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Wikipedia

Silurian

January 24, 2023

Not to be confused with Silurian (Doctor Who).
For other uses, see Silurian (disambiguation).

The Silurian (/sɪˈljʊəriən, s-/ sih-LYOOR-ee-ən, sy-)[8][9][10] 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.[11] 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.

Silurian
443.8 ± 1.5 – 419.2 ± 3.2 Ma
Plate tectonics of Earth during the early Silurian
Chronology
Etymology
Name formalityFormal
Synonym(s)Gotlandian
Usage information
Celestial bodyEarth
Regional usageGlobal (ICS)
Time scale(s) usedICS Time Scale
Definition
Chronological unitPeriod
Stratigraphic unitSystem
First proposed byRoderick Murchison, 1835
Time span formalityFormal
Lower boundary definitionFAD of the Graptolite Akidograptus ascensus
Lower boundary GSSPDob's Linn, Moffat, UK
55°26′24″N 3°16′12″W / 55.4400°N 3.2700°W / 55.4400; -3.2700
Lower GSSP ratified1984[4][5]
Upper boundary definitionFAD of the Graptolite Monograptus uniformis
Upper boundary GSSPKlonk, Czech Republic
49°51′18″N 13°47′31″E / 49.8550°N 13.7920°E / 49.8550; 13.7920
Upper GSSP ratified1972[6]
Atmospheric and climatic data
Sea level above present dayAround 180 m, with short-term negative excursions[7]

One important event in this period was the initial establishment of terrestrial life in what is known as the Silurian-Devonian Terrestrial Revolution: vascular plants emerged from more primitive land plants,[12][13] dikaryan fungi started expanding and diversifying along with glomeromycotan fungi,[14] and three groups of arthropods (myriapods, arachnids and hexapods) became fully terrestrialized.[15]

A significant evolutionary milestone during the Silurian was the diversification of jawed fish and bony fish.[16]

History of study

The Silurian system was first identified by British geologist Roderick Murchison, who was examining fossil-bearing sedimentary rock strata in south Wales in the early 1830s. He named the sequences for a Celtic tribe of Wales, the Silures, inspired by his friend Adam Sedgwick, who had named the period of his study the Cambrian, from the Latin name for Wales.[17] This naming does not indicate any correlation between the occurrence of the Silurian rocks and the land inhabited by the Silures (cf. Geologic map of Wales, Map of pre-Roman tribes of Wales). In 1835 the two men presented a joint paper, under the title On the Silurian and Cambrian Systems, Exhibiting the Order in which the Older Sedimentary Strata Succeed each other in England and Wales, which was the germ of the modern geological time scale.[18] As it was first identified, the "Silurian" series when traced farther afield quickly came to overlap Sedgwick's "Cambrian" sequence, however, provoking furious disagreements that ended the friendship.

Charles Lapworth resolved the conflict by defining a new Ordovician system including the contested beds.[19] An alternative name for the Silurian was "Gotlandian" after the strata of the Baltic island of Gotland.[20]

The French geologist Joachim Barrande, building on Murchison's work, used the term Silurian in a more comprehensive sense than was justified by subsequent knowledge. He divided the Silurian rocks of Bohemia into eight stages.[21] His interpretation was questioned in 1854 by Edward Forbes,[22] and the later stages of Barrande; F, G and H have since been shown to be Devonian. Despite these modifications in the original groupings of the strata, it is recognized that Barrande established Bohemia as a classic ground for the study of the earliest Silurian fossils.

Subdivisions

Subdivisions of the Silurian period
Epoch Age Start
(mya)		 Etymology of
Epochs and Stages		 Notes
Llandovery Rhuddanian 443.8 Cefn-Rhuddan Farm, Llandovery in Carmarthenshire, Wales
Aeronian 440.8 Cwm Coed-Aeron Farm, Wales Trefawr Track near the farm is the site of the GSSP
Telychian 438.5 Pen-lan-Telych Farm, Llandovery, Wales
Wenlock Sheinwoodian 433.4 Sheinwood village, Much Wenlock and Wenlock Edge, Shropshire, England During the Wenlock, the oldest-known tracheophytes of the genus Cooksonia, appear. The complexity of slightly later Gondwana plants like Baragwanathia, which resembled a modern clubmoss, indicates a much longer history for vascular plants, extending into the early Silurian or even Ordovician.[citation needed] The first terrestrial animals also appear in the Wenlock, represented by air-breathing millipedes from Scotland.[23]
Homerian 430.5 Homer, Shropshire, England
Ludlow Gorstian 427.4 Gorsty village near Ludlow, Shropshire, England
Ludfordian 425.6 Ludford, Shropshire, England
Přídolí 423.0 Named after a locality at the Homolka a Přídolí nature reserve near the Prague suburb of Slivenec, Czech Republic. Přídolí is the old name of a cadastral field area.[24]

Paleogeography

 
Ordovician-Silurian boundary on Hovedøya, Norway, showing brownish late Ordovician mudstone and later dark deep-water Silurian shale. The layers have been overturned by the Caledonian orogeny.

