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Verrucariaceae

April 12, 2024

Verrucariaceae is a family of lichens and a few non-lichenised fungi in the order Verrucariales. The lichens have a wide variety of thallus forms, from crustose (crust-like) to foliose (bushy) and squamulose (scaly). Most of them grow on land, some in freshwater and a few in the sea. Many are free-living but there are some species that are parasites on other lichens, while one marine species always lives together with a leafy green alga.

Verrucariaceae
Verrucaria nigrescens
Scientific classification
Domain: Eukaryota
Kingdom: Fungi
Division: Ascomycota
Class: Eurotiomycetes
Order: Verrucariales
Family: Verrucariaceae
Zenker (1827)
Type genus
Verrucaria
Shrad. (1794)
Genera

See text

Synonyms[1][2]
List
  • Bagliettoaceae Servít (1954)
  • Dermatocarpaceae Stizenb. (1862)
  • Endocarpaceae Fée ex Zenker (1828)
  • Endopyreniaceae Zahlbr. (1898)
  • Glomerillaceae Norman (1868)
  • Mastodiaceae Zahlbr. (1908)
  • Pyrenothamniaceae Zahlbr. (1898)
  • Staurotheleaceae Servít (1954)
  • Thelidiaceae Walt.Watson (1929)

Several characteristics of the spore-bearing structures, the ascomata, define the family, including their perithecioid form–more or less spherical or flask-shaped, with a single opening and otherwise completely enclosed by a wall. Squamulose members of the Verrucariaceae with simple ascospores (lacking partitions called septa), and without algae in the spore-bearing region are known as catapyrenioid lichens; there are more than 80 of these species. The family has several dozen lichenicolous (lichen-dwelling) examples, including a few genera that contain solely lichenicolous members. An unusually diverse variety of photobiont partners have been recorded, mostly green algae, but also brown algae and yellow-green algae.

The family, circumscribed nearly two centuries ago, now includes 56 genera and about one thousand species, and is the third-largest family of lichen-forming fungi. Most diversity occurs in temperate climates of the Northern Hemisphere. Rocks and soil are the most common substrates for the Verrucariaceae, with growth on wood, bark, and leaves less common. Several species are components of biological soil crusts and contribute to the formation and stabilisation of soil. Some semi-aquatic lichens occur in this family, including about two dozen species of marine lichens. Traditionally, Verrucariaceae species have been grouped into genera based largely on the growth form of the thallus, and on the septation of the spores. Molecular phylogenetics research conducted in the past couple of decades has helped to clarify the phylogenetic framework of the family, but many genera remain poorly investigated.

Systematics edit

Taxonomic history edit

 
Dermatocarpon americanum is a foliose member of the Verrucariaceae ...
 
... while Staurothele pulvinata is squamulose.

A system of classification for the Verrucariaceae was first suggested by German botanist Franz Gerhard Eschweiler in 1824. In his scheme, taxa were distributed between two taxonomic ranks intended as names of orders ("cohors"), the Dermatocarpeae and the Verrucariae, based on thallus structure. The Dermatocarpeae contained squamulose (scaly) and foliose (leafy) species, while the Verrucariae had the crustose species. Although several genera were included in each cohor,[3] most of these are now known to be not closely related and are classified in other families; the only currently applicable genera from Eschweiler's list are Dermatocarpon and Endocarpon in the Dermatocarpeae, and Verrucaria in the Verrucariae. Because Eschweiler published these taxa as "cohors", they do not meet the requirements of valid publication according to nomenclatural rules, and the authorship of the family cannot be attributed to him.[4] The family was validly published by Jonathan Carl Zenker three years later in 1827 (as Verrucariae), with Verrucaria assigned as the type genus.[5] In Zenker's proposed classification, the family was divided into Cryolichenes (Verrucariae), which contained Verrucaria and other unrelated crustose genera, and Phyllolichenes (Endocarpa), with genus Endocarpon representing the squamulose and foliose taxa.[6]

Nearly a century later, Alexander Zahlbruckner's publication Catalogus Lichenum Universalis (1922)[7] became an influential work for lichen classification. He divided the order Verrucariales into two families, Dermatocarpaceae and Verrucariaceae, the latter of which was divided into 13 genera, 9 of which remain in the family.[6] Around this time, German lichenologist Georg Hermann Zschacke contributed the first extensive monographic series on the family in a set of publications from 1913 to 1927.[8] His classification scheme was similar to that of Zahlbruckner.[6]

Historically, there were three main morphological criteria used to separate genera in the Verrucariaceae: spore septation (the degree of partitioning by septa); the structure of the thallus; and the presence or absence of algae in the spore-bearing tissue, the hymenium. However, even before the advent of molecular phylogenetics, the use of these characters have been contentious, as several authors have considered them artificial, and not representative of true phylogenetic relationships.[9] As one example, the use of the degree of spore septation as a major character to circumscribe genera was shown to be problematic when it was demonstrated that in some instances, spore septation is variable with a single species.[10] In 1953, Czech lichenologist Miroslav Servít proposed a new system of classification for the Verrucariaceae, based largely on characteristics of the involucrellum—the upper, often pigmented, part of the fruiting body covering the perithecia.[11] Josef Halda summarised Servít's contribution: "Servít's studies contributed to complicacy of the taxonomy of the whole order Verrucariales. The huge amount of newly described taxa (families, genera, species, varieties or forms) and new combinations almost brought an end to good orientation necessary for new researchers. Any of his studies is not really a revision since it contains only a further list of new taxa and their combinations within the many genera and family framework. Servít neither returned to his newly described taxa nor he revised them in his monographs".[12] Servít's classification was not widely adopted by future authors, and according to Cécile Gueidan and colleagues, it was the lack of clear morphological characteristics in the Verrucariaceae that hindered future proposals for changes in classification.[9]

Because of the relatively simple morphology of most of the crustose Verrucariaceae (especially in the type genus Verrucaria), and the fact that this morphology is often variable depending on environmental conditions, identification and delimitation of the species in this family is difficult.[13] Many morphological traits are symplesiomorphic or homoplastic, and are not suitable as distinguishing characters to define genera.[14] Studies have demonstrated several examples of cryptic species–genetically distinct lichens that are difficult or impossible to distinguish by morphology alone–in the genera Hydropunctaria,[15] Sporodictyon,[16] and Verrucaria.[17][18] These difficulties are reflected in the number of species of uncertain status described by previous lichenologists: of the 84 Verrucariaceae species described by Zahlbruckner, about 37 are currently accepted as valid species; Zschacke described 133 species, of which about 50 are now accepted; of Servít's 424 described species, only about 60 are accepted.[13]

