Gaojiashania

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Gaojiashania
Temporal range: Ediacaran
Scientific classification
Kingdom:
Genus:
Species:
G. cyclus
Binomial name
Gaojiashania cyclus

Gaojiashania cyclus is a worm-like, soft bodied organism with an epibenthic mode of life. [1] Composed of repeating ring-like units, G. cyclus is flexible, soft, and not easily preserved. [2] Pyritization prior to decay of soft parts results in the well preserved casts and molds we see today. [2]

Morphology, anatomy, & behavior

Initially thought to be an annelid, G. cyclus is a soft bodied organism with small, hard, internal rings. [2] Specimen morphology does not have much variation, tube lengths range from 30 to 60 mm and have constant diameter. [1] Specimens are composed of repeating flexible units, subdivided further into annuli (Figure 2). [2]

Method of fossilization

Gaojiashania cyclus are not preserved as a whole due to their soft bodies, and the only record that currently exists are impressions left behind by these organisms (Fig. 3). [3] That being said, the impressions themselves are still fossilized and must undergo processes to become so. Three types of preservation have been identified within the Gaojiashan Lagerstätte section: pyritization, kerogenization (Fig. 5), and aluminosilicification (Fig. 6). [1] Of these, pyritization is the dominant fossilization process, with over eighty percent of specimens found in certain areas having been fossilized this way. [1] The level of preservation is due to this; pyritization likely occurred relatively early in the fossil forming process, before soft parts had decayed. This quick mineralization is what resulted in such detailed casts. [2]

Distribution and paleoenvironment

Located in Shaanxi Province of South China, G. cyclus is found abundantly within the aptly named Gaojiashan section of the Dengying Formation. [1] It is here where much research on the organism has occurred, though more recently specimen casts have been found in Mount Dunfee, Nevada (Fig. 3)! [3]

It is likely these organisms existed on the bottom of marine regions. Though there is little hard evidence to go off, researchers have determined G. cyclus was epibenthic, procumbent, and largely occurred in muddy substrates; certain rigid rings present may have acted as anchors to seafloor surfaces. [1]

Related Research Articles

<span class="mw-page-title-main">Taphonomy</span> Study of decomposition and fossilization of organisms

Taphonomy is the study of how organisms decay and become fossilized or preserved in the paleontological record. The term taphonomy was introduced to paleontology in 1940 by Soviet scientist Ivan Efremov to describe the study of the transition of remains, parts, or products of organisms from the biosphere to the lithosphere.

<span class="mw-page-title-main">Trace fossil</span> Geological record of biological activity

A trace fossil, also known as an ichnofossil, is a fossil record of biological activity by lifeforms but not the preserved remains of the organism itself. Trace fossils contrast with body fossils, which are the fossilized remains of parts of organisms' bodies, usually altered by later chemical activity or mineralization. The study of such trace fossils is ichnology and is the work of ichnologists.

<span class="mw-page-title-main">Doushantuo Formation</span> Fossil formation in south-central China

The Doushantuo Formation is a geological formation in western Hubei, eastern Guizhou, southern Shaanxi, central Jiangxi, and other localities in China. It is known for the fossil Lagerstätten in Zigui in Hubei, Xiuning in Anhui, and Weng'an in Guizhou, as one of the oldest beds to contain minutely preserved microfossils, phosphatic fossils that are so characteristic they have given their name to "Doushantuo type preservation". The formation, whose deposits date back to the Early and Middle Ediacaran, is of particular interest because it covers the poorly understood interval of time between the end of the Cryogenian geological period and the more familiar fauna of the Late Ediacaran Avalon explosion, as well as due to its microfossils' potential utility as biostratigraphical markers. Taken as a whole, the Doushantuo Formation ranges from about 635 Ma at its base to about 551 Ma at its top, with the most fossiliferous layer predating by perhaps five Ma the earliest of the 'classical' Ediacaran faunas from Mistaken Point on the Avalon Peninsula of Newfoundland, and recording conditions up to a good forty to fifty million years before the Cambrian explosion at the beginning of the Phanerozoic.

