Naohidea

Naohidea
Scientific classification
Domain:	Eukaryota
Kingdom:	Fungi
Division:	Basidiomycota
Class:	Cystobasidiomycetes
Order:	Naohideales ; R. Bauer, Begerow, J.P. Samp., M. Weiss & Oberw.
Family:	Naohideaceae ; Denchev
Genus:	Naohidea ; Oberw.
Species:	N. sebacea
Binomial name
	Naohidea sebacea; (Berk. & Broome) Oberw. (1990)
Synonyms
	Dacrymyces sebaceusBerk. & Broome (1871); Platygloea sebacea(Berk. & Broome) McNabb (1965); Achroomyces sebaceus(Berk. & Broome) Wojewoda (1977); Platygloea miedzyrzecensis Bres. (1903); Contents Taxonomy ; Distribution and habitat ; References ;

Last updated July 06, 2024

Naohidea sebacea is a species of fungus in the order Naohideales. The order is currently monotypic, having only one family, one genus, and one species. Basidiocarps (fruit bodies) of Naohidea sebacea form small, gelatinous pustules on wood-inhabiting species of Botryosphaeriaceae. Microscopically, they produce long, slender, auricularioid basidia (with lateral septa) and amygdaliform (almond-shaped) basidiospores.

Taxonomy

The species was first described in 1871 as Dacrymyces sebaceus by the Rev. Miles Joseph Berkeley and Christopher Edmund Broome, based on specimens collected by Broome in Somerset, England. Fruit bodies have a superficial resemblance to Dacrymyces species and the name was largely forgotten until New Zealand mycologist Ross McNabb re-examined Broome's specimens in 1965, discovered they represented a fungus with auricularioid basidia, and referred the species to the genus Platygloea sensu lato.^[1] German mycologist Franz Oberwinkler investigated the species in 1990 and separated it from Platygloea sensu stricto, placing it in the new genus Naohidea.^[2] The genus name was selected in honour of Japanese mycologist Naohide Hiratsuka.^[2]

Molecular research, based on cladistic analysis of DNA sequences, has confirmed the placement of the species in Naohidea and further shown that it is (currently) an isolated species within the Pucciniomycotina with no close relatives.^[3]

Distribution and habitat

Naohidea sebacea is infrequently collected, but is known to occur throughout Europe and has also been reported from North America, Japan, and Taiwan.^[2]^[4]^[5] Fruit bodies are always found overgrowing sporocarps of ascomycetous fungi in the family Botryosphaeriaceae ^[4] which the species parasitizes through the formation of intracellular haustoria.^[3]

Related Research Articles

<i>Phlebopus marginatus</i> Species of fungus

Phlebopus marginatus, commonly known as the salmon gum mushroom in Western Australia, is a member of the Boletales or pored fungi. An imposing sight in forests of south-eastern and south-western Australia, it is possibly Australia's largest terrestrial mushroom, with the weight of one specimen from Victoria recorded at 29 kg (64 lb). Initially described in 1845 as Boletus marginatus, and also previously known by scientific names such as Phaeogyroporus portentosus and Boletus portentosus, it is not as closely related to typical boletes as previously thought.

Helicobasidium purpureum is a species of fungus in the subdivision Pucciniomycotina. Basidiocarps are corticioid (patch-forming) and are typically violet to purple. Microscopically they have auricularioid basidia. Helicobasidium purpureum is an opportunistic plant pathogen and is one of the causes of violet root rot of crops and other plants. DNA sequencing suggests that it is a complex of more than one species. The species has a conidia-bearing anamorph in the Tuberculina persicina complex that is a parasite of rust fungi.

Helicobasidium longisporum is a species of fungus in the subdivision Pucciniomycotina. Basidiocarps are corticioid (patch-forming) and are typically violet to purple. Microscopically they have auricularioid basidia. Helicobasidium longisporum is an opportunistic plant pathogen and is one of the causes of violet root rot of crops and other plants. DNA sequencing suggests that it is a complex of more than one species.

Helicobasidium mompa is a species of fungus in the subdivision Pucciniomycotina. Basidiocarps are corticioid (patch-forming) and are typically violet to purple. Microscopically they have auricularioid basidia. Helicobasidium mompa is an opportunistic plant pathogen and is one of the causes of violet root rot of crops and other plants. DNA sequencing suggests that it is a distinct, eastern Asian species.

Rhizoctonia noxia is a species of fungus in the order Cantharellales. Basidiocarps are thin, effused, and web-like. The species is tropical to sub-tropical and is mainly known as a plant pathogen, the causative agent of "kole-roga" or black rot of coffee and various blights of citrus and other trees.

