Biology:Oidiodendron cereale

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Short description: Species of ascomycetes fungi in the order Helotiales

Oidiodendron cereale
Scientific classification
Kingdom:
Division:
Class:
Order:
Family:
Genus:
Species:
O. cereale
Binomial name
Oidiodendron cereale
G.L.Barron (1962)[1]
Synonyms
  • Sporotrichum cerealis Thümen (1880)[2]
  • Oidiodendron nigrum Robak (1932)[3]
  • Haplographium fuligineum J.F.H.van Beyma (1933)[4]
  • Stephanosporium atrum Giovanna Dal Vesco (ast) (1961)
  • Stephanosporium cereale Haring Johannes Swart (species) (1965)

Oidiodendron cereale is a species of ascomycetes fungi in the order Helotiales.[1] This fungus is found globally in temperate climates where average summer temperatures are below 25 °C,[5][6] but there have been scattered reports from tropical and subtropical environments.[7] It is predominantly found in soil, but little is known regarding their ecological roles in nature.[8][9] However, an enzymatic study from Agriculture Canada showed that O. cereale can break down a variety of plant, fungal, and animal based substrates found in soil, which may have beneficial effects for plants.[10] On rare occasions, this fungus is found on human skin and hair.[1][5][3] There has been one reported case of O. cereale infection in 1969, causing Neurodermitis Nuchae.[11]

History and taxonomy

The anamorphic fungus was first described in the Belgian journal Hedwigia by Dr. Von F. von Thümen as Sporotrichum cerealis in 1880.[2] Then in 1932, a Swedish mycologist, Dr. H. Robak, identified Oidiodendron nigrum while investigating fungal infections at wood pulp mills.[3] Further investigation of the genus Oidiodendron by Dr. G. L. Barron revealed that Sporotrichum cerealis and Oidiodendron nigrum were the same organism and thereafter, named the species Oidiodendron cereale.[12] In 1998, Hambleton et al. using ribosomal DNA sequences confirmed that O. cereale is from the Oidiodendron genus and related to the other Oidiodendron species.[6]

Growth and morphology

Growth

This fungus grows hyphally and its asexual reproduction cycles have been well described in literature.[5] Asexual reproduction occurs through its lens-shaped arthroconidia with thickened rings of cell wall material.[1][5] Young colonies appear grey and turns purple-black as it matures.[1] The conidiophores develop by dividing their branches into sections of equal length. Then it rounds off the branch and develops into the same number of spores.[12] At maturity, the spores fall away from each other and the old wall remains attached to the adjacent conidia as a fringe.[12] Conidia are dispersed by wind and arthropods, where the conidia adhere to the carrier's exoskeleton electrostatically.[13] Conidiophores are produced in all species of Oidiodendron, but the production of conidiophores are not obligatory.

Morphology

Oidiodendron cereale colonies appear green-grey, but dark brown to black under areas of heavy sporulation.[5] Due to its dark colony colour, it is generally classified as a dematiaceous fungus. Its hyphae are 1-2 μm broad, some branches at the foot (treelike), while others don't, and are irregularly curved. The conidia are dark grey, short-chained, clumped at conidiophore apex, has a ring, and spans 2.2-5.4 μm by 2.0-2.7 μm.[12] The conidiophores are short, branched, and hyaline to lightly melanized. It is important to note that the hyaline conidiophores and lens-shaped arthroconidia with thickened rings of cell wall material make this species unique. Henceforth, the initial placement of this species was outside of the genus Oidiodendron.[2] With molecular analysis, evidence supports its placement within Oidiodendron and its morphological distinction is significant only at the species levels.[5]

Physiology

Oidiodendron cereale is psychrotolerant and has an optimal temperature between 20-25°C.[1] However, it also has the ability to grow at temperatures as low as 5°C.[5] Decreased growth is observed when the temperature is below 5°C or above 25°C.[5] Oidiodendron cereale is acidophilic with an optimal pH range of 3-5, and it does not grow in high salt conditions.[9][14] Enzymatic studies have revealed that O. cereale has cellulolytic abilities.[10] In addition, it has pectinases, gelatinases, lipases, and polyphenol oxidases that facilitate the degradation of a variety of plant, fungal, and animal substrates.[10]

Habitat and ecology

Oidiodendron cereale is found predominantly in soil, but it can also be found in wood and peat, and on human skin and hair.[3][11][2][12][15] In addition, there has been an isolation of this fungus in human food supplies.[8] Due to the physiology of this species, it prefers to live in temperate climates.[16] However, there have been reports from tropical and subtropical locations of this fungus.[6]

Although this fungus has been identified from a plethora of locations globally and different growing environments, little is understood about their ecological roles.[5] An association study on the mycorrhizal status of this fungus has been inconclusive.[17] Targeted isolation studies are required to determine the ecological role of O. cereale.[5]