With the supercontinent Gondwana covering the equator and much of the southern hemisphere, a large ocean occupied most of the northern half of the globe.[25] The high sea levels of the Silurian and the relatively flat land (with few significant mountain belts) resulted in a number of island chains, and thus a rich diversity of environmental settings.[25]

During the Silurian, Gondwana continued a slow southward drift to high southern latitudes, but there is evidence that the Silurian icecaps were less extensive than those of the late-Ordovician glaciation. The southern continents remained united during this period. The melting of icecaps and glaciers contributed to a rise in sea level, recognizable from the fact that Silurian sediments overlie eroded Ordovician sediments, forming an unconformity. The continents of Avalonia, Baltica, and Laurentia drifted together near the equator, starting the formation of a second supercontinent known as Euramerica.

When the proto-Europe collided with North America, the collision folded coastal sediments that had been accumulating since the Cambrian off the east coast of North America and the west coast of Europe. This event is the Caledonian orogeny, a spate of mountain building that stretched from New York State through conjoined Europe and Greenland to Norway. At the end of the Silurian, sea levels dropped again, leaving telltale basins of evaporites extending from Michigan to West Virginia, and the new mountain ranges were rapidly eroded. The Teays River, flowing into the shallow mid-continental sea, eroded Ordovician Period strata, forming deposits of Silurian strata in northern Ohio and Indiana.

The vast ocean of Panthalassa covered most of the northern hemisphere. Other minor oceans include two phases of the Tethys, the Proto-Tethys and Paleo-Tethys, the Rheic Ocean, the Iapetus Ocean (a narrow seaway between Avalonia and Laurentia), and the newly formed Ural Ocean.

 
Fossils of the late Silurian sea bed

Climate and sea level

The Silurian period was once believed to have enjoyed relatively stable and warm temperatures, in contrast with the extreme glaciations of the Ordovician before it and the extreme heat of the ensuing Devonian; however, it is now known that the global climate underwent many drastic fluctuations throughout the Silurian,[26][27] evidenced by numerous major carbon and oxygen isotope excursions during this geologic period.[28][29][30] Sea levels rose from their Hirnantian low throughout the first half of the Silurian; they subsequently fell throughout the rest of the period, although smaller scale patterns are superimposed on this general trend; fifteen high-stands (periods when sea levels were above the edge of the continental shelf) can be identified, and the highest Silurian sea level was probably around 140 metres (459 ft) higher than the lowest level reached.[25]

During this period, the Earth entered a warm greenhouse phase, supported by high CO2 levels of 4500 ppm, and warm shallow seas covered much of the equatorial land masses.[31] Early in the Silurian, glaciers retreated back into the South Pole until they almost disappeared in the middle of Silurian.[27] Layers of broken shells (called coquina) provide strong evidence of a climate dominated by violent storms generated then as now by warm sea surfaces.[32]

Perturbations

The climate and carbon cycle appear to be rather unsettled during the Silurian, which had a higher frequency of isotopic excursions (indicative of climate fluctuations) than any other period.[25] The Ireviken event, Mulde event and Lau event each represent isotopic excursions following a minor mass extinction[33] and associated with rapid sea-level change. Each one leaves a similar signature in the geological record, both geochemically and biologically; pelagic (free-swimming) organisms were particularly hard hit, as were brachiopods, corals and trilobites, and extinctions rarely occur in a rapid series of fast bursts.[25][30] The climate fluctuations are best explained by a sequence of glaciations, but the lack of tillites in the middle to late Silurian make this explanation problematic.[34]

Flora and fauna

The Silurian was the first period to see megafossils of extensive terrestrial biota in the form of moss-like miniature forests along lakes and streams and networks of large, mycorrhizal nematophytes, heralding the beginning of the Silurian-Devonian Terrestrial Revolution.[12][13][35] However, the land fauna did not have a major impact on the Earth until it diversified in the Devonian.[25]

