Wetheredella

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Wetheredella
Temporal range: Ordovician–Carboniferous
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Clade: Diaphoretickes
Clade: SAR
Phylum: Retaria
Subphylum: Foraminifera (?)
Class: incertae sedis (?)
Genus: Wetheredella
Wood, 1948. [1] taxon inquirendum (possibly not in foraminifera [2]
Type species
Wetheredella silurica
Wood, 1948
Species [3]
Synonyms [5]

Allonema Ulrich & Bassler, 1904

Wetheredella is a genus of calcimicrobes initially described from the Silurian of England, and subsequently reported from the Upper Ordovician to the end of the Carboniferous periods; its reefs are stated as being characteristic of the Ordovician-Silurian periods. [3] Its taxonomic position is uncertain; it has been suggested to be a foraminiferan, [6] [7] a cyanobacterium [8] or simply treated as a microproblematicum; [9] Vachard & Cózar (2010) refer it to the Algospongia, a similarly controversial group that they assigned to the Protista but later, per Vachard, 2021, to Algae incertae sedis, [10] in its own family (Wetheredellidae or Wetheredellaceae) and suborder (Wetheredellina) in the order Moravamminida (= Moravamminales). [3] The genus is named in honor of the geologist Edward Wethered. [11]

Wetheredella is characterized by calcified tubes encrusting a foreign body, with convex outer surfaces and inner surfaces coiled around the encrusted grain. Recently it has been shown that structures matching the description of Wetheredella can be produced by sectioning of Allomena , meaning that Wetheredella is possibly a junior synonym of Allomena. [12]

Related Research Articles

<span class="mw-page-title-main">Silurian</span> Third period of the Paleozoic Era, 443–419 million years ago

The Silurian is a geologic period and system spanning 24.6 million years from the end of the Ordovician Period, at 443.8 million years ago (Mya), to the beginning of the Devonian Period, 419.2 Mya. The Silurian is the shortest period of the Paleozoic Era. As with other geologic periods, the rock beds that define the period's start and end are well identified, but the exact dates are uncertain by a few million years. The base of the Silurian is set at a series of major Ordovician–Silurian extinction events when up to 60% of marine genera were wiped out.

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

Acritarchs are organic microfossils, known from approximately 1800 million years ago to the present. The classification is a catch all term used to refer to any organic microfossils that cannot be assigned to other groups. Their diversity reflects major ecological events such as the appearance of predation and the Cambrian explosion.

<span class="mw-page-title-main">Reef</span> A shoal of rock, coral or other sufficiently coherent material, lying beneath the surface of water

A reef is a ridge or shoal of rock, coral or similar relatively stable material, lying beneath the surface of a natural body of water. Many reefs result from natural, abiotic (non-living) processes such as deposition of sand or wave erosion planing down rock outcrops. However, reefs such as the coral reefs of tropical waters are formed by biotic (living) processes, dominated by corals and coralline algae. Artificial reefs such as shipwrecks and other man-made underwater structures may occur intentionally or as the result of an accident, and are sometimes designed to increase the physical complexity of featureless sand bottoms to attract a more diverse range of organisms. Reefs are often quite near to the surface, but not all definitions require this.

<span class="mw-page-title-main">Coralline algae</span> Order of algae (Corallinales)

Coralline algae are red algae in the order Corallinales. They are characterized by a thallus that is hard because of calcareous deposits contained within the cell walls. The colors of these algae are most typically pink, or some other shade of red, but some species can be purple, yellow, blue, white, or gray-green. Coralline algae play an important role in the ecology of coral reefs. Sea urchins, parrot fish, and limpets and chitons feed on coralline algae. In the temperate Mediterranean Sea, coralline algae are the main builders of a typical algal reef, the Coralligène ("coralligenous"). Many are typically encrusting and rock-like, found in marine waters all over the world. Only one species lives in freshwater. Unattached specimens may form relatively smooth compact balls to warty or fruticose thalli.

<i>Tentaculites</i> Extinct genus of invertebrates

Tentaculites is an extinct genus of conical fossils of uncertain affinity, class Tentaculita, although it is not the only member of the class. It is known from Lower Ordovician to Upper Devonian deposits both as calcitic shells with a brachiopod-like microstructure and carbonaceous 'linings'. The "tentaculites" are also referred to as the styliolinids.