Human disease

There has only been one published case of infection caused by O. cereale. In 1969, a female clerk at the Skin Department of the Helsinki University Central Hospital reported itchiness on her neck. Near the nape of the neck, there was an archetypal presentation of neurodermitis nuchae, or more commonly known as atopic dermatitis.[11] A sample was cultured from her neck and on all three occasions, O. cereale was present.[11] After further investigation, this fungus was found in the mycoflora of old Finnish wooden saunas, where the patient had previously visited.[11]

References

  1. 1.0 1.1 1.2 1.3 1.4 1.5 Barron, G. L. (1962). "New Species and New Records of Oidiodendron". Canadian Journal of Botany 40 (4): 589–607. doi:10.1139/b62-055. 
  2. 2.0 2.1 2.2 2.3 Thümen, F. Von (1880). "Reliquae Libertianae". Hedwigia 19: 185–195. 
  3. 3.0 3.1 3.2 3.3 Robak, H (1932). "Investigations regarding fungi on Norwegian ground wood pulp and fungal infection at wood pulp mills.". NYT Magazin for Naturvidenskaberne 71: 185–300. 
  4. Swart, H.J. (September 1965). "Conidial formation in Haplographium fuligineum". Transactions of the British Mycological Society 48 (3): 459–461. doi:10.1016/S0007-1536(65)80069-9. 
  5. 5.0 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 Rice, Adrianne V.; Currah, Randolph S. (2005). "Oidiodendron: A survey of the named species and related anamorphs of Myxotrichum". Studies in Mycology 53: 83–120. doi:10.3114/sim.53.1.83. 
  6. 6.0 6.1 6.2 Hambleton, Sarah; Egger, Keith N.; Currah, Randolph S. (September 1998). "The Genus Oidiodendron: Species Delimitation and Phylogenetic Relationships Based on Nuclear Ribosomal DNA Analysis". Mycologia 90 (5): 854. doi:10.2307/3761327. 
  7. Roose-Amsaleg, Celine; Brygoo, Yves; Harry, Myriam (May 2004). "Ascomycete diversity in soil-feeding termite nests and soils from a tropical rainforest". Environmental Microbiology 6 (5): 462–469. doi:10.1111/j.1462-2920.2004.00579.x. PMID 15049919. 
  8. 8.0 8.1 Delamarre, S; Batt, C.A (August 1999). "The microbiology and historical safety of margarine". Food Microbiology 16 (4): 327–333. doi:10.1006/fmic.1999.0304. 
  9. 9.0 9.1 Pivkin, MV (February 2000). "Filamentous fungi associated with holothurians from the sea of Japan, off the primorye coast of Russia". The Biological Bulletin 198 (1): 101–109. doi:10.2307/1542808. PMID 10707818. 
  10. 10.0 10.1 10.2 Dalpé, Yolande (August 1991). "Statut endomycorhizien du genre". Canadian Journal of Botany 69 (8): 1712–1714. doi:10.1139/b91-217. 
  11. 11.0 11.1 11.2 11.3 11.4 Blomqvist, K.; Salonen, A. (1969). "Oidiodendron cerealis Isolated from Neurodermitis Nuchae". Dermatologica 139 (2): 156–160. doi:10.1159/000253906. PMID 5810901. 
  12. 12.0 12.1 12.2 12.3 12.4 Barron, G. L. (November 1961). "Studies on Species of Oidiodendron, Helicodendron, and Stachybotrys from Soil". Canadian Journal of Botany 39 (7): 1563–1571. doi:10.1139/b61-136. 
  13. Greif, Matthew D.; Currah, Randolph S. (January 2003). "A functional interpretation of the role of the reticuloperidium in whole-ascoma dispersal by arthropods". Mycological Research 107 (1): 77–81. doi:10.1017/S0953756202007104. PMID 12735247. 
  14. Rice, Adrianne V.; Currah, Randolph S. (December 2002). "New perspectives on the niche and holomorph of the myxotrichoid hyphomycete, Oidiodendron maius". Mycological Research 106 (12): 1463–1467. doi:10.1017/S0953756202006767. 
  15. Melin, E; Nannfeldt, J. A. (1934). "Researches into the blueing of ground wood-pulp". Svenska Skogvardsforen. Tidskr 3-4: 397–616. 
  16. Domsch, K. H.; Gams, W.; Anderson, T. H. (1980). Compendium of soil fungi. London, UK: Academic Press. ISBN 0122204018. https://archive.org/details/tudesdesciencer00putsgoog. 
  17. Lacourt, Isabelle; Girlanda, Mariangela; Perotto, Silvia; Del Pero, Massimiliano; Zuccon, Dario; Luppi, Anna Maria (4 January 2002). "Nuclear ribosomal sequence analysis of Oidiodendron: towards a redefinition of ecologically relevant species". New Phytologist 149 (3): 565–576. doi:10.1046/j.1469-8137.2001.00058.x. PMID 33873341. 

Wikidata ☰ Q10608022 entry