Biology:Arachniotus ruber

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Short description: Species of fungus


Arachniotus ruber
Scientific classification
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Species:
A. ruber
Binomial name
Arachniotus ruber
(Tiegh.) J. Schröt. (1893)
Synonyms
  • Gymnoascus ruber Tiegh. (1877)
  • Pseudoarachniotus ruber (Tiegh.) G.F. Orr, G.R. Ghosh & K. Roy (1977)

Arachniotus ruber is a species of fungus belonging to the genus Arachniotus in the family Gymnoascaceae. This fungus is a mesophile that reproduces both sexually and asexually. So far, there have been no reports of the fungus being pathogenic.

History and taxonomy

Arachniotus ruber was first described by Philippe Édouard Léon Van Tieghem in 1877 and it was thought to belong to the genus, Gymnoascus, due to similarities he observed in the gametangial initials.[1][2] It was not until 1893 that Schroeter transferred the species to his recently established genus, Arachniotus, due to it possessing many of the corresponding traits.[3][2] At the time, Schroeter did not designate a type species for the genus, which resulted in some debate until a lectotype, A. candidus, was eventually identified by Clements and Shear in 1931.[2] With this change, A. ruber was excluded from the Arachniotus genus because it did not display type characteristics within its ascospores (3). Consequently, Orr, Ghosh, and Roy moved the species to the genus, Pseudoarachniotus, in 1977.[2]

Morphology

Arachniotus ruber have discrete ascomata present, usually confluent and mostly spherical, measuring 20-200 μm and are red, orange, and brown in colour.[2][4] Asci of A. ruber are ovoid, hyaline, and measure 10-13 x 7-10 μm.[2][4] The ascospores of A. ruber are smooth, spherical, and vary in colour between red, orange, and yellow.[2][4] They have an equatorial groove along the longitudinal axis, giving them a shape similar to that of a pulley wheel, and they measure 2.8-4.4 x 4-6.6 μm.[2][4] Asexual spore states of A. ruber are represented by hyaline arthroaleuriospores measuring 8-30 x 2.2–3.3 μm.[2][4]

Habitat and ecology

Arachniotus ruber has been found in the excrement of various animals, with the majority of samples being obtained in the United Kingdom and Germany.[4][5] Van Tiegham first observed the species within dog and rat dung in France.[4][6] Schroeter obtained samples of the species from dog and goat dung in Germany. There is also an occurrence of the species being found in hawk pellets by Dr. Arvids E. Apinis at the University of Nottingham in 1958.[4] Another instance of A. ruber was found in a cave in Spain.[7]

Preparation and cultivation

In order to sporulate under laboratory conditions, Arachniotus ruber is most commonly grown on freezing agar, which is a medium prepared using potatoes, agar, glucose, yeast extract, and activated carbon.[8] As A. ruber grows on this medium, it will initially form white hyphae that will turn orange red and the colonies are pasty with occasional concentric rings of mycelium.[4] The species has been observed to grow at 30 °C and show no further signs of growth at 37 °C.[4]

Usage and applications

There have been very few studies that delve into the potential applications of Arachniotus ruber. One study done in 2016 displayed the potential of A. ruber being used to increase the nutritional value of wheat straw.[9] Another, more recent study from 2019 investigated the species’ usefulness in combatting malnutrition in developing countries.[10] The study goes into detail about how malnutrition stems from protein deficiency, and performed an experiment using A. ruber.[10] The experiment used dry banana peels as a basis for the substrate and prepared A. ruber in media, autoclaving the two together under various conditions.[10] After some processing, the resulting feed was consumed by broiler chicks.[10] The results of a proximate analysis showed that A. ruber was able to increase the nutritional value of the resulting biomass protein, showing potential in this area of research.[10]

References

  1. Kuehn, Harold H. (1957). "Observations on Gymnoascaceae. IV. A New Species of Arachniotus and a Reconsideration of Arachniotus trisporus". Mycologia 49 (1): 55–67. doi:10.2307/3755728. 
  2. 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 Orr, G. F.; Ghosh, G. R.; Roy, K. (1977). "The Genera Gymnascella, Arachniotus, and Pseudoarachniotus". Mycologia 69 (1): 126–163. doi:10.2307/3758626. 
  3. Hotson, J. W. (1936). "A new species of Arachniotus". Mycologia 28 (6): 497–502. doi:10.2307/3754246. 
  4. 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8 4.9 Kuehn, Harold H.; Orr, G. F. (1964). "Arachniotus ruber (Van Tiegham) Schroeter". Transactions of the British Mycological Society 47 (4): 553–558. doi:10.1016/S0007-1536(64)80034-6. 
  5. Secretariat, GBIF (2019). "Arachniotus ruber (Tiegh.) J.Schröt.". GBIF Backbone Taxonomy. doi:10.15468/39omei. 
  6. Rosenbaum, Elizabeth Heuser (1944). "The Development and Systematic Position of Arachniotus trisporus". Annals of the Missouri Botanical Garden 31 (2): 173–201. doi:10.2307/2394337. 
  7. Saiz-Jimenez, C. (2014). The Conservation of Subterranean Cultural Heritage (1st ed.). EH Leiden, The Netherlands: CRC Press/Balkema. ISBN 978-1-315-73997-7. 
  8. Atlas, Ronald M. (2004). Handbook of Microbiological Media (3rd ed.). New York, NY: CRC Press. ISBN 0-8493-1818-1. 
  9. Shahzad, F.; Abdulah, M.; Chaudhry, A. S.; Javed, K.; Bhatti, J. A.; Jabbar, M. A.; Kamran, Z.; Ahmed, F. et al. (2016). "Optimization of solid state fermentation conditions using Arachniotus species for production of fungal treated wheat straw". Journal of Animal and Plant Sciences 26 (2): 309–314. 
  10. 10.0 10.1 10.2 10.3 10.4 Yasin, Muhammed Shiraz; Saeed, Shagufta; Tayyab, Muhammed; Hashmi, Abu Saeed; Awan, Ali Raza; Firyal, Sehrish; Naseer, Rahat (2019). "Production of Microbial Biomass Protein by Arachniotus ruber using banana peel and its biological evaluation in broiler chicks". Journal of the Chemical Society of Pakistan 41 (2): 319–324. 

Wikidata ☰ Q15020858 entry