<span class="mw-page-title-main">Bioerosion</span> Erosion of hard substrates by living organisms

Bioerosion describes the breakdown of hard ocean substrates – and less often terrestrial substrates – by living organisms. Marine bioerosion can be caused by mollusks, polychaete worms, phoronids, sponges, crustaceans, echinoids, and fish; it can occur on coastlines, on coral reefs, and on ships; its mechanisms include biotic boring, drilling, rasping, and scraping. On dry land, bioerosion is typically performed by pioneer plants or plant-like organisms such as lichen, and mostly chemical or mechanical in nature.

<span class="mw-page-title-main">Stromatoporoidea</span> Extinct clade of sponges

Stromatoporoidea is an extinct clade of sea sponges common in the fossil record from the Middle Ordovician to the Late Devonian. They can be characterized by their densely layered calcite skeletons lacking spicules. Stromatoporoids were among the most abundant and important reef-builders of their time, living close together in flat biostromes or elevated bioherms on soft tropical carbonate platforms.

In the geological timescale, the Llandovery Epoch occurred at the beginning of the Silurian Period. The Llandoverian Epoch follows the massive Ordovician-Silurian extinction events, which led to a large decrease in biodiversity and an opening up of ecosystems.

<span class="mw-page-title-main">Geology of Gotland</span>

Gotland is made up of a sequence of sedimentary rocks of a Silurian age, dipping to the south-east. The main Silurian succession of limestones and shales comprises thirteen units spanning 200–500 m (660–1,640 ft) of stratigraphic thickness, being thickest in the south, and overlies a 75–125 m (246–410 ft) thick Ordovician sequence. Precambrian shield rocks that underlie these sediments are found 400 to 500 meters sea level. Sedimentary rocks cropping out in Gotland were deposited in a shallow, hot and salty sea, on the edge of an equatorial continent. The water depth never exceeded 175–200 m (574–656 ft), and shallowed over time as bioherm detritus, and terrestrial sediments, filled the basin. Reef growth started in the Llandovery, when the sea was 50–100 m (160–330 ft) deep, and reefs continued to dominate the sedimentary record. Some sandstones are present in the youngest rocks towards the south of the island, which represent sand bars deposited very close to the shore line.

Graticula, formerly incorrectly named Craticula, is a genus of Palaeozoic coralline alga. They form the framework of reef rocks in the Silurian of Gotland, from the Högklint, Slite and Halla groups.

<i>Solenopora</i> Extinct genus of algae

The extinct Solenoporaceae have traditionally been interpreted as a group of red algae ancestral to the Corallinales.

Girvanella is a fossil thought to represent the calcified sheath of a filamentous cyanobacterium known from the Burgess Shale and other Cambrian fossil deposits.

The extinct genus Hedstroemia was once thought to be a rivulariacean cyanobacterium. It forms oval blobs composed of sinuous tubes that have rounded outlines and occurs in conjunction with Solenopora.

Rothpletzella is a genus of calcimicrobe known from the Silurian of Gotland, the Devonian of France, as well as the Ordovician of China. It has been hypothesised to be a cyanobacterium, and shares morphological similarities with extant cyanobacteria. The genus is named in honor of August Rothpletz.

Archaeolithophyllum is a genus of conceptacle-bearing red alga that falls in the coralline stem group. It somewhat resembles Lithophyllum.

Palaeoaplysina is a genus of tabular, calcified fossils that are a component of many Late Palaeozoic reefs. The fossil acted as a baffle to trap sediment. Historically interpreted as a sponge or hydrozoan, recent studies are converging to its classification in the coralline stem group, placing it among the red algae.

<span class="mw-page-title-main">Sphaerocodium</span> Extinct genus of bacteria

Sphaerocodium is a fossil that represents the remains of bacteria in the phylum Cyanobacteria, often called blue-green algae.

<span class="mw-page-title-main">Olev Vinn</span> Estonian paleontologist (born 1971)

Olev Vinn is Estonian paleobiologist and paleontologist.