The first fossil records of vascular plants, that is, land plants with tissues that carry water and food, appeared in the second half of the Silurian Period.[36] The earliest-known representatives of this group are Cooksonia. Most of the sediments containing Cooksonia are marine in nature. Preferred habitats were likely along rivers and streams. Baragwanathia appears to be almost as old, dating to the early Ludlow (420 million years) and has branching stems and needle-like leaves of 10–20 centimetres (3.9–7.9 in). The plant shows a high degree of development in relation to the age of its fossil remains. Fossils of this plant have been recorded in Australia,[37][38] Canada,[39] and China.[40] Eohostimella heathana is an early, probably terrestrial, "plant" known from compression fossils[41] of Early Silurian (Llandovery) age.[42] The chemistry of its fossils is similar to that of fossilised vascular plants, rather than algae.[41]

The earliest-known animals fully adapted to terrestrial conditions appear during the Mid-Silurian, including the millipede Pneumodesmus.[23] Some evidence also suggests the presence of predatory trigonotarbid arachnoids and myriapods in Late Silurian facies.[15] Predatory invertebrates would indicate that simple food webs were in place that included non-predatory prey animals. Extrapolating back from Early Devonian biota, Andrew Jeram et al. in 1990[43] suggested a food web based on as-yet-undiscovered detritivores and grazers on micro-organisms.[44]

The first bony fish, the Osteichthyes, appeared, represented by the Acanthodians covered with bony scales. Fish reached considerable diversity and developed movable jaws, adapted from the supports of the front two or three gill arches. A diverse fauna of eurypterids (sea scorpions)—some of them several meters in length—prowled the shallow Silurian seas of North America; many of their fossils have been found in New York state. Leeches also made their appearance during the Silurian Period. Brachiopods, bryozoa, molluscs, hederelloids, tentaculitoids, crinoids and trilobites were abundant and diverse.[45] Endobiotic symbionts were common in the corals and stromatoporoids.[46][47]

Reef abundance was patchy; sometimes, fossils are frequent, but at other points, are virtually absent from the rock record.[25]