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

Phosphatization, or phosphatic fossilization, refers to the process of fossilization where organic matter is replaced by abundant calcium-phosphate minerals. It has occurred in unusual circumstances to preserve some extremely high-resolution microfossils in which careful preparation can even reveal preserved cellular structures. Such microscopic fossils are only visible under the scanning electron microscope.

<i>Kimberella</i> Primitive Mollusc-like organism

Kimberella is an extinct genus of bilaterian known only from rocks of the Ediacaran period. The slug-like organism fed by scratching the microbial surface on which it dwelt in a manner similar to the gastropods, although its affinity with this group is contentious.

<span class="mw-page-title-main">Petrifaction</span> Process of fossilisation

In geology, petrifaction or petrification is the process by which organic material becomes a fossil through the replacement of the original material and the filling of the original pore spaces with minerals. Petrified wood typifies this process, but all organisms, from bacteria to vertebrates, can become petrified. Petrifaction takes place through a combination of two similar processes: permineralization and replacement. These processes create replicas of the original specimen that are similar down to the microscopic level.

<span class="mw-page-title-main">Vendobionta</span> Group of extinct creatures that were part of the Ediacaran biota

Vendobionts or Vendozoans (Vendobionta) are a proposed very high-level, extinct clade of benthic organisms that made up of the majority of the organisms that were part of the Ediacaran biota. It is a hypothetical group and at the same time, it would be the oldest of the animals that populated the Earth about 580 million years ago, in the Ediacaran period. They became extinct shortly after the so-called Cambrian explosion, with the introduction of fauna formed by more recognizable groups and more related to modern animals. It is very likely that the whole Ediacaran biota is not a monophyletic clade and not every genus placed in its subtaxa is an animal.

<i>Rangea</i> Fossil taxon

Rangea is a frond-like Ediacaran fossil with six-fold radial symmetry. It is the type genus of the rangeomorphs.

<i>Aspidella</i> Genus of Ediacaran animals

Aspidella is an Ediacaran disk-shaped fossil of uncertain affinity. It is known from the single species A. terranovica.

<span class="mw-page-title-main">Hunsrück Slate</span> Geological formation in Germany

The Hunsrück Slate is a Lower Devonian lithostratigraphic unit, a type of rock strata, in the German regions of the Hunsrück and Taunus. It is a lagerstätte famous for exceptional preservation of a highly diverse fossil fauna assemblage.

<span class="mw-page-title-main">La Voulte-sur-Rhône (lagerstätte)</span>

The late Middle Jurassic lagerstätte at La Voulte-sur-Rhône, in the Ardèche region of southwestern France, offers paleontologists an outstanding view of an undisturbed paleoecosystem that was preserved in fine detail as organisms died at the site and settled to the bottom of a shallow epicontinental sea, with a folded floor that in places exceeded 200 m at this site. The site preserves a marine system of the Lower Callovian stage, a little over 160 mya. The sequence is exposed in a series of quarries at La Boissine, west of the village of La Voulte-sur-Rhône. Iron pyrites in the silty shale are symptoms of an anoxic environment. The site was recognized among French paleontologists from the mid-nineteenth century for its finely detailed fossils.

The Burgess Shale of British Columbia is famous for its exceptional preservation of mid-Cambrian organisms. Around 69 other sites have been discovered of a similar age, with soft tissues preserved in a similar, though not identical, fashion. Additional sites with a similar form of preservation are known from the Ediacaran and Ordovician periods.

<span class="mw-page-title-main">Beecher's Trilobite type preservation</span> Replacement of soft tissues of a fossil with pyrite

The preservational regime of Beecher's Trilobite Bed and other similar localities involves the replacement of soft tissues with pyrite, producing a three-dimensional fossil replicating the anatomy of the original organism. Only gross morphological information is preserved, although the fossils are compressed some relief is preserved.

Ediacaran type preservation relates to the dominant preservational mode in the Ediacaran period, where Ediacaran organisms were preserved as casts on the surface of microbial mats.