Molecular phylogenetics edit

Cladogram (highly simplified from the original) showing the phylogeny of the main genera in family Verrucariaceae.[9]

The first molecular phylogenetic studies involving the Verrucariaceae, published between 2001 and 2006, were used to show the higher-level relationships in the Eurotiomycetes. This research showed that Verrucariales has a sister relationship to the Chaetothyriales, an order of non-lichenised fungi.[19][20][21][22][23][24][25] In 2007 and 2009 publications, Cécile Gueidan and colleagues used molecular data from 83 Verrucariaceae taxa to demonstrate that many of the morphologically defined genera were polyphyletic—of mixed evolutionary origins. In their analysis, they identified 4 major lineages in the family, including ten monophyletic subgroups. They proposed several taxonomic changes to more closely align the morphology-based classification with the molecular phylogeny, including the new genera Parabagliettoa, Hydropunctaria, and Wahlenbergiella and several new combinations. Ancestral state reconstruction analysis suggests that the most recent common ancestor of the Verrucariaceae was probably crustose, had a weakly differentiated upper cortex, a hymenium free of algae, and simple ascospores (i.e., without septa).[6][9] The first lichen-forming fungus to have its genome sequenced was the mycobiont of Endocarpon pusillum, the type species of Endocarpon and a member of the Verrucariaceae.[26]

Etymology edit

As is standard practice in botanical nomenclature,[27] the name Verrucariaceae is based on the name of the type genus, Verrucaria, with the ending -aceae indicating the rank of family. The genus name is derived from the Latin word verruca (meaning "wart") and the suffix -aria (meaning "belonging to" or "possession").[28]

Synonymy edit

Some genera now classified in the Verrucariaceae were considered by past authors to be distinctive enough to warrant inclusion in their own family. These historical family names are considered synonymous with Verrucariaceae:[1][2]

Description edit

 
 
Normandina pulchella (left) and Flakea papillata (right) are two Verrucariaceae species with unusual thallus morphologies.

Species of Verrucariaceae occur in a wide variety of morphologies, including crustose, foliose, and squamulose forms.[37] The size of the lichen body, or thallus, usually ranges from a few millimetres to about 10 cm (4 in) in diameter.[6] Typical thallus colours are greenish, brownish, grey, or black.[37] The medulla is the internal layer of fungal hyphae below the cortex and the algal layer; three types occur in the Verrucariaceae. The prosoplectenchymatous type has loosely interlaced hyphae with elongated cells, the paraplectenchymatous type comprises tightly arranged and rounded cells, and the mixed-type medulla has both rounded and elongated cells.[38]

The ascomata are in the form of a perithecium, and these structures are often clypeate—meaning they have a shield-like stromatic growth, made of both fungal hyphae and host tissue, around the ostiole (opening). In these instances the involucrellum is typically well developed. The hamathecium is a term for all kinds of hyphae or other tissues between asci (the spore-bearing cells). In the Verrucariaceae, the hamathecium is evanescent (disappearing at maturity), and usually hemiamyloid (rarely amyloid).[39] The perithecia have short pseudoparaphyses;[39] these vertical, filament-like support structures are similar to paraphyses but grow downwards in the perithecial cavity before ascus formation.[40] In two genera, Endocarpon and Staurothele, algal cells occur in the hamathecium.[39] Asci are usually bitunicate, meaning they have two functional ascal wall layers.[37] The release of spores from the ascus, or dehiscence, has been shown in some species to involve the gelification of the outer wall apex.[41] The ascospores usually number eight per ascus, are variably septate, and often have a gelatinous covering.[37]

There have been several publications investigating the anatomy and development of the perithecia in Verrucariaceae species.[42][43][44][45] Despite this, it is not clear whether the development of ascomata in the family should be considered ascohymenial (formation originates from special hyphal branches that are usually enveloped by the hyphae that will form the ascocarp) or ascolocular (formation originates from a small stroma, and the asci develop in cavities whose wall consists of stromal tissue).[6]

 
Catapyrenium boccanum, shown here growing in a hole in a calcareous rock, is a catapyrenioid lichen.

Members of the Verrucariaceae that are squamulose, have simple ascospores (without any septa), and lack algae in the hymenium were historically classified in the genus Catapyrenium. These species were later divided into several genera based on the structure of their pycnidia; the validity of this generic splitting was confirmed with phylogenetic analyses. The so-called "catapyrenioid" lichens include members of Anthracocarpon, Catapyrenium, Heteroplacidium, Involucropyrenium, Neocatapyrenium, Placidiopsis, Placidium, and Scleropyrenium, and, as of 2010, numbered 81 species.[46]

The morphological variety of the thallus in the Verrucariaceae includes some rarely encountered forms. For example, the thallus of Flakea papillata consists of what has been described as "minute 'lawns' of small leaflets",[47] in which the algae are arranged in a net-like structure of adjacent cells, one cell layer thick. In Psoroglaena stigonemoides, the thallus consists of tiny coral-like branches of algal threads that are covered by a layer of pimpled (papillate) fungal hyphae. In the sterile lichen Normandina pulchella, the thallus comprises small bluish-green squamules. These squamules have edges can extend upward to form structures similar in appearance to the basidiolichen species Lichenomphalia hudsoniana, or in other instances transform into soralia, somewhat resembling the leprose genus Lepraria.[47]

Photobionts edit

 
The marine species Mastodia tessellata (dark colour) is the only lichen known to form a symbiotic association with a foliose green alga.

There are several green algal genera that are known to become photobiont partners with Verrucariaceae mycobionts. The high photobiont diversity observed in this family is rather unusual, as most higher-level taxonomic groups of lichen-forming fungi tend to associate preferentially with only one or two groups of algae.[48][49] Known green algal associates include members of the class Trebouxiophyceae (genera Asterochloris, Auxenochlorella, Chlorella, Chloroidium, Diplosphaera, Elliptochloris, Myrmecia, Pseudostichococcus, Trebouxia, and Trochiscia), class Chlorophyceae (genus Coccobotrys), and class Ulvophyceae (genus Dilabifilum).[48][39][49] Research continues to reveal new symbiont relationships, such as the newly described (2022) green algal genus and species, Rindifilum ramosum (family Ctenocladaceae, order Ulvales), which associates with some members of Verrucaria.[50]