Notes

  1. ^ Jeppsson, L.; Calner, M. (2007). "The Silurian Mulde Event and a scenario for secundo—secundo events". Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 93 (02): 135–154. doi:10.1017/S0263593300000377.
  2. ^ Munnecke, A.; Samtleben, C.; Bickert, T. (2003). "The Ireviken Event in the lower Silurian of Gotland, Sweden-relation to similar Palaeozoic and Proterozoic events". Palaeogeography, Palaeoclimatology, Palaeoecology. 195 (1): 99–124. doi:10.1016/S0031-0182(03)00304-3.
  3. ^ "Chart/Time Scale". www.stratigraphy.org. International Commission on Stratigraphy.
  4. ^ Lucas, Sepncer (6 November 2018). "The GSSP Method of Chronostratigraphy: A Critical Review". Frontiers in Earth Science. 6: 191. Bibcode:2018FrEaS...6..191L. doi:10.3389/feart.2018.00191.
  5. ^ Holland, C. (June 1985). "Series and Stages of the Silurian System" (PDF). Episodes. 8 (2): 101–103. doi:10.18814/epiiugs/1985/v8i2/005. Retrieved 11 December 2020.
  6. ^ Chlupáč, Ivo; Hladil, Jindrich (January 2000). "The global stratotype section and point of the Silurian-Devonian boundary". CFS Courier Forschungsinstitut Senckenberg. Retrieved 7 December 2020.
  7. ^ Haq, B. U.; Schutter, SR (2008). "A Chronology of Paleozoic Sea-Level Changes". Science. 322 (5898): 64–68. Bibcode:2008Sci...322...64H. doi:10.1126/science.1161648. PMID 18832639. S2CID 206514545.
  8. ^ Wells, John (3 April 2008). Longman Pronunciation Dictionary (3rd ed.). Pearson Longman. ISBN 978-1-4058-8118-0.
  9. ^ "Silurian". Dictionary.com Unabridged (Online). n.d.
  10. ^ "Silurian". CollinsDictionary.com. HarperCollins.
  11. ^ "International Chronostratigraphic Chart v.2015/01" (PDF). International Commission on Stratigraphy. January 2015.
  12. ^ a b Capel, Elliot; Cleal, Christopher J.; Xue, Jinzhuang; Monnet, Claude; Servais, Thomas; Cascales-Miñana, Borja (August 2022). "The Silurian–Devonian terrestrial revolution: Diversity patterns and sampling bias of the vascular plant macrofossil record". Earth-Science Reviews. 231: 104085. Bibcode:2022ESRv..23104085C. doi:10.1016/j.earscirev.2022.104085. S2CID 249616013. Retrieved 8 November 2022.
  13. ^ a b Xue, Jinzhuang; Huang, Pu; Wang, Deming; Xiong, Conghui; Liu, Le; Basinger, James F. (May 2018). "Silurian-Devonian terrestrial revolution in South China: Taxonomy, diversity, and character evolution of vascular plants in a paleogeographically isolated, low-latitude region". Earth-Science Reviews. 180: 92–125. doi:10.1016/j.earscirev.2018.03.004. Retrieved 8 December 2022.
  14. ^ Lutzoni, François; Nowak, Michael D.; Alfaro, Michael E.; Reeb, Valérie; Miadlikowska, Jolanta; Krug, Michael; Arnold, A. Elizabeth; Lewis, Louise A.; Swofford, David L.; Hibbett, David; Hilu, Khidir; James, Timothy Y.; Quandt, Dietmar; Magallón, Susana (21 December 2018). "Contemporaneous radiations of fungi and plants linked to symbiosis". Nature Communications. 9: 1–11. doi:10.1038/s41467-018-07849-9. PMID 30575731. S2CID 56645104. Retrieved 7 December 2022.
  15. ^ a b Garwood, Russell J.; Edgecombe, Gregory D. (September 2011). "Early Terrestrial Animals, Evolution, and Uncertainty". Evolution: Education and Outreach. 4 (3): 489–501. doi:10.1007/s12052-011-0357-y.
  16. ^ Brazeau, M. D.; Friedman, M. (2015). "The origin and early phylogenetic history of jawed vertebrates". Nature. 520 (7548): 490–497. Bibcode:2015Natur.520..490B. doi:10.1038/nature14438. PMC 4648279. PMID 25903631.
  17. ^ See:
    • Murchison, Roderick Impey (1835). "On the Silurian system of rocks". Philosophical Magazine. 3rd series. 7 (37): 46–52. doi:10.1080/14786443508648654. From p. 48: " … I venture to suggest, that as the great mass of rocks in question, trending from south-west to north-east, traverses the kingdom of our ancestors the Silures, the term "Silurian system" should be adopted … "
    • Wilmarth, Mary Grace (1925). Bulletin 769: The Geologic Time Classification of the United States Geological Survey Compared With Other Classifications, accompanied by the original definitions of era, period and epoch terms. Washington, D.C., U.S.A.: U.S. Government Printing Office. p. 80.
  18. ^ Sedgwick; Murchison, R.I. (1835). "On the Silurian and Cambrian systems, exhibiting the order in which the older sedimentary strata succeed each other in England and Wales". Report of the Fifth Meeting of the British Association for the Advancement of Science. § Notices and Abstracts of Miscellaneous Communications to the Sections. 5: 59–61.
  19. ^ Lapworth, Charles (1879). "On the tripartite classification of the Lower Palaeozoic rocks". Geological Magazine. 2nd series. 6 (1): 1–15. Bibcode:1879GeoM....6....1L. doi:10.1017/s0016756800156560. S2CID 129165105. From pp. 13–14: "North Wales itself – at all events the whole of the great Bala district where Sedgwick first worked out the physical succession among the rocks of the intermediate or so-called Upper Cambrian or Lower Silurian system; and in all probability much of the Shelve and the Caradoc area, whence Murchison first published its distinctive fossils – lay within the territory of the Ordovices; … Here, then, have we the hint for the appropriate title for the central system of the Lower Palaeozoics. It should be called the Ordovician System, after this old British tribe."
