Pertusariales | |
---|---|
Pertusaria pertusa | |
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Fungi |
Division: | Ascomycota |
Class: | Lecanoromycetes |
Subclass: | Ostropomycetidae |
Order: | Pertusariales M.Choisy ex D.Hawksw. & O.E.Erikss. (1986) |
Families | |
Agyriaceae Contents |
The Pertusariales are an order of fungi in the class Lecanoromycetes, comprising 8 families, 31 genera, and over 600 species, [1] many of which form lichens. This diverse group is characterized by complex taxonomic history and ongoing phylogenetic revisions. Originally proposed by Maurice Choisy in 1949 and later formally published by the lichenologists David L. Hawksworth and Ove Eriksson in 1986, Pertusariales has undergone significant reclassification due to molecular phylogenetics studies. The order includes well-known genera such as Pertusaria and Ochrolechia , as well as families like Megasporaceae and Icmadophilaceae.
Pertusariales species exhibit a wide range of morphological features and ecological roles, from non-lichenized fungi to various forms of lichen symbioses. The order's taxonomy has been subject to considerable debate and revision, with recent research leading to the establishment of new orders and the reassignment of some taxa. This ongoing refinement reflects efforts to more accurately represent evolutionary relationships within the group. Conservation concerns exist for some Pertusariales species, with Lepra andersoniae listed as endangered on the IUCN Red List due to its limited range and specific habitat requirements in the Appalachian Mountains.
The order was formally circumscribed by the lichenologists David L. Hawksworth and Ove Eriksson. [2] It was originally proposed by Maurice Choisy in 1949, as a class, but it lacked a description written in Latin, which was a requirement for valid publication. [3] Hawksworth and Eriksson published it validly as an order in 1986. [2] The genus name Pertusaria is the base for both the family names Pertusariaceae and order Pertusariales. It is derived from the Latin pertusus, meaning 'bored through, pierced, perforated', combined with the suffix aria, which implies possession, and alludes to the characteristic fruiting bodies on the thallus surface, immersed in depressions, and opening through a pore. [4]
The order Pertusariales is classified in the subclass Ostropomycetidae (class Lecanoromycetes, division Ascomycota). [5] It has a complex taxonomic history marked by ongoing revisions and debates. Historically, the order encompassed a diverse group of lichen-forming fungi, including the well-known genus Pertusaria . This grouping was primarily based on morphological characteristics. However, recent molecular phylogenetics analyses have challenged traditional classifications, leading to significant changes. For example, Agyrium rufum , once thought to relate to the Trapeliaceae family within Agyriales, was found to be more closely associated with Pertusaria, justifying the merge of Agyriales into Pertusariales. Yet, this merger sparked controversy over which name should prevail due to taxonomic priorities not extending beyond the family rank in fungal nomenclature. [6]
The revision of Pertusariales was further complicated by the identification and establishment of new orders. Researchers at the New York Botanical Garden proposed the creation of Sarrameanales and Trapeliales to accommodate distinct groups of fungi previously misplaced within Agyriales. These efforts align with modern taxonomic practices aiming to reflect evolutionary relationships more accurately. Consequently, the Trapeliaceae, previously associated with Agyriales, was reassigned to the newly established order Trapeliales based on strong molecular evidence distinguishing it from the Pertusariales. This realignment was part of a broader effort to update the lichen herbarium's taxonomic framework to a phylogenetic system reflecting current understanding. [6]
Furthermore, within the Pertusariales, the inclusion and relationships of various genera and families have been subjects of detailed study. Molecular data have supported the separation of certain genera, leading to clearer distinctions between closely related groups. The order now comprises several families, including Pertusariaceae, which houses the type genus Pertusaria. [6]
The classification and detailed breakdown of the order Pertusariales, particularly its division into various genera and families, have been subjects of ongoing debate and reevaluation over many years. Questions have arisen regarding the inclusion of the families Coccotremataceae and Megasporaceae, and the genus Loxosporopsis , as their characteristics partly align with those traditionally associated with Pertusariales but also show notable differences. For instance, Coccotremataceae shares morphological and chemical features with Pertusariaceae yet differs in aspects such as the development of the ascoma, the presence of periphyses, and the type of ascus, alongside the absence or presence of cephalodia. Conversely, molecular evidence has both challenged and supported the inclusion of these taxa within Pertusariales. [7]
The genus Megasporaceae , established for the species Megaspora verrucosa , initially placed within Pertusariales, has exhibited close molecular ties to Aspicilia , challenging its previous classification. Meanwhile, Loxosporopsis, described without definitive familial placement within Pertusariales, has molecular ties suggesting a close relationship with Pertusaria s.str., despite differing in septate ascospore formation, chemical makeup, and ascoma development aspects. These examples illustrate the ongoing redefinitions within Pertusariales based on a combination of morphological and molecular analyses. [7]
