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Artist impression of the Ordovician Sea.
The Ordovician period is the second of the six (seven in North America) periods[1] of the Paleozoic era, and covers the time roughly between 490 to 440 million years ago. It follows the Cambrian period and is followed by the Silurian period. The Ordovician, named after the Welsh tribe of the Ordovices, was defined by Charles Lapworth in 1879, to resolve a dispute between followers of Adam Sedgwick and Roderick Murchison, who were placing the same rock beds in northern Wales into the Cambrian and Silurian periods respectively. Lapworth, recognizing that the fossil fauna in the disputed strata were different from those of either the Cambrian or the Silurian periods, realized that they should be placed in a period of their own.

While recognition of the distinct Ordovician period was slow in the United Kingdom, other areas of the world accepted it quickly. It received international sanction in 1906, when it was adopted as an official period of the Paleozoic era by the International Geological Congress.

Ordovician dating

The Ordovician period started at a major extinction event called the Cambrian-Ordovician extinction events some time about 488.3 ± 1.7 million years ago (Ma) and lasted for about 44.6 million years. It ended with another major extinction event about 443.7 ± 1.5 Ma (ICS, 2004) that wiped out 60% of marine genera. A. Melott et al. (ref. 2006) suggested a ten-second gamma ray burst could have destroyed the ozone layer and exposed terrestrial and marine surface-dwelling life to deadly radiation, but most scientists agree that extinction events are complex with multiple causes. See below.

The dates given are recent radiometric dates and vary slightly from those used in other sources. This second period of the Paleozoic era created abundant fossils and in some regions, major petroleum and gas reservoirs.

Ordovician subdivisions

The Ordovician Period is usually broken into Early (Tremadoc and Arenig), Middle (Llanvirn [subdivided into Abereiddian and Llandeilian]) and Late (Caradoc and Ashgill) epochs. The corresponding rocks of the Ordovician System are referred to as coming from the Lower, Middle, or Upper part of the column. The faunal stages (subdivisions of epochs) from youngest to oldest are:
  • Hirnantian/Gamach (Late-Ashgill)
  • Rawtheyan/Richmond (Late-Ashgill)
  • Cautleyan/Richmond (Late-Ashgill)
  • Pusgillian/Maysville/Richmond (Late-Ashgill)
  • Trenton (Middle-Caradoc)
  • Onnian/Maysville/Eden (Middle-Caradoc)
  • Actonian/Eden (Middle-Caradoc)
  • Marshbrookian/Sherman (Middle-Caradoc)
  • Longvillian/Sherman (Middle-Caradoc)
  • Soundleyan/Kirkfield (Middle-Caradoc)
  • Harnagian/Rockland (Middle-Caradoc)
  • Costonian/Black River (Middle-Caradoc)
  • Chazy (Middle-Llandeilo)
  • Llandeilo (Middle-Llandeilo)
  • Whiterock (Middle-Llanvirn)
  • Llanvirn (Middle-Llanvirn)
  • Cassinian (Early-Arenig)
  • Arenig/Jefferson/Castleman (Early-Arenig)
  • Tremadoc/Deming/Gaconadian (Early-Tremadoc)

Ordovician paleogeography

Sea levels were high during the Ordovician; in fact during the Tremadocian, marine transgressions worldwide were the greatest for which evidence is preserved in the rocks.

During the Ordovician, the southern continents were collected into a single continent called Gondwana. Gondwana started the period in equatorial latitudes and, as the period progressed, drifted toward the South Pole. Early in the Ordovician, the continents Laurentia, Siberia, and Baltica were still independent continents (since the break-up of the supercontinent Pannotia earlier), but Baltica began to move towards Laurentia later in the period, causing the Iapetus Ocean to shrink between them. Also, Avalonia broke free from Gondwana and began to head north towards Laurentia. Rheic Ocean was formed as a result of this.

Ordovician rocks are chiefly sedimentary. Because of the restricted area and low elevation of solid land, which set limits to erosion, marine sediments that make up a large part of the Ordovician system consist chiefly of limestone. Shale and sandstone are less conspicuous.

A major mountain-building episode was the Taconic orogeny that was well under way in Cambrian times.

By the end of the period, Gondwana had neared or approached the pole and was largely glaciated.