One study of photobiont diversity in the Verrucariceae suggests that genera with simple crustose thalli (examples include Bagliettoa, Hydropunctaria, and Wahlenbergiella,) use a high diversity and unusual selection of photobionts, whereas the genera with more complex thalli (such as Placidium and Dermatocarpon) tend to have lower photobiont diversity.[48] Brown algae are far less frequent photobiont partners for the Verrucariaceae.[39] An example is the intertidal marine lichen formed by the fungus Wahlenbergiella tavaresiae and the brown alga Petroderma maculiforme. The free-living alga produces filaments that grow and branch upwards; when lichenised and surrounded by mycobiont tissue, they grow downwards.[51] The Verrucariaceae is the only mostly lichen-forming family to have photobiont associations with yellow-green algae (class Xanthophyceae, genus Heterococcus). This genus was shown to be a photobiont partner in the thalli of three unrelated species of Verrucariaceae: Hydropunctaria rheitrophila, Verrucaria funckii, and V. hydrela.[48] In 2022, a crustose, seashore-inhabiting member of the Verrucariaceae was reported as a mycobiont partner for the free-living macroscopic genus Urospora, the first time that genus, or even any in the order Ulotrichales, has been recorded as a photobiont.[52]

The nature of the interaction between mycobiont and photobiont sometimes differs from the typical lichen arrangement in which the photobiont is embedded in a fungal tissue created by the mycobiont. In the Verrucariaceae, some lichens have thalloid algae, where the mycobiont grows within the independently formed algal thallus. Examples include the brown algae Pelvetia and Ascophyllum, and the green alga Prasiola crispa.[48] This last species is the photobiont partner of Mastodia tessellata, the type species of genus Mastodia; this is the only known lichen symbiosis involving a foliose green alga.[53] Because the fungus grows independently as mycelium in close contact with the algae, the interaction between Ascophyllum and verrucariacean fungi is not technically considered a lichen symbiosis.[54] This type of biological partnership has been referred to as an "intimate, mutualistic association",[49] or a mycophycobiosis;[54] more generally, associated species with this type of loose symbiosis have been called "borderline lichens".[55]

Habitat, distribution, and ecology edit

 
Hydropunctaria maura forming a stripe of black lichen (a vegetation zone) along the high-tide line in Saint-Malo, northwestern France

Collectively, Verrucariaceae has a cosmopolitan distribution, although the majority of its species occur in temperate climates. Rocks and soil are the most common substrates, with growth on wood and bark less common.[37] Among the rock-dwelling species, there are both epiliths (those that grow on the surface) and endoliths (those that grow "within" the rocks, i.e., under and around the rock crystals). Calcareous rocks are the most common substrate for the rock-dwellers, but some, especially those in aquatic or semi-aquatic habitats, grow on siliceous rocks.[6] Some species grow on mosses,[56][57] and some grow on leaves, including all species of genus Phylloblastia.[58] Several Verrucariaceae species are components of biological soil crusts and contribute to the formation and stabilisation of soil, particularly in somewhat arid areas; examples include members of Endocarpon and Catapyrenium.[59] Although most species are terrestrial, there are some semi-aquatic species, with representatives from both fresh and salt water.[39] As of 2015, there were 26 known marine Verrucariaceae, distributed amongst the genera Hydropunctaria (6 species), Mastodia (1 sp.), Verrucaria (16 spp.), and Wahlenbergiella (3 spp.).[60] Several of these marine lichens have been investigated preliminarily to determine their suitability for use as bioindicators of coastal water pollution.[61]

 
Verrucula arnoldaria (darkened parts of thallus) growing parasitically on the crustose lichen Calogaya arnoldii

Several Verrucariaceae genera consist entirely of lichenicolous (lichen-dwelling) fungi: Bellemerella, Clauzadella, Haleomyces, Halospora, Norrlinia, Phaeospora, Telogalla. Lichenicolous fungi occur in other genera to a lesser extent. Some genera, including Heteroplacidium, Placidiopsis, Placocarpus, Placopyrenium, Thelidium, Verrucaria, and Verruculopsis contain lichenicolous lichens.[62]

Crustose Verrucariaceae species are often under-represented in local or national checklists (i.e., lists of all species in a certain area) due to their typical habitat on rocks and their inconspicuousness. For example, with the exception of Japan (77 species on a 2018 checklist), the number of Verrucariaceae species in East Asia is poorly known.[13]

Uses edit

There are no species in the Verrucariaceae that have any major economic significance.[37] The only lichen in the family that has been recorded as being used in traditional medicine is Dermatocarpon miniatum. In Traditional Chinese medicine, the lichen, known as "white stone ear" (皮果衣, pí guǒ yī), is used in treatments for high blood pressure, as a diuretic, for expelling parasites, for malnutrition in children, for dysentery, to improve digestion, and for abdominal distension.[63]

Genera edit

These are the genera that are in the Verrucariaceae (including estimated number of species in each genus, totalling 1017 species), according to a 2021 review of fungal classification.[64] Following the genus name is the taxonomic authority (those who first circumscribed the genus; standardised author abbreviations are used), year of publication, and the estimated number of species.[64] Other recent estimates of the number of Verrucariaceae taxa include: 46 genera and 931 species (2008),[65] 48–54 genera and 850–870 species (2016),[39] and 43 genera and 943 species (2017).[66] The GBIF accept over 60+ genera and nearly a thousand species.[67] As of September 2022, Species Fungorum (in the Catalogue of Life), accepts 56 genera and 575 species (including 8 varieties and 6 forms) in the Verrucariaceae. The largest of these is the type genus, Verrucaria, at 146 accepted species.[68][note 1] Verrucariaceae is the third-largest family of lichen-forming fungi, following the Parmeliaceae and the Graphidaceae.[66]

 
 
 
 
Clockwise from upper left: Bagliettoa marmorea (crustose, endolithic); Dermatocarpon luridum (foliose/umbilicate); Heteroplacidium compactum (crustose/areolate); and Hydropunctaria maura (crustose, epilithic)
 
 
 
 
Clockwise from upper left: Placidium arboreum (squamulose, corticolous); Placocarpus schaereri (crustose/areolate, epilithic); Staurothele elenkinii (crustose, epilithic); and Wahlenbergiella mucosa (crustose, epilithic)

Notes edit

  1. ^ The Verrucariaceae species accepted by Species Fungorum are those for which they have expressed a taxonomic opinion, and does not necessarily represent the total number of species in the family.
  2. ^ "Orphaned" species are those that have been named and formally described, but have not been updated and reassessed following a revision of the genus they are in.

References edit

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Cited literature edit

  • Cannon, Paul F.; Kirk, Paul M. (2007). Fungal Families of the World. Wallingford: CABI. ISBN 978-0-85199-827-5. OCLC 60741230.