Furthermore, the separation between the central Pertusariaceae genera, Ochrolechia and Pertusaria, remains ambiguous, highlighted by the existence of several taxa with intermediate traits and the high variability in their characteristics. This has led to frequent reclassifications among these genera. Molecular studies have exposed Pertusaria as polyphyletic, breaking into distinct monophyletic clusters, thereby challenging the traditional monophyletic view of Pertusariaceae. Although subsequent studies have suggested potential monophyly of Pertusariaceae, these findings have lacked definitive support, complicating the taxonomic understanding of Pertusariales and necessitating further research to clarify these complex phylogenetic relationships. [7]
The order Pertusariales is a group of mostly lichen-forming fungi. The thallus, or lichen body, is typically crustose, meaning it forms a crust-like layer that closely adheres to the substrate . In some species, the thallus may rarely be slightly lobed or have a small, leaf-like appearance (minutely foliose ). [5]
The reproductive structures of Pertusariales fungi, the apothecia, are typically deeply cup-shaped. These structures often start out embedded within the thallus but eventually become more exposed as they mature. The apothecia may open widely or have a pore-like opening, giving them an appearance similar to perithecia , a different type of fungal reproductive structure. A well-developed thalline margin , which is a rim of tissue derived from the thallus itself, usually surrounds the apothecia. [5]
Inside the apothecia, the tissue between the spore-producing cells (asci) is made up of structures called paraphyses. In some species, these paraphyses are found at the base, while in others, particularly those with pore-like apothecia, they may also be present at the top. The asci themselves are relatively short and broadly cylindrical, with a thick, multi-layered wall that stains with iodine (J+). The top of the asci is often more strongly thickened, and they release their spores through a vertical slit at the apex. Unlike many other fungi, the asci of Pertusariales often contain fewer than eight spores. [5]
The ascospores produced by these fungi are very large, colourless (hyaline), and lack internal divisions ( aseptate }). They have a thick, multi-layered wall, which helps protect them in harsh environments. In addition to sexual reproduction via ascospores, Pertusariales fungi can also reproduce asexually through structures called pycnidia, which produce tiny, spore-like cells known as conidia. [5]
The order Pertusariales comprises a diverse array of fungi, organized into several distinct families. These families encompass a wide range of morphological and ecological characteristics, from non-lichenized fungi to various forms of lichen symbioses. In 2006, the order was estimated to contain 450–770 species and "two or three families". [7] Two years later, the Dictionary of the Fungi (10th edition) included 901 species amongst 15 genera and 5 families in the Pertusariales. [5] As of July 2024 [update] , according to Species Fungorum in the Catalogue of Life, the order includes 9 families, 34 genera, and 881 species. [8] This significant increase in recognized taxa reflects ongoing revisions based on new molecular and morphological data.
The Pertusariales are found worldwide, with their greatest diversity in temperate and tropical regions. Most species in this order typically grow on bark (corticolous) or wood (lignicolous), but their ecological range is broad. Various species also inhabit rock surfaces (saxicolous), soil (terricolous), and even bryophytes. Additionally, within the family Microcaliciaceae, some non-lichenized fungi are saprotrophic, feeding on decaying bark or wood, while others live parasitically on other lichens (lichenicolous). [10]
Three Pertusariales species have been assessed for the IUCN global Red List of Threatened Species. One species of particular conservation concern is Lepra andersoniae , which is narrowly endemic to the Appalachian Mountains in the United States and is listed as endangered on the IUCN Red List. It has a limited range, with an extent of occurrence of only 4,027 km² and an area of occupancy of 16 km². The species is known from just three subpopulations across fewer than 10 sites, with an estimated total of 340–570 mature individuals. L. andersoniae faces threats from recreational activities, climate change, and potential habitat loss. It is restricted to sheltered and vertical faces of high-elevation rock outcrops and talus slopes in spruce-fir forests, making it particularly vulnerable to environmental changes. Conservation efforts for this species include monitoring of extant subpopulations, detailed habitat surveys, and the need for a species-specific management plan. [21]
Two other Pertusariales species have been assessed for the IUCN Red List. Pertusaria rhodostoma , known only from a single historical collection in Colombia, is listed as Data Deficient due to a lack of current information on its population, habitat, and potential threats. [22] In contrast, Lepra acroscyphoides , found in the páramo of Colombia, is listed as a least-concern species. While it faces potential threats from agriculture and grazing, its high-elevation habitat in páramo ecosystems provides some natural protection. [23]
Megasporaceae are a family of fungi belonging to the order Pertusariales. Taxa are lichenized with green algae, and grow on rocks, often in maritime climates close to fresh water. Phylogenetic analysis has shown that this family is related to the Pertusariaceae, another family of lichens. The genus Aspicilia was moved here from the Hymeneliaceae.
The Baeomycetales are an order of mostly lichen-forming fungi in the subclass Ostropomycetidae, in the class Lecanoromycetes. It contains 8 families, 33 genera and about 170 species. As a result of molecular phylogenetics research published in the late 2010s, several orders were folded into the Baeomycetales, resulting in a substantial increase in the number of taxa.
The Graphidaceae are a family of lichen-forming fungi in the order Graphidales. The family contains nearly a hundred genera and more than 2000 species. Although the family has a cosmopolitan distribution, most Graphidaceae species occur in tropical regions, and typically grow on bark.
