Chaenothecopsis schefflerae (Ascomycota: Mycocaliciales): a widespread fungus on semi-hardened exudates of endemic New Zealand Araliaceae

Ascomycetes specialised to live on hardened plant exudates occur worldwide, but the number of species so far described is relatively small (c.30). Particularly within the genus Chaenothecopsis (Ascomycota: Mycocaliciales), many species produce their ascomata on hardened but still relatively fresh outpourings of conifer resin or angiosperm exudate. Temperate rainforests of New Zealand provide habitat for several endemic Chaenothecopsis species, including Chaenothecopsis schefflerae, which was previously known from a single sample collected from the exudate of Schefflera digitata (Araliaceae) in the early 1980s. Here we show that C. schefflerae is neither lost nor very rare, but occurs sporad…

Two new resinicolous mycocalicioid fungi from the Acadian Forest: One new to science, the other new to North America

Abstract Chaenothecopsis claydenii is described as new from New Brunswick, Canada, and C. eugenia, also from New Brunswick, is reported for the first time in North America. Both species grow on the resin of Picea spp. in the Acadian Forest and bring to 91 the number of calicioid lichens and fungi known for the ecoregion. Diagnoses and information on the taxonomy and ecology of each species is provided, as is a worldwide key to the mycocalicioid taxa growing on conifer resin.

Dominant Tree Species and Soil Type Affect the Fungal Community Structure in a Boreal Peatland Forest

ABSTRACT Boreal peatlands play a crucial role in global carbon cycling, acting as an important carbon reservoir. However, little information is available on how peatland microbial communities are influenced by natural variability or human-induced disturbances. In this study, we have investigated the fungal diversity and community structure of both the organic soil layer and buried wood in boreal forest soils using high-throughput sequencing of the internal transcribed spacer (ITS) region. We have also compared the fungal communities during the primary colonization of wood with those of the surrounding soils. A permutational multivariate analysis of variance (PERMANOVA) confirmed that the co…

Chaenothecopsis schefflerae (Ascomycota: Mycocaliciales): a widespread fungus on semi-hardened exudates of endemic New Zealand Araliaceae

Ascomycetes specialised to live on hardened plant exudates occur worldwide, but the number of species so far described is relatively small (c.30). Particularly within the genus Chaenothecopsis (Ascomycota: Mycocaliciales), many species produce their ascomata on hardened but still relatively fresh outpourings of conifer resin or angiosperm exudate. Temperate rainforests of New Zealand provide habitat for several endemic Chaenothecopsis species, including Chaenothecopsis schefflerae, which was previously known from a single sample collected from the exudate of Schefflera digitata (Araliaceae) in the early 1980s. Here we show that C. schefflerae is neither lost nor very rare, but occurs sporad…

Chaenothecopsis schefflerae (Ascomycota: Mycocaliciales): a widespread fungus on semi-hardened exudates of endemic New Zealand Araliaceae

Ascomycetes specialised to live on hardened plant exudates occur worldwide, but the number of species so far described is relatively small (c.30). Particularly within the genus Chaenothecopsis (Ascomycota:Mycocaliciales), many species produce their ascomata on hardened but still relatively fresh outpourings of conifer resin or angiosperm exudate. Temperate rainforests of New Zealand provide habitat for several endemic Chaenothecopsis species, including Chaenothecopsis schefflerae, which was previously known from a single sample collected from the exudate of Schefflera digitata (Araliaceae) in the early 1980s. Here we show that C.schefflerae is neither lost nor very rare, but occurs sporadic…

Local forest continuity – important for species-rich Micarea lichen communities, but less so for decomposers

Effects of local forest continuity on the diversity of fungi on standing dead pines

Human-induced fragmentation affects forest continuity, i.e. availability of a suitable habitat for the target species over a time period. The dependence of wood-inhabiting fungi on landscape level continuity has been well demonstrated, but the importance of local continuity has remained controversial. In this study, we explored the effects of local forest continuity (microhabitat and stand level) on the diversity of wood-inhabiting fungi on standing dead trunks of Scots pine (Pinus sylvestris L.). We studied species richness and community composition of decomposers and Micarea lichens on 70 trunks in 14 forests in central Finland that differed in their state of continuity. We used dendrochr…

Local forest continuity – important for species-rich Micarea lichen communities, but less so for decomposers

Fragmentation has a negative effect on forest continuity, i.e. availability of a suitable habitat for the target species over a time period (1). The dependence of wood-inhabiting fungi on landscape level continuity is well acknowledged, but the role of local continuity has remained unclear. We explored the effects of local forest continuity (microhabitat and stand level) on the diversity of fungi inhabiting standing dead trunks of Scots pine (Pinus sylvestris L.). Specifically, we studied the species richness and community composition of decomposers and Micarea lichens. The study included 70 trunks in 14 forests in central Finland with varying state of continuity. We assessed the detailed h…