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Fuscideaceae
Fuscidea cyathoides
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Fungi
Division: Ascomycota
Class: Lecanoromycetes
Order: Umbilicariales
Family: Fuscideaceae
Hafellner (1984)
Type genus
Fuscidea
V.Wirth & Vězda (1972)
Genera

Albemarlea
Fuscidea
Hueidea
Maronea
Maronora

Fuscideaceae is a family of lichen-forming fungi in the order Umbilicariales. It contains five genera and about 55 species of crustose lichens.

Systematics[edit]

Taxonomy[edit]

The family was circumscribed by the lichenologist Josef Hafellner in 1984. He included the type genus, Fuscidea, and Maronea in his original conception of the family. He considered Maronea as sort of a version of Fuscidea with lecanorine apothecia and multi-spored asci.[1] In his Outline of the Ascomycota series (2006), Ove Eriksson included the genus Hueidea in Fuscideaceae based on its Fuscidea-type asci as the diagnostic character.[2] Both Loxospora and Sarrameana have been proposed for inclusion in the Fuscideaceae,[3] but they are now both placed in a new family, the Sarrameanaceae.[4]

In a recent proposal by Heidi Lie Andersen and Tor Tønsberg, published in late 2023, there has been a call to conserve the name Fuscidea over Maronea, to addressing a taxonomic and nomenclatural issue in the Fuscideaceae. This suggestion stems from multiple molecular studies, particularly those by Bylin et al. (2007), Miadlikowska et al. (2014), and research by Zahradnikova (2017), which demonstrated that Maronea is paraphyletic to Fuscidea, with Maronea species nested within a larger monophyletic Fuscidea clade. The genus Maronea, described by Abramo Bartolommeo Massalongo in 1856, consists of about 12 species, with a more restricted distribution compared to Fuscidea, which comprises over 40 widely distributed species. To preserve nomenclatural stability and avoid the extensive renaming that transferring all Fuscidea species to Maronea or splitting Fuscidea into several smaller genera would entail, the authors advocate for conserving the name Fuscidea against Maronea. This approach aims to minimise name changes, maintaining a monophyletic group within Fuscideaceae and supporting nomenclatural consistency.[5]

Classification[edit]

Since its proposal in 1984, the classification of family Fuscidaceae has been a matter of some debate. Hafellner originally thought the family to be more closely related to the Teloschistaceae than to the Lecideaceae or Lecanoraceae, and he classified the family in the suborder Teloschistineae of the order Teloschistales. He described the similarities in the ascus structure between the Teloschistaceae and Fuscideaceae as "unmistakable".[1] Miadlikowska and colleagues (2006) discovered that the resemblance in ascus structure between the Fuscideaceae and Teloschistales is due to homoplasy.[6]

In some preliminary molecular work, Lutzoni and colleages concluded that the family was associated with the Ostropomycetidae.[7] Reeb and colleagues (2004) identified the Umbilicariaceae as a closely related group to the Fuscideaceae, suggesting the establishment of a new order named Umbilicariales to encompass both groups.[8] Wedin and others (2005) acknowledged a potential relationship between the Fuscideaceae and Umbilicariaceae, though with limited evidence.[9] In 2006, Miadlikowska and her team recommended placing the Fuscideaceae-Ophioparmaceae-Umbilicariaceae grouping into a distinct order, Umbilicariales, under the class Lecanoromycetidae, yet this classification was not officially adopted.[10] Bylin and associates (2007) observed Fuscideacea as a close relative to Umbilicariales, despite a lack of strong evidence.[11] The Ropalosporaceae were reclassified with a provisional placement within the Umbilicariales due to an unclear relationship. Contrarily, Bendiksby and Timdal (2013) contested the inclusion of Fuscideaceae within the Umbilicariales despite noting similarities in the ascus structure between Umbilicaria and Fuscidea, characterised by an amyloid inner and outer layer separated by a nonamyloid layer.[12] Molecular work by Miadlikowska and colleagues in 2014 showed that the family occupies an outlying clade within the order Umbilicariales, which includes the Ophioparmaceae and Ropalosporaceae as well as the Umbilicariaceae itself.[10]

