors have been shown to influence different systems so we consequently take a comprehensive approach to what environmental factors are investigated, including ECM tree community structure, microclimate, and soil characteristics.We find that the spatial variation in ECM fungal community structure within our study area is larger than the variation in ECM fungal community structure of the study area between years.The richness of ECM host trees influenced all aspects of the spatial community structure, with a positive effect on diversity, richness, and biomass production.Microclimate also had an affect on all aspects of the community structure, but the relative importance of soil temperature and soil moisture varied.Soil characteristics were the strongest correlates of species diversity and richness, as well as biomass production, with soil nitrogen levels found to have a negative effect while phosphorus had a positive effect.Soil characteristicss were not found to be important to species composition, but this may be due to lack of statistical power, since the sampling size was lower for these factors than the others.Despite our comprehensive measurements, most of the spatial variation was not explained by any of the included factors.This variation may be due to unmeasured environmental, individual, or population level factors.
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| 4. |
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| 5. |
- Furneaux, Brendan R., 1979-
(författare)
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Fungal communities of West African ectomycorrhizal woodlands
- 2020
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Ectomycorrhizal symbiosis is a widespread mutualist relationship between fungi and plants, often trees. It is most well-known in temperate and boreal forests, but also occurs in a variety of tropical ecosystems, including Sudanian savanna woodlands and gallery forests in West Africa. In addition to their important role in nutrient cycling, many ectomycorrhizal fungi also produce edible mushrooms as their fruit-bodies. In this thesis, I explore spatial patterns of above-ground and below-ground diversity in West African ectomycorrhizal communities, as well as the use of wild edible fungi by the local human population. In Papers I and II, I used soil DNA metabarcoding to investigate fungal communities in their vegetative state. Paper I used measurements of the scale of spatial autocorrelation within the fungal community in Sudanian woodlands in Benin as a test to compare different high-throughput DNA sequencing strategies, including short (≈350 bp) amplicon barcoding using the Illumina, Ion Torrent, and PacBio sequencing platforms, as well as long (≈1550 bp) amplicon barcoding using PacBio. There were some differences in species richness and community composition recovered by the two amplicon lengths, attributable to known primer biases for the short amplicons, but these did not lead to different ecological results. Additionally, Paper I introduced new software packages for analysis of long-amplicon metabarcoding data and integrating phylogenetic information into sequence-based taxonomic identification. In Paper II we sampled both Sudanian woodland and gallery forest sites in five countries across West Africa using long-amplicon metabarcoding with PacBio. We found significant differences in fungal community composition between Sudanian woodland and gallery forest sites, but not between different tree species within each vegetation type. Papers III and IV focused above-ground to study the natural production and human use of the mushrooms themselves. In Paper III we exhaustively collected mushrooms from nine Sudanian woodland plots in Benin during three consecutive rainy seasons. We measured the total biomass produced of each morphospecies, as well as environmental variables related to microclimate, host tree availability, and soil chemistry. Mushroom production and diversity were negatively correlated with soil nitrogen levels, and positively correlated with soil phosphorus levels. Although there were no clear differences in the fungal communities associated with the four host trees present in our plots, greater host tree diversity was associated with greater fungal diversity and productivity. Finally, Paper IV combined interviews with local people from four ethnic groups in five villages near the study sites from Paper III about their knowledge and preferences for edible mushrooms with DNA barcoding of specimens. Knowledge and preferences for different mushrooms varied between ethnic groups, but people living in a village where their ethnic group is a minority tended to absorb knowledge about mushrooms from the majority group in the village. Women over age 35 were the most knowledgeable about mushrooms, but the degree of gender difference varied between groups. We compiled a list of the most choice edible mushrooms in the area, which can inform the possibility for commercial trade in wild mushrooms to supplement the income of rural people and encourage sustainable forest management.
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| 6. |
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| 7. |
- Furneaux, Brendan R., et al.
