Stemonitis axifera

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Stemonitis axifera
Stemonitis axifera 341275.jpg
Scientific classification Red Pencil Icon.png
Domain: Eukaryota
Phylum: Amoebozoa
Class: Myxogastria
Order: Stemonitidales
Family: Stemonitidaceae
Genus: Stemonitis
Species:
S. axifera
Binomial name
Stemonitis axifera
Synonyms [1]
  • Trichia axiferaBull. 1791
  • Stemonitis fasciculata Schumach. 1803
  • Stemonitis smithiiT.Macbr. 1893

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.

Contents

Taxonomy

The species was first described as Trichia axifera by Jean Baptiste François Pierre Bulliard in 1791. [2] Thomas Huston MacBride transferred it to the genus Stemonitis in 1889. Stemonitis fasciculata and Stemonitis smithii are synonyms. [1]

Description

The erect, stalked cylindrical sporangia are arranged into bundles or clusters that are 7–15 mm (0.3–0.6 in) tall. Each sporangium is supported by a thin, shining, black stalk that is 3–7 mm (0.1–0.3 in) long. The bright rusty brown color of mature sporangia lightens to a pale brown after the spores have been dispersed. Spores measure 5 by 7  μm and have a smooth to minutely punctate surface texture. [3]

Development

Stemonitis axifera requires about 20 hours to finish making its fruit bodies. Of this, eight hours are needed for induction of the sporangia and the development of the stalk and the columella, six hours more for the sporocarps to produce pigment and mature, and an additional six until the spores are discharged. [4]

Ecology

The slime mold grows on decaying wood. [3] When the fruit bodies consist of milky white sporangia, they are a favoured food source for Philomycus slugs (mantleslugs), such as P. carolinianus and P. flexuolaris . [5] The slugs emerge at night from under flaps of bark and migrate to more exposed areas at the top of wet logs, bypassing more mature, pigmented fruit bodies for the younger white ones. The slugs eat the sporangia stalks from the top down. The feeding preference of Philomycus slugs for immature white sporangia is not seen in other slug species. [5]

Related Research Articles

Slime mold Informal name for several single-celled organisms

Slime mold or slime mould is an informal name given to several kinds of unrelated eukaryotic organisms that can live freely as single cells, but can aggregate together to form multicellular reproductive structures. Slime molds were formerly classified as fungi but are no longer considered part of that kingdom. Although not forming a single monophyletic clade, they are grouped within the paraphyletic group referred to as kingdom Protista.

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

Stemonitis is a distinctive genus of slime moulds found throughout the world. They are characterised by the tall brown sporangia, supported on slender stalks, which grow in clusters on rotting wood. The genus was first described by German botanist Johann Gottlieb Gleditsch in 1753. A 2014 estimate suggests that there are 18 species in the genus. Identification within the genus is difficult, and can only be performed with confidence using a microscope or by DNA sequencing. A fossil specimen is known from the Mid Cretaceous Burmese amber.

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

Lycogala epidendrum, commonly known as wolf's milk, 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 globs. They may excrete 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, fungal and plant spores, protozoa, and particles of non-living organic matter through phagocytosis.

<i>Dictyostelium discoideum</i>

Dictyostelium discoideum is a species of soil-dwelling amoeba belonging to the phylum Amoebozoa, infraphylum Mycetozoa. Commonly referred to as slime mold, D. discoideum is a eukaryote that transitions from a collection of unicellular amoebae into a multicellular slug and then into a fruiting body within its lifetime. Its unique asexual lifecycle consists of four stages: vegetative, aggregation, migration, and culmination. The lifecycle of D. discoideum is relatively short, which allows for timely viewing of all stages. The cells involved in the lifecycle undergo movement, chemical signaling, and development, which are applicable to human cancer research. The simplicity of its lifecycle makes D. discoideum a valuable model organism to study genetic, cellular, and biochemical processes in other organisms.