Description[edit]

Fuscideaceae lichens have a crust-like body (thallus), which often presents as a collection of tightly packed, cracked segments (areolate). It is not uncommon for these lichens to have a darker outline or base (prothallus), and some species may develop clusters of reproductive structures (soralia) on their surface. The photosynthetic partner within these lichens is typically chlorococcoid—a form of green algae.[13]

The reproductive structures of these lichens, known as ascomata, take the form of apothecia, which are cup-like fungal structures. These can be either partially embedded in the thallus or sitting atop it (ranging from more or less immersed to sessile), and may or may not have a noticeable rim (thalline margin). The colour of the apothecia's disc varies from red to dark brown or black. Inside these structures, the supportive tissue (hamathecium) consists of sparsely to richly branched filaments (paraphyses), which often have coloured tips.[13]

Kidney bean-shaped spore of Fuscidea recensa

The spore-producing cells (asci) feature a distinctive staining pattern when treated with certain chemical dyes (K/I+ dark blue for the external and internal layers, surrounded by a thick K/I+ pale blue gelatinous cap, but with a K/I– tube at the centre, or tholus). Fuscideaceae asci typically release eight or more spores, which are generally non-segmented (aseptate) or rarely divided once (1-septate), and range in colour from clear to pale brown. The shape of these spores can vary, with some resembling beans or showing a pinched middle section.[13] The conidiomata are in the form of pycnidia; the conidia are non-septate, fusiform to ellipsoid in shape, and hyaline.[14]

Chemistry[edit]

Fuscideaceae species typically have either depsides, depsidones, or no lichen products at all.[14] Other secondary chemical compounds found in Fuscideaceae include anthraquinones, benzyl esters, higher aliphatic acids, and usnic acid.[15][16][17] Specific compounds identified from various members of the family include the orcinol depsides divaricatic acid, nordivaricatic acid, and imbricaric acid; the benzyl esters alectorialic acid and barbatolic acid.[15]

Habitat and distribution[edit]

Collectively, the Fuscideaceae has a cosmopolitan distribution, although species are predominantly found in temperate locales.[14] The most extensive genus within this group, Fuscidea, contains over 40 species that are primarily found in the Northern Hemisphere, although they also occur in the Southern Hemisphere.[5] Genus Albemarlea contains a single species that is found exclusively in North Carolina's Albemarle-Pamlico Peninsula,[18] whereas New South Wales, Australia, is the only known location for the granite rock-dwelling Hueidea.[19]

Fuscideaceae species usually grow on bark, on rocks, or more rarely, on wood or leaves.[14]

Genera[edit]

Tentative placement in the Fuscideaceae. Its single species has a crust-like thallus, Fuscidea-type asci, and green coccoid photobiont, but lacks any lichen products.[18]

The genus Orphniospora Körb. (1874) was previously included in the family, but molecular analysis published in 2017 has since excluded it,[22] and its phylogenetic affinity is considered uncertain.[13] Lettauia is another genus that was included in the Fuscideaceae (sometimes tentatively),[14] but it has since been synonymised with Cryptodiscus (family Stictidaceae).[23] Maronea is kept in the Fuscideaceae pending the nomenclatural decision regarding its name.[5]

References[edit]