April 12, 2024
verrucariaceae, family, lichens, lichenised, fungi, order, verrucariales, lichens, have, wide, variety, thallus, forms, from, crustose, crust, like, foliose, bushy, squamulose, scaly, most, them, grow, land, some, freshwater, many, free, living, there, some, s. Verrucariaceae is a family of lichens and a few non lichenised fungi in the order Verrucariales The lichens have a wide variety of thallus forms from crustose crust like to foliose bushy and squamulose scaly Most of them grow on land some in freshwater and a few in the sea Many are free living but there are some species that are parasites on other lichens while one marine species always lives together with a leafy green alga VerrucariaceaeVerrucaria nigrescensScientific classificationDomain EukaryotaKingdom FungiDivision AscomycotaClass EurotiomycetesOrder VerrucarialesFamily VerrucariaceaeZenker 1827 Type genusVerrucariaShrad 1794 GeneraSee textSynonyms 1 2 List Bagliettoaceae Servit 1954 Dermatocarpaceae Stizenb 1862 Endocarpaceae Fee ex Zenker 1828 Endopyreniaceae Zahlbr 1898 Glomerillaceae Norman 1868 Mastodiaceae Zahlbr 1908 Pyrenothamniaceae Zahlbr 1898 Staurotheleaceae Servit 1954 Thelidiaceae Walt Watson 1929 Several characteristics of the spore bearing structures the ascomata define the family including their perithecioid form more or less spherical or flask shaped with a single opening and otherwise completely enclosed by a wall Squamulose members of the Verrucariaceae with simple ascospores lacking partitions called septa and without algae in the spore bearing region are known as catapyrenioid lichens there are more than 80 of these species The family has several dozen lichenicolous lichen dwelling examples including a few genera that contain solely lichenicolous members An unusually diverse variety of photobiont partners have been recorded mostly green algae but also brown algae and yellow green algae The family circumscribed nearly two centuries ago now includes 56 genera and about one thousand species and is the third largest family of lichen forming fungi Most diversity occurs in temperate climates of the Northern Hemisphere Rocks and soil are the most common substrates for the Verrucariaceae with growth on wood bark and leaves less common Several species are components of biological soil crusts and contribute to the formation and stabilisation of soil Some semi aquatic lichens occur in this family including about two dozen species of marine lichens Traditionally Verrucariaceae species have been grouped into genera based largely on the growth form of the thallus and on the septation of the spores Molecular phylogenetics research conducted in the past couple of decades has helped to clarify the phylogenetic framework of the family but many genera remain poorly investigated Contents 1 Systematics 1 1 Taxonomic history 1 2 Molecular phylogenetics 1 3 Etymology 1 4 Synonymy 2 Description 3 Photobionts 4 Habitat distribution and ecology 5 Uses 6 Genera 7 Notes 8 References 8 1 Cited literatureSystematics editTaxonomic history edit nbsp Dermatocarpon americanum is a foliose member of the Verrucariaceae nbsp while Staurothele pulvinata is squamulose A system of classification for the Verrucariaceae was first suggested by German botanist Franz Gerhard Eschweiler in 1824 In his scheme taxa were distributed between two taxonomic ranks intended as names of orders cohors the Dermatocarpeae and the Verrucariae based on thallus structure The Dermatocarpeae contained squamulose scaly and foliose leafy species while the Verrucariae had the crustose species Although several genera were included in each cohor 3 most of these are now known to be not closely related and are classified in other families the only currently applicable genera from Eschweiler s list are Dermatocarpon and Endocarpon in the Dermatocarpeae and Verrucaria in the Verrucariae Because Eschweiler published these taxa as cohors they do not meet the requirements of valid publication according to nomenclatural rules and the authorship of the family cannot be attributed to him 4 The family was validly published by Jonathan Carl Zenker three years later in 1827 as Verrucariae with Verrucaria assigned as the type genus 5 In Zenker s proposed classification the family was divided into Cryolichenes Verrucariae which contained Verrucaria and other unrelated crustose genera and Phyllolichenes Endocarpa with genus Endocarpon representing the squamulose and foliose taxa 6 Nearly a century later Alexander Zahlbruckner s publication Catalogus Lichenum Universalis 1922 7 became an influential work for lichen classification He divided the order Verrucariales into two families Dermatocarpaceae and Verrucariaceae the latter of which was divided into 13 genera 9 of which remain in the family 6 Around this time German lichenologist Georg Hermann Zschacke contributed the first extensive monographic series on the family in a set of publications from 1913 to 1927 8 His classification scheme was similar to that of Zahlbruckner 6 Historically there were three main morphological criteria used to separate genera in the Verrucariaceae spore septation the degree of partitioning by septa the structure of the thallus and the presence or absence of algae in the spore bearing tissue the hymenium However even before the advent of molecular phylogenetics the use of these characters have been contentious as several authors have considered them artificial and not representative of true phylogenetic relationships 9 As one example the use of the degree of spore septation as a major character to circumscribe genera was shown to be problematic when it was demonstrated that in some instances spore septation is variable with a single species 10 In 1953 Czech lichenologist Miroslav Servit proposed a new system of classification for the Verrucariaceae based largely on characteristics of the involucrellum the upper often pigmented part of the fruiting body covering the perithecia 11 Josef Halda summarised Servit s contribution Servit s studies contributed to complicacy of the taxonomy of the whole order Verrucariales The huge amount of newly described taxa families genera species varieties or forms and new combinations almost brought an end to good orientation necessary for new researchers Any of his studies is not really a revision since it contains only a further list of new taxa and their combinations within the many genera and family framework Servit neither returned to his newly described taxa nor he revised them in his monographs 12 Servit s classification was not widely adopted by future authors and according to Cecile