Climate

The Early Ordovician climate was thought to be quite warm, at least in the tropics. As with North America and Europe, Gondwana was largely covered with shallow seas during the Ordovician. Shallow clear waters over continental shelves encouraged the growth of organisms that deposit calcium carbonates in their shells and hard parts. Panthalassic Ocean covered much of the northern hemisphere, and other minor oceans included Proto-Tethys, Paleo-Tethys, Khanty Ocean which was closed off by the Late Ordovician, Iapetus Ocean, and the new Rheic Ocean.

As the Ordovician progressed, we see evidence of glaciers on the land we now know as Africa and South America. At the time these land masses were sitting at the South Pole, and covered by ice caps.

Ordovician Life

Ordovician fauna

Though less famous than the Cambrian explosion, the Ordovician featured an adaptive radiation that was no less remarkable; marine faunal genera increased fourfold, resulting in 12% of all known Phanerozoic marine fauna.[2] The trilobite, inarticulate brachiopod, archaeocyathid, and eocrinoid faunas of the Cambrian were succeeded by those which would dominate for the rest of the Paleozoic, such as articulate brachiopods, cephalopods, and crinoids; articulate brachiopods, in particular, largely replaced trilobites in shelf communities.[3] Their success epitomizes the greatly increased diversity of carbonate shell-secreting organisms in the Ordovician compared to the Cambrian.[4]

In North America and Europe, the Ordovician was a time of shallow continental seas rich in life. Trilobites and brachiopods in particular were rich and diverse. The first bryozoa appeared in the Ordovician as did the first coral reefs. Solitary corals date back to at least the Cambrian. Molluscs, which had also appeared during the Cambrian or the Ediacaran, became common and varied, especially bivalves, gastropods, and nautiloid cephalopods. It was long thought that the first true vertebrates (fish - Ostracoderms) appeared in the Ordovician, but recent discoveries in China reveal that they probably originated in the Early Cambrian. The very first jawed fish appeared in the Late Ordovician epoch. Now-extinct marine animals called graptolites thrived in the oceans. Some cystoids and crinoids appeared.

During the Middle Ordovician there was a large increase in the intensity and diversity of bioeroding organisms. This is known as the Ordovician Bioerosion Revolution (Wilson & Palmer, 2006). It is marked by a sudden abundance of hard substrate trace fossils such as Trypanites, Palaeosabella and Petroxestes.




Fossil Mountain, west-central Utah; Middle Ordovician fossiliferous shales and limestones in the lower half.

Outcrop of Upper Ordovician rubbly limestone and shale, southern Indiana; College of Wooster students.

Outcrop of Upper Ordovician limestone and minor shale, central Tennessee; College of Wooster students.

Trypanites borings in an Ordovician hardground, southeastern Indiana; see Wilson and Palmer (2001).

Petroxestes borings in an Ordovician hardground, southern Ohio; see Wilson and Palmer (2006).

Outcrop of Ordovician kukersite oil shale, northern Estonia.

Fossils in Ordovician kukersite oil shale, northern Estonia.

Brachiopods and bryozoans in an Ordovician limestone, southern Minnesota.

Ordovician bryozoa, Batavia, Ohio.


Ordovician flora

Green algae were common in the Ordovician and Late Cambrian (perhaps earlier). Plants probably evolved from green algae. The first terrestrial plants appeared in the form of tiny non-vascular plants resembling liverworts. Fossil spores from land plants have been identified in uppermost Ordovician sediments, but among the first land fungi may have been Arbuscular mycorrhiza fungi (Glomerales), playing a crucial role in facilitating the colonization of land by plants through mycorrhizal symbiosis, which makes mineral nutrients available to plant cells; such fossilized fungal hyphae and spores from the Ordovician of Wisconsin have been found with an age of about 460 mya, a time when the land flora most likely only consisted of plants similar to non-vascular bryophytes.[5]

Marine fungi were abundant in the Ordovician seas to decompose animal carcasses, and other wastes.

End of the Ordovician

Main article: Ordovician-Silurian extinction events
.
The Ordovician came to a close in a series of extinction events that, taken together, comprise the second largest of the five major extinction events in Earth's history in terms of percentage of genera that went extinct. The only larger one was the Permian-Triassic extinction event.

