Scientific classification
Kingdom: Fungi
Division: Blastocladiomycota
T.Y.James (2006)[1]
Class: Blastocladiomycetes
T.Y.James (2006)
Order: Blastocladiales
T.Y.James (2006)


Blastocladiomycota is one of the currently recognized phyla within the kingdom Fungi.[2] Blastocladiomycota was originally the order Blastocladiales within the phylum Chytridiomycota until molecular and zoospore ultrastructural characters were used to demonstrate it was not monophyletic with Chytridiomycota.[1] The order was first erected by Petersen for a single genus, Blastocladia, which was originally considered a member of the oomycetes.[3] Accordingly, members of Blastocladiomycota are often referred to colloquially as "chytrids." However, some feel "chytrid" should refer only to members of Chytridiomycota.[4] Thus, members of Blastocladiomyota are commonly called "blastoclads" by mycologists. Alternatively, members of Blastocladiomycota, Chytridiomycota, and Neocallimastigomycota lumped together as the zoosporic true fungi. Blastocaldiomycota contains 5 families and approximately 12 genera.[5] This early diverging branch of kingdom Fungi is the first to exhibit alternation of generations.[6] As well, two (once) popular model organismsAllomyces macrogynus and Blastocladiella emersonii—belong to this phylum.[4]


Morphology in Blastocladiomycota varies greatly. For example, members of Coelomycetaceae are simple, unwalled, and plasmodial in nature. Some species in Blastocladia are monocentric, like the chytrids, while others are polycentric. The most remarkable are those members, such as Allomyces that demonstrate determinant, differentiated growth.[3][4]

Reproduction/Life Cycle

Sexual Reproduction

As stated above, some members of Blastocladiomycota exhibit alternation of generations. Members of this phylum also exhibit a form of sexual reproduction known as anisogamy.[3] Anisogamy is the fusion of two sexual gametes that differ in morphology, usually size.[4] In Allomyces, the thallus (body) is attached by rhizoids, and has an erect trunk on which reproductive organs are formed at the end of branches. During the haploid phase, the thallus forms male and female gametangia that release flagellated gametes. Gametes attract one another using pheromones and eventually fuse to form a Zygote. The germinated zygote produces a diploid thallus with two types of sporangia: thin-walled zoosporangia and thick walled resting spores (or sporangia). The thin walled sporangia release diploid zoospores. The resting spore serves as a means of enduring unfavorable conditions. When conditions are favorable again, meiosis occurs and haploid zoospores are released. These germinate and grow into haploid thalli that will produce “male” and “female” gametangia and gametes.[4]

Asexual Reproduction

Similar to Chytridiomycota, members of Blastocladiomycota produce asexual zoospores to colonize new substrates. In some species, a curious phenomenon has been observed in the asexual zoospores. From time to time, asexual zoospores will pair up and exchange cytoplasm but not nuclei.[3]

Ecological Roles

Similar to Chytridiomycota, members of Blastocladiomycota are capable of growing on refractory materials, such as pollen, keratin, cellulose, and chitin.[3] The best known species, however, are the parasites. Members of Catenaria are parasites of nematodes, midges, crustaceans, and even another blastoclad, Coelomyces.[4] Members of the genus Physoderma and Urophlyctis are obligate plant parasites.[4] Of economic importance is Physoderma maydis, a parasite of maize and the causal agent of brown spot disease.[4] Also of importance are the species of Urophlyctis that parasitize alfalfa.[7] However, ecologically, Physoderma are important parasites of many aquatic and marsh angiosperms.[3] Also of human interest, for health reasons, are members of Coelomyces, an unusual parasite of mosquitoes that requires an alternate crustacean host (the same one parasitized by members of Catenaria) to complete its life cycle.[3] Others that are ecologically interesting include a parasite of water bears and the zooplankter Daphnia.[7]


Based on the work of Philippe Silar[8] and "The Mycota: A Comprehensive Treatise on Fungi as Experimental Systems for Basic and Applied Research"[9] and synonyms from "Part 1- Virae, Prokarya, Protists, Fungi".[10]


  1. 1 2 James, T.Y.; et al. (2006). "A molecular phylogeny of the flagellated fungi (Chytridiomycota) and description of a new phylum (Blastocladiomycota)". Mycologia. 98 (6): 860–871. doi:10.3852/mycologia.98.6.860. PMID 17486963.
  2. Hibbett DS et al. 2007. A higher-level phylogenetic classification of the fungi. Mycological Research 111:509–47.
  3. 1 2 3 4 5 6 7 Sparrow FK. 1960. Aquatic phycomycetes. 2nd ed. Ann Arbor, Michigan: University of Michigan Press.
  4. 1 2 3 4 5 6 7 8 Alexopoulos CJ, Mims CW, Blackwell M. 1996. Introductory Mycology. 4th edition. John Wiley & Sons, Inc.
  5. Porter TM ‘’etal’’ 2011. Molecular phylogeny of the Blastocladiomycota (Fungi) based on nuclear ribosomal DNA. Fungal Biology 115:381-392.
  6. Kendrick, Bryce. 2000. The Fifth Kingdom. 3rd edition Focus Publishing: Newburyport, MA.
  7. 1 2 Schaechter M. (2011). Eukaryotic Microbes. Academic Press. p. 116. ISBN 978-0-12-383877-3.
  8. Silar P (2016). "Protistes Eucaryotes: Origine, Evolution et Biologie des Microbes Eucaryotes". HAL: 462. ISBN 978-2-9555841-0-1.
  9. Esser K (2014). The Mycota VII A: Systematics and Evolution (2nd ed.). Springer. p. 461. ISBN 978-3-642-55317-2.
  10. "Part 1- Virae, Prokarya, Protists, Fungi". Collection of genus-group names in a systematic arrangement. Retrieved 30 June 2016.

External links

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