Gueidan and colleagues it was the lack of clear morphological characteristics in the Verrucariaceae that hindered future proposals for changes in classification 9 Because of the relatively simple morphology of most of the crustose Verrucariaceae especially in the type genus Verrucaria and the fact that this morphology is often variable depending on environmental conditions identification and delimitation of the species in this family is difficult 13 Many morphological traits are symplesiomorphic or homoplastic and are not suitable as distinguishing characters to define genera 14 Studies have demonstrated several examples of cryptic species genetically distinct lichens that are difficult or impossible to distinguish by morphology alone in the genera Hydropunctaria 15 Sporodictyon 16 and Verrucaria 17 18 These difficulties are reflected in the number of species of uncertain status described by previous lichenologists of the 84 Verrucariaceae species described by Zahlbruckner about 37 are currently accepted as valid species Zschacke described 133 species of which about 50 are now accepted of Servit s 424 described species only about 60 are accepted 13 Molecular phylogenetics edit PlacocarpusVerruculaWahlenbergiellaBagliettoaParabagliettoaPlacidiumHeteroplacidiumDermatocarponEndocarpon NeocatapyreniumPolyblastiaThelidiumAtlaSporodictyonHenricaVerrucariaTrimmatothelePlacopyreniumVerruculopsisHydropunctariaCatapyreniumPlacidiopsisStaurotheleStaurothele groupCladogram highly simplified from the original showing the phylogeny of the main genera in family Verrucariaceae 9 The first molecular phylogenetic studies involving the Verrucariaceae published between 2001 and 2006 were used to show the higher level relationships in the Eurotiomycetes This research showed that Verrucariales has a sister relationship to the Chaetothyriales an order of non lichenised fungi 19 20 21 22 23 24 25 In 2007 and 2009 publications Cecile Gueidan and colleagues used molecular data from 83 Verrucariaceae taxa to demonstrate that many of the morphologically defined genera were polyphyletic of mixed evolutionary origins In their analysis they identified 4 major lineages in the family including ten monophyletic subgroups They proposed several taxonomic changes to more closely align the morphology based classification with the molecular phylogeny including the new genera Parabagliettoa Hydropunctaria and Wahlenbergiella and several new combinations Ancestral state reconstruction analysis suggests that the most recent common ancestor of the Verrucariaceae was probably crustose had a weakly differentiated upper cortex a hymenium free of algae and simple ascospores i e without septa 6 9 The first lichen forming fungus to have its genome sequenced was the mycobiont of Endocarpon pusillum the type species of Endocarpon and a member of the Verrucariaceae 26 Etymology edit As is standard practice in botanical nomenclature 27 the name Verrucariaceae is based on the name of the type genus Verrucaria with the ending aceae indicating the rank of family The genus name is derived from the Latin word verruca meaning wart and the suffix aria meaning belonging to or possession 28 Synonymy edit Some genera now classified in the Verrucariaceae were considered by past authors to be distinctive enough to warrant inclusion in their own family These historical family names are considered synonymous with Verrucariaceae 1 2 Endocarpaceae Fee ex Zenker 1828 type genus Endocarpon Dermatocarpaceae Stizenb 1862 29 type genus Dermatocarpon Glomerillaceae Norman 1868 30 type genus Glomerilla Endopyreniaceae Zahlbr 1898 31 type genus Endocarpon 32 Mastodiaceae Zahlbr 1908 33 type genus Mastodia Pyrenothamniaceae Zahlbr 1898 31 type genus Pyrenothamnia Tuck 1883 now synonymised with Endocarpon 34 Thelidiaceae Walt Watson 1929 35 type genus Thelidium Bagliettoaceae Servit 1954 36 type genus Bagliettoa Staurotheleaceae Servit 1954 36 type genus StaurotheleDescription edit nbsp nbsp Normandina pulchella left and Flakea papillata right are two Verrucariaceae species with unusual thallus morphologies Species of Verrucariaceae occur in a wide variety of morphologies including crustose foliose and squamulose forms 37 The size of the lichen body or thallus usually ranges from a few millimetres to about 10 cm 4 in in diameter 6 Typical thallus colours are greenish brownish grey or black 37 The medulla is the internal layer of fungal hyphae below the cortex and the algal layer three types occur in the Verrucariaceae The prosoplectenchymatous type has loosely interlaced hyphae with elongated cells the paraplectenchymatous type comprises tightly arranged and rounded cells and the mixed type medulla has both rounded and elongated cells 38 The ascomata are in the form of a perithecium and these structures are often clypeate meaning they have a shield like stromatic growth made of both fungal hyphae and host tissue around the ostiole opening In these instances the involucrellum is typically well developed The hamathecium is a term for all kinds of hyphae or other tissues between asci the spore bearing cells In the Verrucariaceae the hamathecium is evanescent disappearing at maturity and usually hemiamyloid rarely amyloid 39 The perithecia have short pseudoparaphyses 39 these vertical filament like support structures are similar to paraphyses but grow downwards in the perithecial cavity before ascus formation 40 In two genera Endocarpon and Staurothele algal cells occur in the hamathecium 39 Asci are usually bitunicate meaning they have two functional ascal wall layers 37 The release of spores from the ascus or dehiscence has been shown in some species to involve the gelification of the outer wall apex 41 The ascospores usually number eight per ascus are variably septate and often have a gelatinous covering 37 There have been several publications investigating the anatomy and development of the perithecia in Verrucariaceae species 42 43 44 45 Despite this it is not clear whether the development of ascomata in the family should be considered ascohymenial formation originates from special hyphal branches that are usually enveloped by the hyphae that will form the ascocarp or ascolocular formation originates from a small stroma and the asci develop in cavities whose wall consists of stromal tissue 6 nbsp Catapyrenium boccanum shown here growing in a hole in a calcareous rock is a catapyrenioid lichen Members of the Verrucariaceae that are squamulose have simple ascospores without any septa and lack algae in the hymenium were historically classified in the genus Catapyrenium These species were later