Forssellia
Forssellia is a genus of lichen-forming fungi in the family Lichinaceae. It includes four species. The genus was established in 1906 but later merged into Pterygiopsis until molecular analyses published in 2024 indicated that it represents a distinct lineage. Species form dark, crustose growths on calcareous or other mineral-rich rocks that become conspicuously gelatinous when moistened, and they produce distinctive —fruiting bodies combining sexual and features. Found mainly across the Northern Hemisphere, Forssellia lichens typically inhabit well-lit, mineral-rich rocks that are temporarily wetted by seepage or along lake shores.
Taxonomy
Forssellia was introduced as a genus of lichen-forming fungi in 1906 by Alexander Zahlbruckner in Engler and Prantl's Die Natürlichen Pflanzenfamilien, where he treated it as a segregate of Enchylium and recognised two species, of which F. affinis occurred on limestone and dolomite in central and southern Europe; he did not designate a type species, and Forssellia affinis was later selected as the type by Clements and Shear in 1931. The genus belongs to a group of dark, gelatinous cyanolichens traditionally placed in several "pyrenopsoid" genera.Later authors treated these species within an expanded concept of Pterygiopsis, but molecular phylogenetic analyses have shown that Pterygiopsis in this broad sense actually comprises two main lineages. One contains Pterygiopsis atra and represents Pterygiopsis in the strict sense, whereas the other includes F. affinis, F. umbilicata and F. canariensis together with material previously referred to Pterygiopsis coracodiza. This latter assemblage forms a supported clade with the genus Anema, although the exact relationships among these genera are still not fully resolved. Monophyly tests indicated that a group containing all the species with pycnoascocarps is plausible, and on this basis the name Forssellia has been reinstated for this lineage.
Four species are recognised in Forssellia as part of the 2024 revision, but unpublished sequence data suggest that additional, as yet undescribed species occur in Europe and Arabia, and the recently described Pyrenopsis chejudoensis may also belong in Forssellia rather than in any of the other pyrenopsoid genera. Some species still retained in Pterygiopsis may likewise require transfer once their affinities have been re-evaluated, whereas material referred to Forssellia neglecta is now treated in the genus Thelignya.
Description
Species of Forssellia form dark, usually blackish to brown thalli that are tightly attached to the rock. The thallus is crustose, meaning it forms a crust-like layer on the surface, but it may develop a more radiating outline or break up into small, scale-like squamules in some. In dry conditions the surface can appear dull to slightly grey and powdery, while in wet conditions the thallus becomes distinctly gelatinous. Attachment to the substrate is achieved by fine fungal strands, a gelatinous basal layer, or a small anchored at a single point, which may show a purplish tint. The thallus lacks a differentiated outer and is composed of tightly packed fungal tissue with the hyphae arranged in a more or less fan-shaped or vertical pattern. The photosynthetic partner is a single-celled cyanobacterium, whose cells sit in yellowish-brown, sometimes reddish, gelatinous sheaths.The sexual reproductive structures are small and range from partly immersed in the thallus to sitting on the surface. They are in form, with a conspicuous surrounding only a thin. Internally, the spore-bearing layer contains septate paraphyses and stains blue in a potassium hydroxide/Lugol's iodine test, a feature typical of this group. The asci are of the Lichina type and may contain the usual eight ascospores or many more. The ascospores are colourless, non-septate, broadly ellipsoid to almost spherical, and relatively small. The ascomata are interpreted as, combining features of both apothecia and asexual fruiting bodies. In addition, Forssellia produces immersed to slightly raised pycnidia with simple that generate small, ellipsoid at their tips. No secondary metabolites have been detected in the genus using thin-layer chromatography.