<span class="mw-page-title-main">Permineralization</span> Type of fossilization

Permineralization is a process of fossilization of bones and tissues in which mineral deposits form internal casts of organisms. Carried by water, these minerals fill the spaces within organic tissue. Because of the nature of the casts, permineralization is particularly useful in studies of the internal structures of organisms, usually of plants.

A megabias, or a taphonomic megabias, is a large-scale pattern in the quality of the fossil record that affects paleobiologic analysis at provincial to global levels and at timescales usually exceeding ten million years. It can result from major shifts in intrinsic and extrinsic properties of organisms, including morphology and behaviour in relation to other organisms, or shifts in the global environment, which can cause secular or long-term cyclic changes in preservation.

<span class="mw-page-title-main">Soom Shale</span> Late Ordovician lagerstatte formation in South Africa

The Soom Shale is a member of the Late Ordovician (Hirnantian) Cederberg Formation in South Africa, renowned for its remarkable preservation of soft-tissue in fossil material. Deposited in still waters, the unit lacks bioturbation, perhaps indicating anoxic conditions.

<i>Arumberia</i> Trace fossil

Arumberia is an enigmatic fossil from the Ediacaran period originally described from the Arumbera Sandstone, Northern Territory, Australia but also found in the Urals, East Siberia, England and Wales, Northern France, the Avalon Peninsula and India. Several morphologically distinct species are recognized.

<span class="mw-page-title-main">Waukesha Biota</span> Lagerstätte Fossil site in Waukesha County, Wisconsin, U.S.

The Waukesha Biota is an important fossil site located in Waukesha County and Franklin, Milwaukee County within the state of Wisconsin. This biota is preserved in certain strata within the Brandon Bridge Formation, which dates to the early Silurian period. It is known for the exceptional preservation of soft-bodied organisms, including many species found nowhere else in rocks of similar age. The site's discovery was announced in 1985, leading to a plethora of discoveries. This biota is one of the few well studied Lagerstätten from the Silurian, making it important in our understanding of the period's biodiversity. Some of the species are not easily classified into known animal groups, showing that much research remains to be done on this site. Other taxa that are normally common in Silurian deposits are rare here, but trilobites are quite common.

<i>Frondophyllas</i> Rangeomorph

Frondophyllas is an extinct, monotypic animal genus in the clade Rangeomorpha. It was found at the Mistaken Point on the Avalon Peninsula in Newfoundland, Canada in 2008 by Bamforth and Anderson. The single species is Frondophyllas grandis and as of 2021 only two specimens have been discovered. Both specimens are incomplete, but one extends to one meter long, making it one of the largest Ediacaran macrofossils. The species name: grandis, comes from its size, and the genus name: Frondophyllas means "frond with leaves". The organism has a base structure with numerous fronds attached to it. It is the only Ediacaran organism to have distinct leaflets. Evidence suggests that F. grandis may have been tethered to the seafloor and used these leaflets to "filter feed", or live off nutrients provided by a current. One of the reasons fossils of this species are so rare is because it was a soft-bodied organism. It is believed that F. grandis was preserved because it was caught beneath quickly solidifying volcanic ash. Many of the Mistaken Point fossils were preserved this way.

References

  1. 1 2 3 4 5 6 Cai, Y (2013). "Tube construction and life mode of the late Ediacaran tubular fossil Gaojiashania cyclus from the Gaojiashan Lagerstätte". Precambrian Research. 224: 255–267. Bibcode:2013PreR..224..255C. doi:10.1016/j.precamres.2012.09.022.
  2. 1 2 3 4 5 Chen, Z (2002). "Preservation and morphological interpretation of late Sinian Gaojiashania from southern Shaanxi". China Academic Journal. 41: 448–454.
  3. 1 2 Wendel, JoAnna (2017-11-13). "Hunting Rare Fossils of the Ediacaran". Eos. doi: 10.1029/2017eo086601 . Retrieved 2021-12-10.