divided into several genera based on the structure of their pycnidia the validity of this generic splitting was confirmed with phylogenetic analyses The so called catapyrenioid lichens include members of Anthracocarpon Catapyrenium Heteroplacidium Involucropyrenium Neocatapyrenium Placidiopsis Placidium and Scleropyrenium and as of 2010 numbered 81 species 46 The morphological variety of the thallus in the Verrucariaceae includes some rarely encountered forms For example the thallus of Flakea papillata consists of what has been described as minute lawns of small leaflets 47 in which the algae are arranged in a net like structure of adjacent cells one cell layer thick In Psoroglaena stigonemoides the thallus consists of tiny coral like branches of algal threads that are covered by a layer of pimpled papillate fungal hyphae In the sterile lichen Normandina pulchella the thallus comprises small bluish green squamules These squamules have edges can extend upward to form structures similar in appearance to the basidiolichen species Lichenomphalia hudsoniana or in other instances transform into soralia somewhat resembling the leprose genus Lepraria 47 Photobionts edit nbsp The marine species Mastodia tessellata dark colour is the only lichen known to form a symbiotic association with a foliose green alga There are several green algal genera that are known to become photobiont partners with Verrucariaceae mycobionts The high photobiont diversity observed in this family is rather unusual as most higher level taxonomic groups of lichen forming fungi tend to associate preferentially with only one or two groups of algae 48 49 Known green algal associates include members of the class Trebouxiophyceae genera Asterochloris Auxenochlorella Chlorella Chloroidium Diplosphaera Elliptochloris Myrmecia Pseudostichococcus Trebouxia and Trochiscia class Chlorophyceae genus Coccobotrys and class Ulvophyceae genus Dilabifilum 48 39 49 Research continues to reveal new symbiont relationships such as the newly described 2022 green algal genus and species Rindifilum ramosum family Ctenocladaceae order Ulvales which associates with some members of Verrucaria 50 One study of photobiont diversity in the Verrucariceae suggests that genera with simple crustose thalli examples include Bagliettoa Hydropunctaria and Wahlenbergiella use a high diversity and unusual selection of photobionts whereas the genera with more complex thalli such as Placidium and Dermatocarpon tend to have lower photobiont diversity 48 Brown algae are far less frequent photobiont partners for the Verrucariaceae 39 An example is the intertidal marine lichen formed by the fungus Wahlenbergiella tavaresiae and the brown alga Petroderma maculiforme The free living alga produces filaments that grow and branch upwards when lichenised and surrounded by mycobiont tissue they grow downwards 51 The Verrucariaceae is the only mostly lichen forming family to have photobiont associations with yellow green algae class Xanthophyceae genus Heterococcus This genus was shown to be a photobiont partner in the thalli of three unrelated species of Verrucariaceae Hydropunctaria rheitrophila Verrucaria funckii and V hydrela 48 In 2022 a crustose seashore inhabiting member of the Verrucariaceae was reported as a mycobiont partner for the free living macroscopic genus Urospora the first time that genus or even any in the order Ulotrichales has been recorded as a photobiont 52 The nature of the interaction between mycobiont and photobiont sometimes differs from the typical lichen arrangement in which the photobiont is embedded in a fungal tissue created by the mycobiont In the Verrucariaceae some lichens have thalloid algae where the mycobiont grows within the independently formed algal thallus Examples include the brown algae Pelvetia and Ascophyllum and the green alga Prasiola crispa 48 This last species is the photobiont partner of Mastodia tessellata the type species of genus Mastodia this is the only known lichen symbiosis involving a foliose green alga 53 Because the fungus grows independently as mycelium in close contact with the algae the interaction between Ascophyllum and verrucariacean fungi is not technically considered a lichen symbiosis 54 This type of biological partnership has been referred to as an intimate mutualistic association 49 or a mycophycobiosis 54 more generally associated species with this type of loose symbiosis have been called borderline lichens 55 Habitat distribution and ecology edit nbsp Hydropunctaria maura forming a stripe of black lichen a vegetation zone along the high tide line in Saint Malo northwestern FranceCollectively Verrucariaceae has a cosmopolitan distribution although the majority of its species occur in temperate climates Rocks and soil are the most common substrates with growth on wood and bark less common 37 Among the rock dwelling species there are both epiliths those that grow on the surface and endoliths those that grow within the rocks i e under and around the rock crystals Calcareous rocks are the most common substrate for the rock dwellers but some especially those in aquatic or semi aquatic habitats grow on siliceous rocks 6 Some species grow on mosses 56 57 and some grow on leaves including all species of genus Phylloblastia 58 Several Verrucariaceae species are components of biological soil crusts and contribute to the formation and stabilisation of soil particularly in somewhat arid areas examples include members of Endocarpon and Catapyrenium 59 Although most species are terrestrial there are some semi aquatic species with representatives from both fresh and salt water 39 As of 2015 there were 26 known marine Verrucariaceae distributed amongst the genera Hydropunctaria 6 species Mastodia 1 sp Verrucaria 16 spp and Wahlenbergiella 3 spp 60 Several of these marine lichens have been investigated preliminarily to determine their suitability for use as bioindicators of coastal water pollution 61 nbsp Verrucula arnoldaria darkened parts of thallus growing parasitically on the crustose lichen Calogaya arnoldiiSeveral Verrucariaceae genera consist entirely of lichenicolous lichen dwelling fungi Bellemerella Clauzadella Haleomyces Halospora Norrlinia Phaeospora Telogalla Lichenicolous fungi occur in other genera to a lesser extent Some genera including Heteroplacidium Placidiopsis Placocarpus Placopyrenium Thelidium Verrucaria and Verruculopsis contain lichenicolous lichens 62 Crustose Verrucariaceae species are often under represented in local or national checklists i e lists of all species in a certain area due to their typical habitat on rocks and