Brefeldia maxima

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Brefeldia maxima
Brefeldia maxima plasmodium on wood.jpg
Scientific classification
(unranked):
Amoebozoa
Infraphylum:
Mycetozoa
Class:
Myxogastria
Order:
Stemonitida
Family:
Stemonitidae
Genus:
Brefeldia
Species:
Brefeldia maxima

(Fries) Rostaf. 1873 [1]
Synonyms

Licea perreptans (Berk.) (1848)
Reticularia maxima (Fr.) (1825)
[2]

Brefeldia maxima is a species of non-parasitic plasmodial slime mold, and a member of the class Myxomycetes. It is commonly known as the tapioca slime mold because of its peculiar pure white, tapioca pudding-like appearance. [3] A common species with a worldwide distribution, particularly in North America and Europe. [4] It is often found on bark after heavy rain or excessive watering. Their spores are produced on or in aerial sporangia and are spread by wind, [5] however beetles of the family Latridiidae are also reported to disperse the spores. [6] Bonner states that soil invertebrates and rain mainly disperse spores as they are sticky and unlikely to be carried by air currents. [7]

The plasmodium's capillitium amongst moss and wood. Brefeldia maxima plasmodium.jpg
The plasmodium's capillitium amongst moss and wood.

The genus is named after German botanist and mycologist Julius Oscar Brefeld (August 19, 1839 – January 12, 1925).

Distribution

Found throughout the United Kingdom [8] and common in Europe, Brefeldia maxima is known to be much rarer in North America. [9]

Description and habitat

No longer regarded as a fungus, Brefeldia belongs to the group colloquially known as plasmodial or acellular slime molds, although known within the scientific community as myxomycetes, the term no longer refers to a formal taxonomic group. Brefeldia maxima is one of the largest of the slime molds and its distinctive feature is the presence of multicellular vesicles within the capillitium. [10]

Joszef Tomasz Rostafinski (1850–1928) first described this species. [11]

The plasmodium emerges from soil and leaves as a pure white structure, often very large and exhibiting rhythmic cytoplasmic streaming which helps transport chemicals within the organism. The plasmodium may move some distance before forming the aethalium or sporangial phase, [12] of an equal size, 4–30 cm in its longest dimension, 5–15 mm thick, carried upon a widespread, silvery, shining hypothallus, purplish black. The cortex at first papillate, however this is a fugacious or transitory phase. The capillitium, the network of thread-like filaments in which the spores are embedded within sporangia is abundant, the threads dark, netted, the nodes bearing multicellular vesicles, the whole borne upon, but often breaking away from the flattened and irregular, columellate basal strands. The spore-mass is brownish black or a dusky colour. The spores are yellow-brown, distinctly warted, and 9-12 μm in diameter. [13] Found living on decaying organic material, such as old tree stumps, logs, leaf mould, compost heaps, and other organic debris in fields, woods, and along the roadsides. [14]

Essentially the white plasmodial phase is a single cell; one example of Brefeldia maxima in North Wales is recorded to have covered whole tree stumps, was a centimetre thick with a surface area of over a square metre and weighed up to around 20 kg - therefore technically amongst the largest cells known. [15]

Related genera are Colloderma , Comatricha , Enerthenema , Lamproderma , Macbrideola , and Stemonitis . [16]

Related Research Articles

<span class="mw-page-title-main">Slime mold</span> Spore-forming organisms

Slime mold or slime mould is an informal name given to a polyphyletic assemblage of unrelated eukaryotic organisms in the Stramenopiles, Rhizaria, Discoba, Amoebozoa and Holomycota clades. Most are microscopic; those in the Myxogastria form larger plasmodial slime molds visible to the naked eye. The slime mold life cycle includes a free-living single-celled stage and the formation of spores. Spores are often produced in macroscopic multicellular or multinucleate fruiting bodies that may be formed through aggregation or fusion; aggregation is driven by chemical signals called acrasins. Slime molds contribute to the decomposition of dead vegetation; some are parasitic.

<span class="mw-page-title-main">Mycetozoa</span> Infraphylum of protists

Mycetozoa is a polyphyletic grouping of slime molds. It was originally thought to be a monophyletic clade, but recently it was discovered that protostelia are a polyphyletic group within Conosa.