  1. ^ a b Hafellner, J. (1984). Studien in Richtung einer natürlichen Gliederung der Sammelfamilien Lecanoracae und Lecideaceae [Studies towards a natural classification of the collective families Lecanoraceae and Lecideaceae]. Beihefte zur Nova Hedwigia (in German). Vol. 79. p. 278.
  2. ^ Eriksson, O.E. (2006). "Outline of Ascomycota – 2006". Myconet. 12: 1–82. Archived from the original on 29 January 2016. Retrieved 13 December 2023.
  3. ^ Tehler, A.; Wedin, M. (2008). "Systematics of lichenized fungi". In Nash III, Thomas H. (ed.). Lichen Biology (2nd ed.). Cambridge, UK: Cambridge University Press. ISBN 978-0-521-69216-8.
  4. ^ Wijayawardene, N.N.; Hyde, K.D.; Dai, D.Q.; Sánchez-García, M.; Goto, B.T.; Saxena, R.K.; et al. (2022). "Outline of Fungi and fungus-like taxa – 2021". Mycosphere. 13 (1): 53–453 [164]. doi:10.5943/mycosphere/13/1/2. hdl:10481/76378.
  5. ^ a b c d e Andersen, Heidi Lie; Tønsberg, Tor (2023). "(2968) Proposal to conserve the name Fuscidea against Maronea (lichenized Ascomycota)". Taxon. 72 (4): 925–926. doi:10.1002/tax.12995.
  6. ^ Miadlikowska, J.; Kauff, F.; Hofstetter, V.; Fraker, E.; Grube, M.; Hafellner, J.; Reeb, V.; Hodkinson, B.P.; Kukwa, M.; Lücking, R.; Hestmark, G.; Otalora, M.G.; Rauhut, A.; Büdel, B.; Scheidegger, C.; Timdal, E.; Stenroos, S.; Brodo, I.; Perlmutter, G.B.; Ertz, D.; Diederich, P.; Lendemer, J.C.; May, P.; Schoch, C.L.; Arnold, A.E. (2006). "New insights into classification and evolution of the Lecanoromycetes (Pezizomycotina, Ascomycota) from phylogenetic analyses of three ribosomal RNA and two protein-coding genes". Mycologia. 98 (6): 1088–1103. doi:10.1080/15572536.2006.11832636. PMID 17486983.
  7. ^ Lutzoni, François; Kauff, Frank; Cox, Cymon J.; McLaughlin, David; Celio, Gail; Dentinger, Bryn; et al. (2004). "Assembling the fungal tree of life: progress, classification, and evolution of subcellular traits". American Journal of Botany. 91 (10): 1446–1480. doi:10.3732/ajb.91.10.1446. PMID 21652303.
  8. ^ Reeb, Valérie; Lutzoni, François; Roux, Claude (2004). "Contribution of RPB2 to multilocus phylogenetic studies of the euascomycetes (Pezizomycotina, Fungi) with special emphasis on the lichen-forming Acarosporaceae and evolution of polyspory". Molecular Phylogenetics and Evolution. 32 (3): 1036–1060. doi:10.1016/j.ympev.2004.04.012. PMID 15288074.
  9. ^ Wedin, Mats; Wiklund, Elisabeth; Crewe, Anna; Döring, Heidi; Ekman, Stefan; Nyberg, Åsa; Schmitt, Imke; Lumbsch, H. Thorsten (2005). "Phylogenetic relationships of Lecanoromycetes (Ascomycota) as revealed by analyses of mtSSU and nuLSU rDNA sequence data". Mycological Research. 109 (2): 159–172. doi:10.1017/s0953756204002102. PMID 15839100.
  10. ^ a b Miadlikowska, Jolanta; Kauff, Frank; Högnabba, Filip; Oliver, Jeffrey C.; Molnár, Katalin; Fraker, Emily; et al. (2014). "A multigene phylogenetic synthesis for the class Lecanoromycetes (Ascomycota): 1307 fungi representing 1139 infrageneric taxa, 317 genera and 66 families". Molecular Phylogenetics and Evolution. 79: 132–168. doi:10.1016/j.ympev.2014.04.003. PMC 4185256. PMID 24747130.