their inconspicuousness For example with the exception of Japan 77 species on a 2018 checklist the number of Verrucariaceae species in East Asia is poorly known 13 Uses editThere are no species in the Verrucariaceae that have any major economic significance 37 The only lichen in the family that has been recorded as being used in traditional medicine is Dermatocarpon miniatum In Traditional Chinese medicine the lichen known as white stone ear 皮果衣 pi guǒ yi is used in treatments for high blood pressure as a diuretic for expelling parasites for malnutrition in children for dysentery to improve digestion and for abdominal distension 63 Genera editThese are the genera that are in the Verrucariaceae including estimated number of species in each genus totalling 1017 species according to a 2021 review of fungal classification 64 Following the genus name is the taxonomic authority those who first circumscribed the genus standardised author abbreviations are used year of publication and the estimated number of species 64 Other recent estimates of the number of Verrucariaceae taxa include 46 genera and 931 species 2008 65 48 54 genera and 850 870 species 2016 39 and 43 genera and 943 species 2017 66 The GBIF accept over 60 genera and nearly a thousand species 67 As of September 2022 update Species Fungorum in the Catalogue of Life accepts 56 genera and 575 species including 8 varieties and 6 forms in the Verrucariaceae The largest of these is the type genus Verrucaria at 146 accepted species 68 note 1 Verrucariaceae is the third largest family of lichen forming fungi following the Parmeliaceae and the Graphidaceae 66 nbsp nbsp nbsp nbsp Clockwise from upper left Bagliettoa marmorea crustose endolithic Dermatocarpon luridum foliose umbilicate Heteroplacidium compactum crustose areolate and Hydropunctaria maura crustose epilithic nbsp nbsp nbsp nbsp Clockwise from upper left Placidium arboreum squamulose corticolous Placocarpus schaereri crustose areolate epilithic Staurothele elenkinii crustose epilithic and Wahlenbergiella mucosa crustose epilithic Agonimia Zahlbr 1909 69 ca 20 spp Anthracocarpon Breuss 1996 70 1 sp Atla S Savic amp Tibell 2008 71 10 spp Awasthiella Kr P Singh 1980 72 1 sp Bagliettoa A Massal 1853 73 17 spp Bellemerella Nav Ros amp Cl Roux 1997 74 4 spp Catapyrenium Flot 1850 75 6 spp Clauzadella Nav Ros amp Cl Roux 1996 76 1 sp Clavascidium Breuss 1996 70 9 spp Dermatocarpon Eschw 1824 3 20 spp Diederimyces Etayo 1995 77 2 spp Endocarpon Hedw 1789 78 ca 75 spp Flakea O E Erikss 1992 79 1 sp Glomerilla Norman 1869 30 1 sp Haleomyces D Hawksw amp Essl 1993 80 1 sp Halospora Zschacke Tomas amp Cif 1952 81 4 spp Henrica B de Lesd 1921 82 4 spp Heterocarpon Mull Arg 1885 83 1 sp Heteroplacidium Breuss 1996 70 12 spp Hydropunctaria C Keller Gueidan amp Thus 2009 9 8 spp Involucropyrenium Breuss 1996 70 9 spp Mastodia Hook f amp Harv 1847 84 5 spp Moriola Norman 1872 85 ca 15 spp Muellerella Hepp ex Mull Arg 1862 86 9 spp Neocatapyrenium H Harada 1993 87 5 spp Nesothele Orange 2022 13 5 spp Normandina Nyl 1855 88 3 spp Norrlinia Theiss amp Syd 1918 89 2 spp Parabagliettoa Gueidan amp Cl Roux 2009 9 3 spp Phaeospora Hepp ex Stein 1879 90 14 spp Phylloblastia Vain 1921 91 12 spp Placidiopsis Beltr 1858 92 20 spp Placidium A Massal 1855 93 28 spp Placocarpus Trevis 1860 94 5 spp Placopyrenium Breuss 1987 95 22 spp Placothelium Mull Arg 1893 96 1 sp Plurisperma Sivan 1970 97 1 sp Polyblastia A Massal 1852 98 ca 40 ca 50 orphaned note 2 Psoroglaena Mull Arg 1891 99 17 spp Rhabdopsora Mull Arg 1888 100 2 spp Scleropyrenium H Harada 1993 87 2 spp Servitia M S Christ amp Alstrup 2001 101 1 sp Spheconisca Norman Norman 1876 102 ca 20 spp Sporodictyon A Massal 1852 103 5 spp Staurothele Norman 1852 104 ca 40 spp Telogalla Nik Hoffm amp Hafellner 2000 105 2 spp Thelidiopsis Vain 1921 91 4 spp Thelidium A Massal 1855 106 ca 50 ca 50 orphaned Trimmatothele Norman ex Zahlbr 1903 107 3 spp Turgidosculum Kohlm amp E Kohlm 1972 108 1 sp Verrucaria Schrad 1794 109 ca 300 spp Verrucula J Steiner 1896 110 22 spp Verruculopsis Gueidan Nav Ros amp Cl Roux 2007 111 ca 10 spp Wahlenbergiella Gueidan amp Thus 2009 9 3 spp Willeya Mull Arg 1883 112 12 spp Notes edit The Verrucariaceae species accepted by Species Fungorum are those for which they have expressed a taxonomic opinion and does not necessarily represent the total number of species in the family Orphaned species are those that have been named and formally described but have not been updated and reassessed following a revision of the genus they are in References edit a b Cannon amp Kirk 2007 pp 438 456 a b Perez Ortega Sergio Rios Asuncion de los Crespo Ana Sancho Leopoldo G 2010 Symbiotic lifestyle and phylogenetic relationships of the bionts of Mastodia tessellata Ascomycota incertae sedis American Journal of Botany 97 5 738 752 doi 10 3732 ajb 0900323 PMID 21622440 a b Eschweiler Franz Gerhard 1824 Systema lichenum genera exhibens rite distincta pluribus novis adaucta A system of lichen exhibiting duly distinct genera with several new additions in Latin Nuremberg pp 15 17 21 22 Verrucariaceae Mycobank Retrieved 10 July 2022 Goebel Friedemann Kunze Gustav 1827 Pharmaceutische Waarenkunde mit illuminierten Kupfern nach der Natur gezeichnet von Ernst Schenk 1 Rinden und ihre Parasiten aus der Ordnung der Flechten Pharmaceutical product knowledge with illuminated copperplates drawn from nature by Ernst Schenk 1 Barks and their parasites from the order of lichens in German Vol 1 J F Barecke p 123 a b c d e f g Gueidan Cecile Roux Claude Lutzoni Francois 2007 Using a multigene phylogenetic analysis to assess generic delineation and character evolution in Verrucariaceae Verrucariales Ascomycota Mycological Research 111 10 1145 1168 doi 10 1016 j mycres 2007 08 010 PMID 17981450 Zahlbruckner A 1922 Catalogus lichenum universalis in German Vol 1 Leipzig Gebruder Borntraeger Zschacke Hermann 1913 Die mitteleuropaischen Verrucariaceen I The Central European Verrucariacea I Hedwigia in German 54 183 198 1914 Die mitteleuropaischen Verrucariaceen II Hedwigia in German 55 286 324 1918 Die mitteleuropaischen Verrucariaceen Nachtrage zu I und II Hedwigia in German 60 1 9 1921 Die mitteleuropaischen Verrucariaceen III 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Tatigkeit der St Gallischen Naturwissenschaftlichen Gesellschaft in German 3 1861 1862 124 182 149 a b Norman J M 1868 Lichenes Finmarkici novi New Lichens from Finnmark Botaniska Notiser in Latin 1868 191 193 a b Engler A 1898 Syllabus der Pflanzenfamilien in German Gebruder Borntraeger p 46 Record Details Endopyreniaceae Zahlbr in