Proaulopora is a Cambrian–Ordovician fossil genus of calcareous algae. It has been variously thought to belong to the green algae, red algae or cyanobacteria. It was originally established by the Russian paleontologist Aleksandr Grigoryevich Vologdin in 1937, for species known from the Lower Cambrian of the western Altai Mountains.

Algospongia is a class of small, calcified fossil organisms of uncertain taxonomic position, assigned in a comprehensive 2010 review to "Animalia" incertae sedis, but both prior to and post that to an unnamed phylum of Algae; other workers simply list them as Problematica. They occur in carbonate rocks of the Paleozoic era and their last representatives occur in the Late Permian geological period. Characteristic genera include Aoujgalia, Moravammina and the early-appearing Wetheredella, although the taxonomic validity of the last named genus has been disputed.

References

  1. Wood, Alan (1948). ""Sphaerocodium," a misinterpreted Fossil from the Wenlock limestone". Proceedings of the Geologists' Association. 59 (1): 9–22. doi:10.1016/S0016-7878(48)80027-1.
  2. Loeblich Jr., Alfred R.; Tappan, Helen (1988). "Generic Taxa Erroneously Regarded as Foraminifers". Foraminiferal Genera and Their Classification. Vol. 1. New York: Van Nostrand Reinhold Co. p. 730. ISBN   9781489957603. OCLC   680469074 . Retrieved 7 January 2019. Wetheredella Wood, 1948 ('3389A). p. 20; type species: Wetheredella silurica Wood, 1948. Alga.
  3. 1 2 3 Vachard, D.; Cózar, P. (2010). "An attempt of classification of the Palaeozoic "incertae sedis" Algospongia". Revista Española de Micropaleontología. 42 (2): 129–241.
  4. J. A. Talent. 1963. The Devonian of the Mitchell and Wentworth Rivers. Geological Survey of Victoria Memoir 24:1-118
  5. "Allonema" (html). Fossilworks. Retrieved 17 December 2021. Synonym: Wetheredella Wood 1948 (taxon 117727)
  6. Riding, R.; Watts, N. (1981). "Silurian algal reef crest in Gotland". Naturwissenschaften. 68 (2): 91–92. Bibcode:1981NW.....68...91R. doi:10.1007/BF01047229. S2CID   8834679.
  7. Nose, Martin; Schmid, Dieter U.; Leinfelder, Reinhold R. (2006). "Significance of microbialites, calcimicrobes, and calcareous algae in reefal framework formation from the Silurian of Gotland, Sweden". Sedimentary Geology . 192 (3–4): 243–265. Bibcode:2006SedG..192..243N. doi:10.1016/j.sedgeo.2006.04.009.
  8. Kaźmierczak, J.; Kempe, S. (1992). "Recent cyanobacterial counterparts of Paleozoic Wetheredella and related problematic fossils". PALAIOS. 7 (3): 294–304. Bibcode:1992Palai...7..294K. doi:10.2307/3514974. JSTOR   3514974.
  9. Liu, Lijing; Wu, Yasheng; Yang, Haijun; Riding, Robert (2016). "Ordovician calcified cyanobacteria and associated microfossils from the Tarim Basin, Northwest China: systematics and significance" (PDF). Journal of Systematic Palaeontology . 14 (3): 183–210. doi:10.1080/14772019.2015.1030128. S2CID   129684955.
  10. Vachard, D. (2021). "Calcareous Algae (Rhodophyta and Chlorophyta)". In Elias, S.; Alderton, D. (eds.). Encyclopedia of Geology, Second Edition. Academic Press. pp. 389–406. ISBN   9780081029091.
  11. Riding, Robert; Fan, Jiasong (2001). "Ordovician Calcified Algae and Cyanobacteria, Northern Tarim Basin Subsurface, China". Palaeontology. 44 (4): 783–810. doi: 10.1111/1475-4983.00201 .
  12. Jarochowska, E; Munnecke, A. (2014). "The Paleozoic problematica Wetheredella and Allonema are two aspects of the same organism". Facies. 60 (2): 651–662. doi:10.1007/s10347-014-0399-z. S2CID   129772080.