<i>Physarum polycephalum</i> Species of slime mold, model organism

Physarum polycephalum, an acellular slime mold or myxomycete popularly known as "the blob", is a protist with diverse cellular forms and broad geographic distribution. The “acellular” moniker derives from the plasmodial stage of the life cycle: the plasmodium is a bright yellow macroscopic multinucleate coenocyte shaped in a network of interlaced tubes. This stage of the life cycle, along with its preference for damp shady habitats, likely contributed to the original mischaracterization of the organism as a fungus. P. polycephalum is used as a model organism for research into motility, cellular differentiation, chemotaxis, cellular compatibility, and the cell cycle.

<i>Lycogala epidendrum</i> Species of slime mould

Lycogala epidendrum, commonly known as wolf's milk or groening's slime, is a cosmopolitan species of myxogastrid amoeba which is often mistaken for a fungus. The aethalia, or fruiting bodies, occur either scattered or in groups on damp rotten wood, especially on large logs, from June to November. These aethalia are small, pink to brown cushion-like blobs. They may ooze a pink "paste" if the outer wall is broken before maturity. When mature, the colour tends to become more brownish. When not fruiting, single celled individuals move about as very small, red amoeba-like organisms called plasmodia, masses of protoplasm that engulf bacteria, as well as fungal and plant spores, protozoa, and particles of non-living organic matter through phagocytosis.

<i>Fuligo septica</i> Species of slime mould

Fuligo septica is a species of slime mold in the class Myxomycetes. It is commonly known as scrambled egg slime or flowers of tan because of its peculiar yellowish appearance. It is also known as dog vomit slime mold or Jasmine mold and is relatively common with a worldwide distribution, often being found on bark mulch in urban areas after heavy rain or excessive watering. Their spores are produced on or in aerial sporangia and are spread by wind.

<span class="mw-page-title-main">Myxogastria</span> Group of slime molds

Myxogastria/Myxogastrea or Myxomycetes (ICN) is a class of slime molds that contains 5 orders, 14 families, 62 genera, and 888 species. They are colloquially known as the plasmodial or acellular slime moulds.

<span class="mw-page-title-main">Trichiales</span> Order of slime moulds

Trichiales is an order of slime moulds in the phylum Amoebozoa. Trichiales is one of five orders in the group Myxomycetes, or the true plasmodial slime molds. It is also currently categorized under the superorder Lucisporidia with its sister group, Liceales. The order was first described by Thomas MacBride in 1922, and has retained the same name and status as a defined order in present phylogeny. In the plasmodium form, members of Trichiales lack a columella but have a well-developed capillitium for spore dispersal. The shape and details of the capillitium are used to define families within the order. Spores are brightly coloured, ranging from clear, white and yellow to pink and red-brown tones. The order currently has 4 families, 14 genera and 174 species. Recent molecular research has shown that while Trichiales probably represents a true taxonomic group, its sister group Liceales is likely paraphyletic, and it has been suggested that several genera from the Liceales should be reclassified under Trichiales instead.

<i>Ceratiomyxa</i> Genus of slime mould

Ceratiomyxa is a genus of plasmodial slime mould within the Eumycetozoa, first described by Pier Antonio Micheli. They are widely distributed and commonly found on decaying wood.

<i>Enteridium lycoperdon</i> Slime mold

Enteridium lycoperdon, the false puffball, is one of the more obvious species of slime mould or Myxogastria, typically seen in its reproductive phase as a white 'swelling' on standing dead trees in the spring, or on large pieces of fallen wood. Alder is a common host.

<span class="mw-page-title-main">Hypothallus</span>

In true slime molds (myxogastria), lichens, and in species of the family Clavicipitaceae, the hypothallus is the layer on which the fruit body sits, lying in contact with the substrate. The word is derived from the Ancient Greek root hypó ("under") and thallós.

<i>Trichia decipiens</i> Species of slime mould

Trichia decipiens is a worldwide widespread slime mould species from the order Trichiida.

Physarum aeneum is a slime mould species from the order Physarida. It is one of a few slime moulds mainly common in the tropics and subtropics.