Engler Syllabus Edn 2 Berlin 46 1898 Index Fungorum Retrieved 14 July 2022 Zahlbruckner A 1907 Mastodiaceae Die naturlichen Pflanzenfamilien nebst ihren Gattungen und wichtigeren Arten insbesondere den Nutzpflanzen unter Mitwirkung zahlreicher hervorragender Fachgelehrten I Abteilung The natural plant families together with their genera and more important species in particular the useful plants with the participation of numerous outstanding specialists I in German Vol 1 pp 240 241 Record Details Pyrenothamnia Tuck Bull Torrey bot Club 10 22 1883 Index Fungorum Retrieved 14 July 2022 Watson W 1929 The classification of lichens Part II New Phytologist 28 85 116 107 doi 10 1111 j 1469 8137 1929 tb06749 x a b Servit Miroslav 1954 Ceskoslovenske Lisejniky Celedi Verrucariaceae Ceskoslovenska akademie ved Sekce biologicka in Czech Vol 9 Prague Ceskoslovenske akademie ved pp 17 17BB a b c d e f Cannon amp Kirk 2007 pp 373 374 Zhang Tingting Zhang Xin Yang Qiuxia Wei Xinli 2022 Hidden species diversity was explored in two genera of catapyrenioid lichens Verrucariaceae Ascomycota from the deserts of China Journal of Fungi 8 7 e729 doi 10 3390 jof8070729 PMC 9319096 PMID 35887484 a b c d e f g Jaklitsch Walter Baral Hans Otto Lucking 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 p 104 ISBN 978 3 443 01089 8 OCLC 429208213 Ulloa Miguel Halin Richard T 2012 Illustrated Dictionary of Mycology 2nd ed St Paul Minnesota The American Phytopathological Society p 515 ISBN 978 0 89054 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in German 107 503 519 Dobbeler P 1997 Biodiversity of bryophilous ascomycetes PDF Biodiversity and Conservation 6 5 721 738 doi 10 1023 A 1018370304090 Lee Beeyoung Gun Hur Jae Seoun 2022 A new lichenized fungus Psoroglaena humidosilvae from a forested wetland of Korea with a taxonomic key to the species of Psoroglaena Journal of Fungi 8 4 e392 doi 10 3390 jof8040392 PMC 9028879 PMID 35448623 Belnap J Budel B Lange O L 2001 Biological Soil Crusts Characteristics and Distribution In Belnap J Lange O L eds Biological Soil Crusts Structure Function and Management Ecological Studies Vol 150 Berlin Heidelberg Springer Berlin Heidelberg pp 3 30 doi 10 1007 978 3 642 56475 8 1 ISBN 978 3 540 43757 4 Jones E B Gareth Suetrong Satinee Sakayaroj Jariya Bahkali Ali H Abdel Wahab Mohamed A Boekhout Teun Pang Ka Lai 2015 Classification of marine Ascomycota Basidiomycota Blastocladiomycota and Chytridiomycota Fungal Diversity 73 1 1 72 13 14 doi 10 1007 s13225 015 0339 4 Nokes Liam F Haelewaters 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Theissen F Sydow H 1918 Vorentwurfe zu den Pseudosphaeriales Preliminary drafts for the Pseudosphaeriales Annales Mycologici in German 16 1 2 1 34 Stein Berthold 1879 Flechten Lichens PDF Kryptogamen Flora von Schlesien in German 2 2 350 a b Vainio E A 1921 Lichenes insularum Philippinarum III Lichens of the Philippine islands Annales Academiae Scientiarum Fennicae Ser A in Latin Vol 15 pp 323 347 Beltramini Francesco 1858 I Licheni Bassanesi Enumerati e Descritti The lichens of Bassano enumerated and described in Italian Bassano A Roberti p 212 Massalongo A 1855 Symmicta lichenum novorum vel minus cognitorum Symmicta of new or less known lichens in Latin Verona Typis Antonellianis Trevisan de St Leon V B A 1860 Conspectus Verrucarinarum Prospetto dei Generi e delle Specie de Licheni Verrucarini Conspectus Verrucarinarum Prospectus of the Genera and Species of Verrucarini Lichens in Latin Antonio Roberti Bassano p 19 Nimis P L Poelt J 1987 The Lichens and Lichenicolous Fungi of Sardinia Italy An Annotated List Studia Geobotanica Vol 7 Suppl p 182 Muller J 1893 Lichenes Zambesici Verhandlungen der Zoologisch Botanischen Gesellschaft Wien in Latin 43 295 300 Sivanesan A 1970 Plurisperma dalbergiae gen et sp nov Transactions of the British Mycological Society 54 3 495 496 doi 10 1016 S0007 1536 70 80169 3 Massalongo Abramo Bartolomeo 1852 Ricerche sull autonomia dei licheni crostosi Research on the autonomy of crustose lichens in Latin Verona Dalla tipografia di A Frizierio p 147 Muller J 1891 Lichenologische Beitrage XXXV Flora Regensburg in Latin 74 3 371 382 Muller J 1888 Lichenologische Beitrage XXX Flora Regensburg in Latin 71 528 552 Alstrup V Hansen E S 2001 New lichens and lichenicolous fungi from Greenland Graphis Scripta 12 2 41 50 Norman J M 1876 Nonnullae observationum ulteriorum Morioleorum Some further observations from the Morioleorum Botaniska Notiser in Norwegian 1876 6a 161 176 Massalongo A 1852 Sporodictyon novum Lichenum genus Sporodictyon a new lichen genus Flora Regensburg in Latin 35 21 321 328 Norman J M 1852 Conatus praemissus redactionis novae generum nonnullorum Lichenum in organis fructificationes vel sporis fundatae The attempted preliminary revision of some lichen genera based on fruiting bodies or spores Nytt Magazin for Naturvidenskapene in Latin 7 213 252 Hoffmann N Hafellner J 2000 Eine Revision der lichenicolen Arten der Sammelgattungen Guignardia und Physalospora Ascomycotina A revision of the lichenicolous species of the collective genera Guignardia and Physalospora Ascomycotina Bibliotheca Lichenologica in German 77 106 Massalongo A B 1855 Frammenti lichenografici Lichenographic fragments in Italian Verona Tip Ramanzini p 15 Engler H G A Prantl K A E 1903 Die Naturlichen Pflanzenfamilien nebst ihren Gattungen und wichtigeren Arten The natural families of plants together with their genera and more important species in German Vol 1 Leipzig W Engelmann pp 49 96 56 Kohlmeyer J Kohlmeyer E 1972 A new genus of marine ascomycetes on Ulva vexata Setch et Gard Botanische Jahrbucher fur Systematik Pflanzengeschichte und Pflanzengeographie 92 2 3 429 432 Schrader Heinrich Adolf 1794 Spicilegium Florae Germanicae in Latin Vol 1 Impensis C Ritsdheri p 109 Steiner J 1896 Beitrag zur Flechtenflora Sudpersiens Contribution to the lichen flora of southern Persia Sitzungsberichte der Kaiserlichen Akademie der Wissenschaften Math naturw Klasse Abt I in German 105 436 446 Navarro Rosines P Roux C Gueidan C 2007 La generoj Verrucula kaj Verruculopsis Verrucariaceae Verrucariales The genera Verrucula and Verruculopsis Verrucariaceae Verrucariales Bulletin de la Societe Linneenne de Provence in Esperanto 58 133 180 Muller J 1883 Lichenologische Beitrage XVIII Lichenological contributions XVIII Flora Regensburg in Latin 66 22 344 354 Cited literature edit Cannon Paul F Kirk Paul M 2007 Fungal Families of the World Wallingford CABI ISBN 978 0 85199 827 5 OCLC 60741230 Retrieved from https en wikipedia org w 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