The extinctions occurred approximately 444-447 million years ago and mark the boundary between the Ordovician and the following Silurian Period. At that time all complex multicellular organisms lived in the sea, and about 49% of genera of fauna disappeared forever; brachiopods and bryozoans were decimated, along with many of the trilobite, conodont and graptolite families.

The most commonly accepted theory is that these events were triggered by the onset of an ice age, in the Hirnantian faunal stage that ended the long, stable greenhouse conditions typical of the Ordovician. The ice age was probably not as long-lasting as once thought; study of oxygen isotopes in fossil brachiopods shows that it was probably no longer than 0.5 to 1.5 million years.[6] The event was preceded by a fall in atmospheric carbon dioxide (from 7000ppm to 4400ppm) which selectively affected the shallow seas where most organisms lived. As the southern supercontinent Gondwana drifted over the South Pole, ice caps formed on it, which have been detected in Upper Ordovician rock strata of North Africa and then-adjacent northeastern South America, which were south-polar locations at the time.

Glaciation locks up water from the world-ocean, and the interglacials free it, causing sea levels repeatedly to drop and rise; the vast shallow intra-continental Ordovician seas withdrew, which eliminated many ecological niches, then returned carrying diminished founder populations lacking many whole families of organisms, then withdrew again with the next pulse of glaciation, eliminating biological diversity at each change.[7] Species limited to a single epicontinental sea on a given landmass were severely affected.[8] Tropical lifeforms were hit particularly hard in the first wave of extinction, while cool-water species were hit worst in the second pulse.[9]

Surviving species were those that coped with the changed conditions and filled the ecological niches left by the extinctions.

At the end of the second event, melting glaciers caused the sea level to rise and stabilise once more. The rebound of life's diversity with the permanent re-flooding of continental shelves at the onset of the Silurian saw increased biodiversity within the surviving Orders.

Notes

1. ^ The Carboniferous in North America is divided in two, the Mississippian and the Pennsylvanian.
2. ^ Dougal Dixon et al., Atlas of Life on Earth, (New York: Barnes & Noble Books, 2001), p. 87.
3. ^ John D. Cooper, Richard H. Miller, and Jacqueline Patterson, A Trip Through Time: Principles of Historical Geology, (Columbus: Merrill Publishing Company, 1986), pp. 247, 255-9.
4. ^ Ibid., 255-6.
5. ^ D. Redecker, R. Kodner and L.E. Graham, "Glomalean fungi from the Ordovician" Science 2000 Sep 15;289(5486):1920-1.
6. ^ Steven M. Stanley, Earth System History, (New York: W.H. Freeman and Company, 1999), 358.
7. ^ Emiliani, (1992), 491
8. ^ Stanley, 360.
9. ^ Stanley, 360

References

External links

Ordovician period
Lower/Early Ordovician Middle Ordovician Upper/Late Ordovician
Tremadocian | Stage 2Stage 3 | DarriwilianStage 5 | Stage 6
Hirnantian
Paleozoic era
Cambrian Ordovician Silurian Devonian Carboniferous Permian


North America is a continent [1] in the Earth's northern hemisphere and (chiefly) western hemisphere. It is bordered on the north by the Arctic Ocean, on the east by the North Atlantic Ocean, on the southeast by the Caribbean Sea, and on the south and west
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A geologic period is a subdivision of geologic time that divides an era into smaller timeframes. The equivalent term used to demarcate rock layers and the fossil record is the system; thus the rocks of the Devonian System were laid down during the Devonian Period.
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The Paleozoic Era (from the Greek palaio, "old" and zoion, "animals", meaning "ancient life") is the earliest of three geologic eras of the Phanerozoic eon.
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A geologic era is a subdivision of geologic time that divides an Eon into smaller buckets. The Phanerozoic Eon is divided into three such timeframes: the Paleozoic, Mesozoic, and Cenozoic represent the major stages in the macroscopic fossil record.
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The Cambrian is a major division of the geologic timescale that begins about 542 ± 1.0 Ma (million years ago) at the end of the Proterozoic eon and ended about 488.3 ± 1.7 Ma with the beginning of the Ordovician period (ICS, 2004).
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The Silurian is a major division of the geologic timescale that extends from the end of the Ordovician period, about 443.7 ± 1.5 Ma (million years ago), to the beginning of the Devonian period, about 416.0 ± 2.8 Ma (ICS 2004).
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Motto
Cymru am byth   (Welsh)
"Wales forever"
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The Ordovices were one of the Celtic tribes living in the British Islands, before the Roman invasion of Britain. Its tribal lands were located in Wales between the Silures to the south and the Deceangli to the north-east.
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Charles Lapworth (September 20, 1842 – March 13, 1920) was an English geologist.