The Auriculariales are an order of fungi in the class Agaricomycetes. Species within the order were formerly referred to the "heterobasidiomycetes" or "jelly fungi", since many have gelatinous basidiocarps that produce spores on septate basidia. Around 200 species are known worldwide, placed in six or more families, though the status of these families is currently uncertain. All species in the Auriculariales are believed to be saprotrophic, most growing on dead wood. Fruit bodies of several Auricularia species are cultivated for food on a commercial scale, especially in China.

The Auriculariaceae are a family of fungi in the order Auriculariales. Species within the family were formerly referred to the "heterobasidiomycetes" or "jelly fungi", since many have gelatinous basidiocarps that produce spores on septate basidia. Around 100 species are known worldwide. All are believed to be saprotrophic, most growing on dead wood. Fruit bodies of several Auricularia species are cultivated for food on a commercial scale, especially in China.

The Cystobasidiomycetes are a class of fungi in the subdivision Pucciniomycotina of the Basidiomycota. Most species are known from their yeast states; hyphal states, when present, produce auricularioid basidia and are frequently parasites of other fungi. The class contains five orders as well as two families and one genus (Queiroziella) of uncertain disposition. An additional order, Cyphobasidiales, has been proposed to accommodate several lichenicolous species, but its separation from the Erythrobasidiales has not been demonstrated.

Ceratobasidium is a genus of fungi in the order Cantharellales. Basidiocarps are effused and the genus is sometimes grouped among the corticioid fungi, though species also retain features of the heterobasidiomycetes. Anamorphic forms were formerly referred to the genus Ceratorhiza, but this is now considered a synonym of Rhizoctonia. Ceratobasidium species, excluding the type, are also now considered synonymous with Rhizoctonia and some species have been transferred to the latter genus. Species are saprotrophic, but several are also facultative plant pathogens, causing a number of commercially important crop diseases. Some are also endomycorrhizal associates of orchids.

Rhizoctonia is a genus of fungi in the order Cantharellales. Species form thin, effused, corticioid basidiocarps, but are most frequently found in their sterile, anamorphic state. Rhizoctonia species are saprotrophic, but some are also facultative plant pathogens, causing commercially important crop diseases. Some are also endomycorrhizal associates of orchids. The genus name was formerly used to accommodate many superficially similar, but unrelated fungi.

Helicobasidium is a genus of fungi in the subdivision Pucciniomycotina. Basidiocarps are corticioid (patch-forming) and are typically violet to purple. Microscopically they have auricularioid basidia. Asexual anamorphs, formerly referred to the genus Thanatophytum, produce sclerotia. Conidia-bearing anamorphs are parasitic on rust fungi and are currently still referred to the genus Tuberculina.

Colacogloea is a genus of fungi belonging to the class Microbotryomycetes. Most species in the genus are known only from their yeast states. Where known, basidiocarps have auricularioid basidia and occur as parasites on or in the fruit bodies of other fungi.

Stilbum is a genus of fungi in the family Chionosphaeraceae. Though many species were formerly referred to the genus, it is effectively monotypic since the type species, Stilbum vulgare, currently has no close relative. Stilbum vulgare forms groups of minute, gelatinous, synnema-like basidiocarps up to 0.5 mm tall with a distinct stem and inflated, fertile head. Microscopically, it produces auricularioid basidia and basidiospores that germinate by budding off yeast cells. The species has been collected on rotting wood and old agaric fruit bodies and may be a parasite of other fungi. It was originally described from Europe, but is also known from Asia, North America, and Australia.

The Platygloeales are an order of fungi in the class Pucciniomycetes. Species in the order have auricularioid basidia and are typically plant parasites on mosses, ferns, and angiosperms, though Platygloea species appear to be saprotrophic.

The Platygloeaceae are a family of fungi in the class Pucciniomycetes. Species in the family have auricularioid basidia and are typically plant parasites on angiosperms, though Platygloea species appear to be saprotrophic.

Platycarpa is a genus of fungus in the order Platygloeales, containing the single species Platycarpa polypodii. The species forms effused basidiocarps on ferns, on which it is parasitic.

Platygloea is a genus of fungi belonging to the class Pucciniomycetes. Basidiocarps of the type species are disc-shaped, gelatinous, and occur on dead wood, probably as a saprotroph. Microscopically, all species of Platygloea sensu lato have auricularioid basidia. Currently the genus contains a heterogeneous mix of auricularioid fungi not yet accommodated in other genera.

Cystobasidium fimetarium is a species of fungus in the order Cystobasidiales. It is a fungal parasite forming small gelatinous basidiocarps on various ascomycetous fungi on dung. Microscopically, it has auricularioid basidia producing basidiospores that germinate by budding off yeast cells. The species is known from Europe and North America.