  20. ^ The Gotlandian system was proposed in 1893 by the French geologist Albert Auguste Cochon de Lapparent (1839–1908): Lapparent, A. de (1893). Traité de Géologie (in French). Vol. 2 (3rd ed.). Paris, France: F. Savy. p. 748. From p. 748: "D'accord avec ces divisions, on distingue communément dans le silurien trois étages: l'étage inférieur ou cambrien (1) ; l'étage moyen ou ordovicien (2) ; l'étage supérieur ou gothlandien (3)." (In agreement with these divisions, one generally distinguishes, within the Silurian, three stages: the lower stage or Cambrian [1]; the middle stage or Ordovician [2]; the upper stage or Gotlandian [3].)
  21. ^ Barrande, Joachim (1852). Systême silurien du centre de la Bohême (in French). Paris, France and Prague, (Czech Republic): (Self-published). pp. ix–x.
  22. ^ Forbes, Edward (1854). "Anniversary Address of the President". Quarterly Journal of the Geological Society of London. 10: xxii–lxxxi. See p. xxxiv.
  23. ^ a b Paul Selden & Helen Read (2008). "The oldest land animals: Silurian millipedes from Scotland" (PDF). Bulletin of the British Myriapod & Isopod Group. 23: 36–37.
  24. ^ Manda, Štěpán; Frýda, Jiří (2010). "Silurian-Devonian boundary events and their influence on cephalopod evolution: evolutionary significance of cephalopod egg size during mass extinctions". Bulletin of Geosciences. 85 (3): 513–40. doi:10.3140/bull.geosci.1174.
  25. ^ a b c d e f g Munnecke, Axel; Calner, Mikael; Harper, David A.T.; Servais, Thomas (2010). "Ordovician and Silurian sea–water chemistry, sea level, and climate: A synopsis". Palaeogeography, Palaeoclimatology, Palaeoecology. 296 (3–4): 389–413. Bibcode:2010PPP...296..389M. doi:10.1016/j.palaeo.2010.08.001.
  26. ^ Yan, Guanzhou; Lehnert, Oliver; Männik, Peep; Calner, Mikael; Luan, Xiaocong; Gong, Fanyi; Li, Lixia; Wei, Xin; Wang, Guangxu; Zhan, Renbin; Wu, Rongchang (15 November 2022). "The record of early Silurian climate changes from South China and Baltica based on integrated conodont biostratigraphy and isotope chemostratigraphy". Palaeogeography, Palaeoclimatology, Palaeoecology. 606: 111245. doi:10.1016/j.palaeo.2022.111245. S2CID 252504361. Retrieved 8 December 2022.
  27. ^ a b Gambacorta, G.; Menichetti, E.; Trincianti, E.; Torricelli, S. (March 2019). "The Silurian climatic transition recorded in the epicontinental Baltica Sea". Palaeogeography, Palaeoclimatology, Palaeoecology. 517: 16–29. Bibcode:2019PPP...517...16G. doi:10.1016/j.palaeo.2018.12.016. S2CID 135118794.
  28. ^ Young, Set A.; Benayoun, Emily; Kozik, Nevin P.; Hints, Olle; Martma, Tõnu; Bergström, Stig M.; Owens, Jeremy D. (15 September 2020). "Marine redox variability from Baltica during extinction events in the latest Ordovician–early Silurian". Palaeogeography, Palaeoclimatology, Palaeoecology. 554: 109792. doi:10.1016/j.palaeo.2020.109792. S2CID 218930512. Retrieved 7 December 2022.
  29. ^ Sproson, Adam D. (15 February 2020). "Pacing of the latest Ordovician and Silurian carbon cycle by a ~4.5 Myr orbital cycle". Palaeogeography, Palaeoclimatology, Palaeoecology. 540: 109543. doi:10.1016/j.palaeo.2019.109543. S2CID 213445668. Retrieved 8 December 2022.
  30. ^ a b Trotter, Julie A.; Williams, Ian S.; Barnes, Christopher R.; Männik, Peep; Simpson, Andrew (February 2016). "New conodont δ18O records of Silurian climate change: Implications for environmental and biological events". Palaeogeography, Palaeoclimatology, Palaeoecology. 443: 34–48. Bibcode:2016PPP...443...34T. doi:10.1016/j.palaeo.2015.11.011.
  31. ^ Chaloner, William G. (2003). "The role of carbon dioxide in plant evolution". Evolution on Planet Earth: 65–83. doi:10.1016/B978-012598655-7/50032-X. ISBN 9780125986557.
  32. ^ Nealon, T.; Williams, D. Michael (30 April 2007). "Storm-influenced shelf deposits from the silurian of Western Ireland: A reinterpretation of deep basin sediments". Geological Journal. 23 (4): 311–320. doi:10.1002/gj.3350230403.
  33. ^ Samtleben, C.; Munnecke, A.; Bickert, T. (2000). "Development of facies and C/O-isotopes in transects through the Ludlow of Gotland: Evidence for global and local influences on a shallow-marine environment". Facies. 43: 1–38. doi:10.1007/BF02536983. S2CID 130640332.
  34. ^ Calner, Mikael (2008). "Silurian global events – at the tipping point of climate change". Mass Extinction: 21–57. doi:10.1007/978-3-540-75916-4_4. ISBN 978-3-540-75915-7.
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  38. ^ Lang, W.H.; Cookson, I.C. (1935). "On a flora, including vascular land plants, associated with Monograptus, in rocks of Silurian age, from Victoria, Australia". Philosophical Transactions of the Royal Society of London B. 224 (517): 421–449. Bibcode:1935RSPTB.224..421L. doi:10.1098/rstb.1935.0004.
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  45. ^ Huang, Bing; Jin, Jisuo; Rong, Jia-Yu (15 March 2018). "Post-extinction diversification patterns of brachiopods in the early–middle Llandovery, Silurian". Palaeogeography, Palaeoclimatology, Palaeoecology. 493: 11–19. Bibcode:2018PPP...493...11H. doi:10.1016/j.palaeo.2017.12.025. Retrieved 23 November 2022.
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References