(författare)
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Long- and short-read metabarcoding technologies reveal similar spatiotemporal structures in fungal communities
- 2021
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Ingår i: Molecular Ecology Resources. - : John Wiley & Sons. - 1755-098X .- 1755-0998. ; 21:6, s. 1833-1849
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Tidskriftsartikel (refereegranskat)abstract
- Fungi form diverse communities and play essential roles in many terrestrial ecosystems, yet there are methodological challenges in taxonomic and phylogenetic placement of fungi from environmental sequences. To address such challenges, we investigated spatiotemporal structure of a fungal community using soil metabarcoding with four different sequencing strategies: short-amplicon sequencing of the ITS2 region (300-400 bp) with Illumina MiSeq, Ion Torrent Ion S5 and PacBio RS II, all from the same PCR library, as well as long-amplicon sequencing of the full ITS and partial LSU regions (1200-1600 bp) with PacBio RS II. Resulting community structure and diversity depended more on statistical method than sequencing technology. The use of long-amplicon sequencing enables construction of a phylogenetic tree from metabarcoding reads, which facilitates taxonomic identification of sequences. However, long reads present issues for denoising algorithms in diverse communities. We present a solution that splits the reads into shorter homologous regions prior to denoising, and then reconstructs the full denoised reads. In the choice between short and long amplicons, we suggest a hybrid approach using short amplicons for sampling breadth and depth, and long amplicons to characterize the local species pool for improved identification and phylogenetic analyses.
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| 8. |
- Gohar, Daniyal, et al.
(författare)
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Global diversity and distribution of mushroom-inhabiting bacteria
- 2022
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Ingår i: Environmental Microbiology Reports. - : John Wiley & Sons. - 1758-2229 .- 1758-2229. ; 14:2, s. 254-264
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Tidskriftsartikel (refereegranskat)abstract
- Mushroom-forming fungi are important sources of food and medicine in many regions of the world, and their development and health are known to depend on various microbes. Recent studies have examined the structure of mushroom-inhabiting bacterial (MIB) communities and their association with local environmental variables, but global-scale diversity and determinants of these communities remain poorly understood. Here we examined the MIB global diversity and community composition in relation to climate, soil and host factors. We found a core global mushroom microbiome, accounting for 30% of sequence reads, while comprising a few bacterial genera such as Halomonas, Serratia, Bacillus, Cutibacterium, Bradyrhizobium and Burkholderia. Our analysis further revealed an important role of host phylogeny in shaping the communities of MIB, whereas the effects of climate and soil factors remained negligible. The results suggest that the communities of MIB and free-living bacteria are structured by contrasting community assembly processes and that fungal-bacterial interactions are an important determinant of MIB community structure.
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| 9. |
- Houdanon, R. D., et al.
(författare)
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Phylogenetic diversity and affiliation of tropical African ectomycorrhizal fungi
- 2022
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Ingår i: Mycosphere. - : MYCOSPHERE PRESS. - 2077-7000 .- 2077-7019. ; 13:2
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Tidskriftsartikel (refereegranskat)abstract
- Ectomycorrhizal fungi form a mutualistic symbiosis with plant roots, and are key for nutrient cycling in many ecosystems. Here we study the ectomycorrhizal fungal communities in the Oueme Superieur reserve forest in Benin (West Africa). We use phylogenetic methods to test if the species from the study site are closer to other tropical African species than to species from other regions. The Oueme Superieur community was represented by nine Operational Taxonomic Units in Amanitaceae, one in Boletaceae, one in Cantharellaceae, one in Cortinariaceae, two in Inocybaceae, fourteen in Russulaceae and three in Sclerodermataceae. Of these thirty-one Operational Taxonomic Units, twenty had no record in other areas, and unique Operational Taxonomic Units were found in all families except Boletaceae and Sclerodermataceae. The added phylogenetic diversity from these unique Operational Taxonomic Units tended to be higher than expected by chance in all families but Cantharellaceae. The Operational Taxonomic Units are generally fairly distinct and contribute proportionally to the phylogenetic diversity, reflecting that they do not only represent recently diverging species, but also more divergent lineages. Our analyses of the different families show that the communities of Amanitaceae, Inocybaceae, and Russulaceae are more closely related to the general Afrotropic community than expected by chance, at least measured as the nearest taxon distance. The lack of significant patterns in the other families may be due to lack of power, but the wide distribution of many Operational Taxonomic Units suggests that there are not likely to be strong patterns. It is only for Russulaceae that there is a significant pattern in the Oueme Superieur ectomycorrhizal fungal communities at a regional scale, with the Operational Taxonomic Units being less closely related than expected. At a global scale the patterns seem to reflect the overall distribution of the Afrotropic ectomycorrhizal fungal community. The phylogenetic patterns in the Afrotropic communities differ between families, from clustered to no clear pattern to over-dispersed measured as mean average phylogenetic distance. Each family seems to have its own biogeographic history, and there is no clear pattern for the ectomycorrhizal fungal community at large. Despite the lack of comprehensive taxonomic work to identify fungi in a region, it is still possible to draw some conclusions on their diversity using molecular phylogenetic methods. However, limited success in getting good sequence data from specimens, probably due to preservation issues in the field, and the lack of well annotated molecular data from many regions limit the power of these inferences.
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| 10. |
- 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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