  11. ^ Bylin, Anya; Arnerup Christiansson, Jenny; Högberg, Nils; Thor, Göran (2007). "A phylogenetic study of Fuscideaceae using mtSSU rDNA". In Frisch, Andreas; Lange, Ute; Staiger, Bettina (eds.). Lichenologische Nebenstunden. Contributions to lichen taxonomy and ecology in honour of Klaus Kalb. Bibliotheca Lichenologica. Vol. 96. Berlin/Stuttgart: J. Cramer. pp. 49–60. ISBN 978-3-443-58075-9.
  12. ^ Bendiksby, Mika; Timdal, Einar (2013). "Molecular phylogenetics and taxonomy of Hypocenomyce sensu lato (Ascomycota: Lecanoromycetes): Extreme polyphyly and morphological/ecological convergence". Taxon. 62 (5): 940–956. doi:10.12705/625.18.
  13. ^ a b c d Cannon, Paul; Fryday, Alan; Coppins, Brian; Aptroot, André; Sanderson, Neil; Simkin, Janet (2024). Umbilicariales, including Elixia (Elixiaceae), Fuscidea (Fuscideaceae), Hypocenomyce and Ophioparma (Ophioparmaceae), Ropalospora (Ropalosporaceae) and Lasallia, Umbilicaria and Xylopsora (Umbilicariaceae) (PDF). Revisions of British and Irish Lichens. Vol. 39. p. 3.
  14. ^ a b c d e Jaklitsch, Walter; Baral, Hans-Otto; Lücking, Robert; Lumbsch, H. Thorsten (2016). Frey, Wolfgang (ed.). Syllabus of Plant Families: Adolf Engler's Syllabus der Pflanzenfamilien. Vol. 1/2 (13 ed.). Berlin Stuttgart: Gebr. Borntraeger Verlagsbuchhandlung, Borntraeger Science Publishers. pp. 150–151. ISBN 978-3-443-01089-8. OCLC 429208213.
  15. ^ a b Tønsberg, T. (1992). The Sorediate and Isidiate, Corticolous, Crustose Lichens in Norway. Sommerfeltia. Vol. 14. pp. 51–53. ISBN 82-7420-015-2.
  16. ^ Ekman, Stefan (1993). "A taxonomic study of Ropalospora chlorantha, and a comparison between Ropalospora and Fuscidea". Bryologist. 96 (44): 582–591. doi:10.2307/3243989. JSTOR 3243989.
  17. ^ Kantvilas, G. 2004. Fuscideaceae. Pp. 173–187 in: McCarthy, P.M. & Mallett, K. (eds), Flora of Australia 56A, Lichens 4. Melbourne: ABRS, Canberra & CSIRO Publishing.
  18. ^ a b c Lendemer, James C.; Harris, Richard C.; Ruiz, Ana Maria (2016). "A Review of the Lichens of the Dare Regional Biodiversity Hotspot in the Mid-Atlantic Coastal Plain of North Carolina, Eastern North America". Castanea. 81 (1): 1–77. doi:10.2179/15-073r2.
  19. ^ a b Kantvilas, Gintaras; McCarthy, Patrick M. (2003). "Hueidea (Fuscideaceae), a new lichen genus from alpine Australia". The Lichenologist. 35 (5–6): 397–407. doi:10.1016/j.lichenologist.2003.08.002.
  20. ^ Wirth, V.; Vězda, A. (1972). "Zur Systematik der Lecidea cyathoides-Gruppe" [On the taxonomy of the Lecidea cyathoides group]. Beiträge zur Naturkundlichen Forschung in Südwestdeutschland (in German). 31: 91–92.
  21. ^ Kalb, Klaus; Aptroot, André (2018). "New lichen species from Brazil and Venezuela". The Bryologist. 121 (1): 56–66. doi:10.1639/0007-2745-121.1.056.
  22. ^ Zahradníková, M. (2017). Taxonomy and phylogeny of the family Fuscideaceae (Umbilicariales, Ascomycota) with special emphasis on Fuscidea (PhD). Bergen: University of Bergen. pp. 88 pp.
  23. ^ "Record Details: Lettauia D. Hawksw. & R. Sant., in Jahns, Biblthca Lichenol. 38: 136 (1990)". Index Fungorum. Retrieved 1 April 2024.
source: https://en.wikipedia.org/wiki/Fuscideaceae

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