  • Emiliani, Cesare. (1992). Planet Earth : Cosmology, Geology, & the Evolution of Life & the Environment. Cambridge University Press. (Paperback Edition ISBN 0-521-40949-7)
  • Mikulic, DG, DEG Briggs, and J Kluessendorf. 1985. A new exceptionally preserved biota from the Lower Silurian of Wisconsin, USA. Philosophical Transactions of the Royal Society of London, 311B:75-86.
  • Moore, RA; Briggs, DEG; Braddy, SJ; Anderson, LI; Mikulic, DG; Kluessendorf, J (2005). "A new synziphosurine (Chelicerata: Xiphosura) from the Late Llandovery (Silurian) Waukesha Lagerstatte, Wisconsin, USA". Journal of Paleontology. 79 (2): 242–250. doi:10.1666/0022-3360(2005)079<0242:anscxf>2.0.co;2. S2CID 56570105.

External links

 
Wikisource has original works on the topic: Paleozoic#Silurian
 
Wikimedia Commons has media related to Silurian.
  • Silurian
  • UCMP Berkeley: The Silurian
  • Paleoportal: Silurian strata in U.S., state by state
  • "International Commission on Stratigraphy (ICS)". Geologic Time Scale 2004. Retrieved September 19, 2005.
  • Examples of Silurian Fossils
  • GeoWhen Database for the Silurian
  • Silurian (Chronostratography scale)