Occultifur is a genus of fungi in the family Cystobasidiaceae. Species are parasites of other fungi and, microscopically, have auricularioid basidia and basidiospores that germinate by yeast cells. Several species are currently only known from their yeast states. The genus is distributed worldwide.

Tremella coffeicolor is a species of fungus in the family Tremellaceae. It produces brown, lobed to foliaceous, gelatinous basidiocarps and is parasitic on other fungi on dead branches of broad-leaved trees. It was originally described from Bermuda, where it was collected as part of the Challenger expedition.

References

↑ McNabb RF (1965). "Some auriculariaceous fungi from the British isles". Transactions of the British Mycological Society. 48 (2): 187–192. doi:10.1016/S0007-1536(65)80085-7.
1 2 3 Oberwinkler F (1990). "New genera of auricularioid heterobasidiomycetes". Rep. Tottori Mycol. Inst. 28: 113–127.
1 2 Bauer R, Begerow D, Sampaio JP, Weiss M, Oberwinkler F (2006). "The simple-septate basidiomycetes: a synopsis". Mycological Progress. 5 (1): 41–66. Bibcode:2006MycPr...5...41B. doi:10.1007/s11557-006-0502-0. S2CID 26613287.
1 2 Piątek M (2002). "Naohidea sebacea (Fungi, Urediniomycetes) in Poland: Rediscovered after a century on a new host". Polish Botanical Journal. 47: 49–52.
↑ Akulov OY, Fomenko MI, Khudych AS, Borisenko TO (2022). "The first find of Naohidea sebacea (Naohideales, Basidiomycota) in Ukraine". Ukrainian Botanical Journal. 79 (5): 308–313. doi: 10.15407/ukrbotj79.05.308 . S2CID 253320160.

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.

[McNabb1965-1] McNabb RF (1965). "Some auriculariaceous fungi from the British isles". Transactions of the British Mycological Society. 48 (2): 187–192. doi:10.1016/S0007-1536(65)80085-7.

[Oberw1990-2] 1 2 3 Oberwinkler F (1990). "New genera of auricularioid heterobasidiomycetes". Rep. Tottori Mycol. Inst. 28: 113–127.

[Bauer2006-3] 1 2 Bauer R, Begerow D, Sampaio JP, Weiss M, Oberwinkler F (2006). "The simple-septate basidiomycetes: a synopsis". Mycological Progress. 5 (1): 41–66. Bibcode:2006MycPr...5...41B. doi:10.1007/s11557-006-0502-0. S2CID 26613287.

[Piątek2002-4] 1 2 Piątek M (2002). "Naohidea sebacea (Fungi, Urediniomycetes) in Poland: Rediscovered after a century on a new host". Polish Botanical Journal. 47: 49–52.

[Akulov2022-5] Akulov OY, Fomenko MI, Khudych AS, Borisenko TO (2022). "The first find of Naohidea sebacea (Naohideales, Basidiomycota) in Ukraine". Ukrainian Botanical Journal. 79 (5): 308–313. doi: 10.15407/ukrbotj79.05.308 . S2CID 253320160.

[1]

[2]

[3]

[4]

[5]

Taxon identifiers
Naohidea sebacea	Wikidata: Q10594504 BioLib: 306436 CoL: 45NK6 EoL: 1031979 Fungorum: 129661 GBIF: 2555989 iNaturalist: 1110433 IRMNG: 10642979 MycoBank: 129661 NatureServe: 2.1062763 NBN: BMSSYS0000011907 NCBI: 112072 NZOR: 62c5f23e-ca8c-4e26-afb0-19461fd1daca Open Tree of Life: 165914
Naohidea	Wikidata: Q10594503 Wikispecies: Naohidea CoL: 5XJZ EoL: 102896 Fungorum: 25560 GBIF: 2555988 IRMNG: 1072729 MycoBank: 25560 NBN: BMSSYS0000011906 NCBI: 112071 NZOR: 6f08cab7-f509-4d16-9b5c-db1462c00750 Open Tree of Life: 165915
Naohideaceae	Wikidata: Q24118789 Wikispecies: Naohideaceae CoL: D68 Fungorum: 515113 GBIF: 8159132 MycoBank: 515113 NBN: BMSSYS0000048363 NCBI: 432008 NZOR: 045d0e37-3f5b-4348-8fd1-cf2050a2b195 Open Tree of Life: 5342367
Naohideales	Wikidata: Q10594506 Wikispecies: Naohideales CoL: 623CV Fungorum: 501528 GBIF: 526 iNaturalist: 152575 IRMNG: 11744 ITIS: 936397 MycoBank: 501528 NBN: NHMSYS0020535748 NCBI: 432007 NZOR: 373491e7-2c3f-4c78-a07b-3380fb852baf Open Tree of Life: 1093627

Naohidea

Contents

Taxonomy

Distribution and habitat

Related Research Articles

References