The Pertusariaceae are a family of lichen-forming fungi in the order Pertusariales.
Ochrolechia is a genus of crustose lichens in the family Ochrolechiaceae. These lichens typically form uneven, often thick, crust-like growths on various surfaces and are characterised by their white to pale grey thalli, which may have a greenish tint. The genus has a long evolutionary history, with fossils dating back to the Paleogene period, about 34 million years ago. Ochrolechia species have disc-like apothecia, which are usually yellowish or brownish-pink and often covered with a fine white powdery coating. The genus is widely distributed and includes both common and rare species, with some found in extreme environments such as arctic and alpine regions. Ochrolechia lichens produce diverse secondary metabolites, including orcinol depsides, depsidones, and xanthones.
Diploschistes is a genus of lichen-forming fungi in the family Graphidaceae. Commonly known as crater lichens, members of the genus are crustose lichens with a thick, cracked (areolate) body (thallus) with worldwide distribution. The fruiting part (apothecia) are immersed in the thick thallus so as to have the appearance of being small "craters". The widespread genus contains about 43 species.
Fuscideaceae is a family of lichen-forming fungi in the order Umbilicariales. It contains five genera and about 55 species of crustose lichens.
Megaspora is a genus of lichen-forming fungi in the family Megasporaceae. It contains four species of crustose lichens that typically grow on soil, bryophytes, or plant litter on chalky substrates.
Trapeliaceae is a family of lichens in the order Baeomycetales. The family contains 12 genera and about 125 species.
Teuvoa is a genus of lichen-forming fungi in the family Megasporaceae. It was first classified by lichenologists Mohammad Sohrabi and Steven Leavitt in 2013, with Teuvoa uxoris assigned as the type species. This genus was delineated from the larger genus, Aspicilia, following a molecular phylogenetic analysis which revealed that the Aspicilia uxoris species group constituted a distinct lineage in the Megasporaceae. Initially containing three species, two additional species native to China were added in 2018. Teuvoa is characterised by its small ascospores and conidia, and the absence of secondary metabolites.
Schaereria is a genus of lichen-forming fungi. It is the sole genus in the family Schaereriaceae, which itself is the only family in the Schaereriales, an order in the subclass Ostropomycetidae of the class Lecanoromycetes. Most Schaereria species are crustose lichens that live on rocks. Schaereria was first proposed by Gustav Wilhelm Körber in 1855 and was later taken up by other lichenologists despite periods of disuse.
The Rhizocarpales are an order of lichen-forming fungi in the subclass Lecanoromycetidae of the class Lecanoromycetes. It has two families, Rhizocarpaceae and Sporastatiaceae, which contain mostly crustose lichens.
Lepra is a genus of lichen-forming fungi in the family Pertusariaceae. Although the genus was created in 1777, it was not regularly used until it was resurrected in 2016 following molecular phylogenetic analyses. It has more than a hundred species, most of which were previously classified in genus Pertusaria.
Harpidiaceae is a small family of lichen-forming fungi, containing two genera and five species. It is of uncertain classification in the Pezizomycotina.
Sagiolechiaceae is a small family of lichen-forming fungi in the order Ostropales. It contains two genera, Rhexophiale, and Sagiolechia, the type genus. The family was circumscribed in 2010 by lichenologists Elisabeth Baloch, Robert Lücking, H. Thorsten Lumbsch, and Mats Wedin. Molecular phylogenetic analysis showed that the two genera formed a distinct clade in Ostropales. Four species were included in the original circumscription of the family.
Thelenellaceae is a family of lichen-forming fungi. It is the sole family in the monotypic order Thelenellales, and contains three genera and about 50 species.
Pertusaria galapagoensis is a species of corticolous (bark-dwelling), crustose lichen in the family Pertusariaceae. Found on the Galápagos Islands, it was formally described as a new species in 2015 by Elix, Yánez-Ayabaca, A.W.Archer & Bungartz. The type specimen was collected on Floreana Island at an altitude of 371 m (1,217 ft), where it was found growing on the bark of a south-exposed trunk of Cedrella odorata. The species epithet refers to its distribution.
Pertusaria albineoides is a species of corticolous (bark-dwelling), crustose lichen in the family Pertusariaceae. Found on the Galápagos Islands, it was formally described as a new species in 2015 by Frank Bungartz, A.W.Archer, Alba Yánez-Ayabaca, and John Elix. The type specimen was collected on Alcedo Volcano at an altitude of 1,089 m (3,573 ft), where it was found growing on a partially shaded, rain- and wind-exposed trunk of Scalesia microcephala. The species epithet refers to the similarity to the species Pertusaria albinea, from which it differs by having thin-walled ellipsoid-shaped ascospores that are longer and narrower.
Mangoldia is a genus of lichen-forming fungi in the subfamily Graphidoideae of the family Graphidaceae. It contains four species of corticolous (bark-dwelling) script lichens.
Melanotopelia is a genus of lichen-forming fungi in the family Graphidaceae. It has four species of corticolous (bark-dwelling), crustose lichens. This genus includes species characterised by dark pigmentation in their exciple, non-amyloid ascospores, and specific secondary metabolites.