January 24, 2023
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Not to be confused with Silurian Doctor Who For other uses see Silurian disambiguation The Silurian s ɪ ˈ lj ʊer i en s aɪ sih LYOOR ee en sy 8 9 10 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 11 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 Silurian443 8 1 5 419 2 3 2 Ma PreꞒ Ꞓ O S D C P T J K Pg NPlate tectonics of Earth during the early SilurianChronology 444 442 440 438 436 434 432 430 428 426 424 422 420 418 PaleozoicOrdovicianSilurianDevonianLlandoveryWenlockLudlowPridoliRhuddanianAeronianTelychianSheinwoodianHomerianGorstianLudfordian Lau event Mulde event 1 Ireviken event 2 Subdivision of the Silurian according to the ICS as of 2021 3 Vertical axis scale millions of years ago EtymologyName formalityFormalSynonym s GotlandianUsage informationCelestial bodyEarthRegional usageGlobal ICS Time scale s usedICS Time ScaleDefinitionChronological unitPeriodStratigraphic unitSystemFirst proposed byRoderick Murchison 1835Time span formalityFormalLower boundary definitionFAD of the Graptolite Akidograptus ascensusLower boundary GSSPDob s Linn Moffat UK55 26 24 N 3 16 12 W 55 4400 N 3 2700 W 55 4400 3 2700Lower GSSP ratified1984 4 5 Upper boundary definitionFAD of the Graptolite Monograptus uniformisUpper boundary GSSPKlonk Czech Republic49 51 18 N 13 47 31 E 49 8550 N 13 7920 E 49 8550 13 7920Upper GSSP ratified1972 6 Atmospheric and climatic dataSea level above present dayAround 180 m with short term negative excursions 7 One important event in this period was the initial establishment of terrestrial life in what is known as the Silurian Devonian Terrestrial Revolution vascular plants emerged from more primitive land plants 12 13 dikaryan fungi started expanding and diversifying along with glomeromycotan fungi 14 and three groups of arthropods myriapods arachnids and hexapods became fully terrestrialized 15 A significant evolutionary milestone during the Silurian was the diversification of jawed fish and bony fish 16 Contents 1 History of study 2 Subdivisions 3 Paleogeography 4 Climate and sea level 4 1 Perturbations 5 Flora and fauna 6 Notes 7 References 8 External linksHistory of study EditThe Silurian system was first identified by British geologist Roderick Murchison who was examining fossil bearing sedimentary rock strata in south Wales in the early 1830s He named the sequences for a Celtic tribe of Wales the Silures inspired by his friend Adam Sedgwick who had named the period of his study the Cambrian from the Latin name for Wales 17 This naming does not indicate any correlation between the occurrence of the Silurian rocks and the land inhabited by the Silures cf Geologic map of Wales Map of pre Roman tribes of Wales In 1835 the two men presented a joint paper under the title On the Silurian and Cambrian Systems Exhibiting the Order in which the Older Sedimentary Strata Succeed each other in England and Wales which was the germ of the modern geological time scale 18 As it was first identified the Silurian series when traced farther afield quickly came to overlap Sedgwick s Cambrian sequence however provoking furious disagreements that ended the friendship Charles Lapworth resolved the conflict by defining a new Ordovician system including the contested beds 19 An alternative name for the Silurian was Gotlandian after the strata of the Baltic island of Gotland 20 The French geologist Joachim Barrande building on Murchison s work used the term Silurian in a more comprehensive sense than was justified by subsequent knowledge He divided the Silurian rocks of Bohemia into eight stages 21 His interpretation was questioned in 1854 by Edward Forbes 22 and the later stages of Barrande F G and H have since been shown to be Devonian Despite these modifications in the original groupings of the strata it is recognized that Barrande established Bohemia as a classic ground for the study of the earliest Silurian fossils Subdivisions EditSubdivisions of the Silurian period Epoch Age Start mya Etymology ofEpochs and Stages NotesLlandovery Rhuddanian 443 8 Cefn Rhuddan Farm Llandovery in Carmarthenshire WalesAeronian 440 8 Cwm Coed Aeron Farm Wales Trefawr Track near the farm is the site of the GSSPTelychian 438 5 Pen lan Telych Farm Llandovery WalesWenlock Sheinwoodian 433 4 Sheinwood village Much Wenlock and Wenlock Edge Shropshire England During the Wenlock the oldest known tracheophytes of the genus Cooksonia appear The complexity of slightly later Gondwana plants like Baragwanathia which resembled a modern clubmoss indicates a much longer history for vascular plants extending into the early Silurian or even Ordovician citation needed The first terrestrial animals also appear in the Wenlock represented by air breathing millipedes from Scotland 23 Homerian 430 5 Homer Shropshire EnglandLudlow Gorstian 427 4 Gorsty village near Ludlow Shropshire EnglandLudfordian 425 6 Ludford Shropshire EnglandPridoli 423 0 Named after a locality at the Homolka a Pridoli nature reserve near the Prague suburb of Slivenec Czech Republic Pridoli is the old name of a cadastral field area 24 Paleogeography Edit Ordovician Silurian boundary on Hovedoya Norway showing brownish late Ordovician mudstone and later dark deep water Silurian shale The layers have been overturned by the Caledonian orogeny With the supercontinent Gondwana covering the equator and much of the southern hemisphere a large ocean occupied most of the northern half of the globe 25 The high sea levels of the Silurian and the relatively flat land with few significant mountain belts resulted in a number of island chains and thus a rich diversity of environmental settings 25 During the Silurian Gondwana continued a slow southward drift to high southern latitudes but there is evidence that the Silurian icecaps were less extensive than those of the late Ordovician glaciation The southern continents remained united during this period The melting of icecaps and glaciers contributed to a rise in sea level recognizable from the fact that Silurian sediments overlie eroded Ordovician sediments forming an unconformity The continents of Avalonia Baltica and Laurentia drifted together near the equator starting the formation of a second supercontinent known as Euramerica When the proto Europe collided with North America the collision folded coastal sediments that had been accumulating since the Cambrian off the east coast