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

Fuligo septica is a species of plasmodial slime mold, and a member of the class Myxomycetes. It is commonly known as the scrambled egg slime, or flowers of tan because of its peculiar yellowish, bile-colored appearance. Also known as the dog vomit slime mold, it is common with a worldwide distribution, and it is often 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.

Myxogastria Group of slime molds

Myxogastria/Myxogastrea or Myxomycetes (ICBN), 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.

Trichiales 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>Tubifera</i> Genus of slime moulds

Tubifera is a genus of slime moulds from the subclass Myxogastria. The genus comprises 12 species.

<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>Fonticula</i> Slime mold that forms a volcano-shaped fruiting body

Fonticula is a genus of cellular slime mold which forms a fruiting body in a volcano shape. As long ago as 1979 it has been known to not have a close relationship with either the Dictyosteliida or the Acrasidae, the two well-established groups of cellular slime molds. In 1979, Fonticula was made a new genus of its own due to the unique characteristics of its fruiting body, with only one species: Fonticula alba.

<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.

<i>Hydnellum ferrugineum</i>

Hydnellum ferrugineum, commonly known as the mealy tooth or the reddish-brown corky spine fungus, is a species of tooth fungus in the family Bankeraceae. A widely distributed species, it is found in north Africa, Asia, Europe, and North America. The fungus fruits on the ground singly or in clusters in conifer forest, usually in poor or sandy soil. Fruit bodies are somewhat top-shaped, measuring 3–10 cm (1–4 in) in diameter. Their velvety surfaces, initially white to pink, sometimes exude drops of red liquid. The lower surface of the fruit body features white to reddish-brown spines up to 6 mm long. Mature fruit bodies become dark reddish brown in color, and are then difficult to distinguish from other similar Hydnellum species. H. ferrugineum forms a mat of mycelia in the humus and upper soil where it grows. The presence of the fungus changes the characteristics of the soil, making it more podzolized.

<i>Stemonitis fusca</i> Species of slime mould

Stemonitis fusca is a species of slime mold. It fruits in clusters on dead wood and has distinctive tall brown sporangia supported on slender stalks with a total height of approximately 6–20 mm tall.

<i>Brefeldia maxima</i> Species of slime mould

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. A common species with a worldwide distribution, particularly in North America and Europe. 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, however beetles of the family Lathridiidae are also reported to disperse the spores. Bonner states that soil invertebrates and rain mainly disperse spores as they are sticky and unlikely to be carried by air currents.

Hypothallus

In true slime molds, the myxogastria, the hypothallus is the layer on which the fruit body sits, lying in contact with the substrate. Roughly translated, it means "under the thallus".

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

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

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>Scleroderma verrucosum</i> Species of fungus

Scleroderma verrucosum is a basidiomycete fungus and a member of the genus Scleroderma, or "earth balls". First described scientifically in 1791, the species has a cosmopolitan distribution, and grows in the ground in nutrient-rich, sandy soils.

<i>Stemonitis splendens</i> Species of slime mould

Stemonitis splendens, commonly known as the chocolate tube slime, is a species of slime mold.

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

Hemitricha is a genus of slime molds, of the family Trichiidae, found within the order Trichiida. It was first described by Josef Rostafinksi 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.

References

  1. 1 2 "Stemonitis axifera (Bull.) T. Macbr.: 120, 1889". MycoBank. International Mycological Association. Retrieved 2013-08-28.
  2. Bulliard P. (1791). Histoire des champignons de la France. I (in French). Paris. page 118; plate 477.1.
  3. 1 2 Stepenson SL. (2000). Myxomycetes: A Handbook of Slime Molds. Timber Press. ISBN   978-0881924398.
  4. Dalpe Y; Corbeil M; Corbeil C (2008). "In situ differentiation of Stemonitis axifera (Bull.) Macbr". Cryptogamie Mycologie (in French). 29 (4): 305–12.
  5. 1 2 Keller HW, Snell KL (2002). "Feeding activities of slugs on Myxomycetes and macrofungi". Mycologia. 94 (5): 757–60. doi:10.2307/3761690. JSTOR   3761690. PMID   21156549.