Born at Faringdon in Berkshire (now Oxfordshire), and trained as a teacher, Lapworth settled in the Scottish border region, where he investigated the previously little-known fossil fauna
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Adam Sedgwick

Adam Sedgwick
Born March 22nd, 1785
Dent, Yorkshire
Died January 27 1873
Cambridge, England
Residence UK
Nationality British
Field Geologist
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Sir Roderick Impey Murchison, 1st Baronet KCB FRS (19 February, 1792 - 22 October, 1871), was an influential Scottish geologist who first described and investigated the Silurian system.
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Balanced Rock stands in Garden of the Gods park in Colorado Springs, CO]] A rock is a naturally occurring aggregate of minerals and/or mineraloids. The Earth's lithosphere is made of rock. In general rocks are of three types, namely, igneous, sedimentary, and metamorphic.
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The Cambrian is a major division of the geologic timescale that begins about 542 ± 1.0 Ma (million years ago) at the end of the Proterozoic eon and ended about 488.3 ± 1.7 Ma with the beginning of the Ordovician period (ICS, 2004).
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The Silurian is a major division of the geologic timescale that extends from the end of the Ordovician period, about 443.7 ± 1.5 Ma (million years ago), to the beginning of the Devonian period, about 416.0 ± 2.8 Ma (ICS 2004).
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For other uses of the term, see Fossil (disambiguation)


FOSSIL is a standard for allowing serial communication for telecommunications programs under the DOS operating system.
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Fauna is all of the animal life of any particular region or time. The corresponding term for plants is flora.

Zoologists and paleontologists use fauna to refer to a typical collection of animals found in a specific time or place, e.g.
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stratum (plural: strata) is a layer of rock or soil with internally consistent characteristics that distinguishes it from contiguous layers. Each layer is generally one of a number of parallel layers that lie one upon another, laid down by natural forces.
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Year 1906 (MCMVI
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The Cambrian-Ordovician extinction event occurred approximately 488 million years ago. It was the first major extinction event in the Phanerozoic era and it eliminated many brachiopods, conodonts, and severely reduced the number of trilobite species.
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mya or "m.y.a." is an abbreviation for million years ago. This abbreviation is commonly used as a unit of time to denote length of time before the present or "B.P." (before AD 1950). Specifically, one mya is equal to 106 years ago.
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genus (plural: genera) is part of the Latinized name for an organism. It is a name which reflects the classification of the organism by grouping it with other closely similar organisms.
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Gamma-ray bursts (GRBs) are probably the most luminous events in the universe since the Big Bang. They are flashes of gamma rays coming from seemingly random places in deep space at random times.
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The ozone layer is a layer in Earth's atmosphere which contains relatively high concentrations of ozone (O3). This layer absorbs 97-99% of the sun's high frequency ultraviolet light which is potentially damaging to life on Earth.
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In optics, radiometry is the field that studies the measurement of electromagnetic radiation, including visible light. Note that light is also measured using the techniques of photometry, which deal with brightness as perceived by the human eye, rather than absolute power.
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For other uses of the term, see Fossil (disambiguation)


FOSSIL is a standard for allowing serial communication for telecommunications programs under the DOS operating system.
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Petroleum (Latin Petroleum derived from Greek πέτρα (Latin petra) - rock + έλαιον (Latin oleum) - oil) or crude oil
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Gas is one of the four major states of matter, consisting of freely moving atoms or molecules without a definite shape. Compared to the solid and liquid states of matter a gas has lower density and a lower viscosity.
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In geology, the Arenig group is the name applied to the lowest stage of the Ordovician System. The term was first used by Adam Sedgwick in 1847 with reference to the "Arenig Ashes and Porphyries" in the neighborhood of Arenig Fawr, in Merioneth, North Wales.
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