Listerella paradoxa is a slime mould species from the class Myxogastria and the only member of its genus as well as the family Listerelliidae. The species is so far only found on the wattle genus Cladonia, mostly in European temperate zones.

Barbeyella minutissima is a slime mould species of the order Echinosteliales, and the only species of the genus Barbeyella. First described in 1914 from the Jura mountains, its habitat is restricted to montane spruce and spruce-fir forests of the Northern Hemisphere, where it has been recorded from Asia, Europe, and North America. It typically colonises slimy, algae-covered logs that have lost their bark and have been partially to completely covered by liverworts. The sporangia are roughly spherical, up to 0.2 mm in diameter, and supported by a thin stalk up to 0.7 mm tall. After the spores have developed, the walls of the sporangia split open into lobes. The species is one of the smallest members of the Myxogastria and is considered rare.

<i>Stemonitis axifera</i> Species of slime mold

Stemonitis axifera is a species of slime mold. It fruits in clusters on dead wood, and has distinctive tall reddish-brown sporangia, supported on slender stalks.

Henry Carl Aldrich was an American mycologist born in Beaumont, Texas.

<i>Brefeldia</i> Genus of slime moulds

Brefeldia is a genus of slime molds in the family Amaurochaetaceae.

<i>Hemitrichia</i> Genus of slime moulds

Hemitrichia is a genus of slime molds, of the family Trichiidae, found within the order Trichiida. It was first described by Josef Rostafinski in 1873 and remains a well-defined genus of the slime molds. Hemitrichia species exhibit either plasmodiocarp or sporangium fruiting bodies, both of which are well-known and recognizable slime molds seen on multiple continents. The genus includes Hemtrichia serpula, known as the pretzel slime mold, an iconic and widespread species that has been used to examine speciation in slime molds.

<i>Elaeomyxa</i> Genus of slime moulds

Elaeomyxa is a genus of slime molds in the family Lamprodermataceae. As of May 2022, there are four known species in the genus. Species in this genus have been documented in North America, Eurasia, Africa, and Australasia.

<i>Trichia crateriformis</i> Species of slime mould

Trichia crateriformis is a slime mold species in the order Trichiida found in temperate areas throughout the world.

References

Notes
  1. Rostafinsky JT. (1873). Versuch eines Systems der Mycetozoen (in German). pp. 1–21.
  2. "Brefeldia maxima". ZipcodeZoo. Retrieved 9 November 2016.
  3. Mushroom Hunter Archived 2011-10-06 at the Wayback Machine Retrieved : 2011-11-06
  4. eol Retrieved : 2011-11-06
  5. New England Trail Review Archived 2012-04-15 at the Wayback Machine Retrieved : 2011-11-06
  6. BioOne Retrieved : 2011-11-06
  7. Bonner, Page 40
  8. NBN Gateway Archived 2016-11-04 at the Wayback Machine Retrieved : 2011-11-20
  9. Stepehenson, Page 50
  10. Stephenson, Page 84
  11. The Mushroom Journal Retrieved : 2011-11-06
  12. Species Description Archived 2012-02-05 at the Wayback Machine Retrieved : 2011-11-07
  13. Discover Life Retrieved : 2011-11-06
  14. Textbook of Mycology Retrieved : 2011-11-06
  15. Ing, Bruce (1999). The myxomycetes of Britain and Ireland : an identification handbook. Slough, England: Richmond Pub. Co. p. 4. ISBN   0855462515.
  16. Slimemold Retrieved : 2011-11-06
Sources

Bibliography

  1. Bäumler,J.A. 1899: Notiz über Brefeldia. Verhandl.K.K.Zool.Bot.Gesellsch.Wien 49: 104-105.
  2. Hechler,J. 1980: Die Myxoflagellaten von Brefeldia maxima Rost. und ihre Nahrungsaufnahme mit Hilfe von Geißelbewegungen. Mitteilungen aus dem Institut für Allgemeine Botanik in Hamburg 17: 49-55.
  3. Lagerberg,T. 1945: Ett fynd av Brefeldia maxima (Fr.) Rost. Svensk botanisk tidskrift 39: 432-434.
  4. Lister,A. 1888: Notes on the plasmodium of Badhamia utricularis and Brefeldia maxima. Annals of botany 2: 1-24.
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