of North America and the west coast of Europe This event is the Caledonian orogeny a spate of mountain building that stretched from New York State through conjoined Europe and Greenland to Norway At the end of the Silurian sea levels dropped again leaving telltale basins of evaporites extending from Michigan to West Virginia and the new mountain ranges were rapidly eroded The Teays River flowing into the shallow mid continental sea eroded Ordovician Period strata forming deposits of Silurian strata in northern Ohio and Indiana The vast ocean of Panthalassa covered most of the northern hemisphere Other minor oceans include two phases of the Tethys the Proto Tethys and Paleo Tethys the Rheic Ocean the Iapetus Ocean a narrow seaway between Avalonia and Laurentia and the newly formed Ural Ocean Fossils of the late Silurian sea bedClimate and sea level EditThe Silurian period was once believed to have enjoyed relatively stable and warm temperatures in contrast with the extreme glaciations of the Ordovician before it and the extreme heat of the ensuing Devonian however it is now known that the global climate underwent many drastic fluctuations throughout the Silurian 26 27 evidenced by numerous major carbon and oxygen isotope excursions during this geologic period 28 29 30 Sea levels rose from their Hirnantian low throughout the first half of the Silurian they subsequently fell throughout the rest of the period although smaller scale patterns are superimposed on this general trend fifteen high stands periods when sea levels were above the edge of the continental shelf can be identified and the highest Silurian sea level was probably around 140 metres 459 ft higher than the lowest level reached 25 During this period the Earth entered a warm greenhouse phase supported by high CO2 levels of 4500 ppm and warm shallow seas covered much of the equatorial land masses 31 Early in the Silurian glaciers retreated back into the South Pole until they almost disappeared in the middle of Silurian 27 Layers of broken shells called coquina provide strong evidence of a climate dominated by violent storms generated then as now by warm sea surfaces 32 Perturbations Edit The climate and carbon cycle appear to be rather unsettled during the Silurian which had a higher frequency of isotopic excursions indicative of climate fluctuations than any other period 25 The Ireviken event Mulde event and Lau event each represent isotopic excursions following a minor mass extinction 33 and associated with rapid sea level change Each one leaves a similar signature in the geological record both geochemically and biologically pelagic free swimming organisms were particularly hard hit as were brachiopods corals and trilobites and extinctions rarely occur in a rapid series of fast bursts 25 30 The climate fluctuations are best explained by a sequence of glaciations but the lack of tillites in the middle to late Silurian make this explanation problematic 34 Flora and fauna EditThe Silurian was the first period to see megafossils of extensive terrestrial biota in the form of moss like miniature forests along lakes and streams and networks of large mycorrhizal nematophytes heralding the beginning of the Silurian Devonian Terrestrial Revolution 12 13 35 However the land fauna did not have a major impact on the Earth until it diversified in the Devonian 25 The first fossil records of vascular plants that is land plants with tissues that carry water and food appeared in the second half of the Silurian Period 36 The earliest known representatives of this group are Cooksonia Most of the sediments containing Cooksonia are marine in nature Preferred habitats were likely along rivers and streams Baragwanathia appears to be almost as old dating to the early Ludlow 420 million years and has branching stems and needle like leaves of 10 20 centimetres 3 9 7 9 in The plant shows a high degree of development in relation to the age of its fossil remains Fossils of this plant have been recorded in Australia 37 38 Canada 39 and China 40 Eohostimella heathana is an early probably terrestrial plant known from compression fossils 41 of Early Silurian Llandovery age 42 The chemistry of its fossils is similar to that of fossilised vascular plants rather than algae 41 The earliest known animals fully adapted to terrestrial conditions appear during the Mid Silurian including the millipede Pneumodesmus 23 Some evidence also suggests the presence of predatory trigonotarbid arachnoids and myriapods in Late Silurian facies 15 Predatory invertebrates would indicate that simple food webs were in place that included non predatory prey animals Extrapolating back from Early Devonian biota Andrew Jeram et al in 1990 43 suggested a food web based on as yet undiscovered detritivores and grazers on micro organisms 44 The first bony fish the Osteichthyes appeared represented by the Acanthodians covered with bony scales Fish reached considerable diversity and developed movable jaws adapted from the supports of the front two or three gill arches A diverse fauna of eurypterids sea scorpions some of them several meters in length prowled the shallow Silurian seas of North America many of their fossils have been found in New York state Leeches also made their appearance during the Silurian Period Brachiopods bryozoa molluscs hederelloids tentaculitoids crinoids and trilobites were abundant and diverse 45 Endobiotic symbionts were common in the corals and stromatoporoids 46 47 Reef abundance was patchy sometimes fossils are frequent but at other points are virtually absent from the rock record 25 Cooksonia the earliest vascular plant middle Silurian Silurian sea bed fossils collected from Wren s Nest Nature Reserve Dudley UK Crinoid fragments in a Silurian Pridoli limestone Saaremaa Estonia Silurian sea bed fossils collected from Wren s Nest Nature Reserve Dudley UK Eurypterus a common Upper Silurian eurypterid Poraspis a genus of armored jawless fish from the Late Silurian of Canada Norway and the U S Trilobites were still diverse and common in the Silurian Fossils of Calymene celebra are extremely abundant in parts of central USA Halysites was a Tabulate coral an extinct group that lived through the Paleozoic Parioscorpio was an enigmatic arthropod from the Silurian of Wisconsin A Dalmanites limulurus specimen from Silurian strata of New York A rock containing several geodized pentamerid brachiopods from strata in Indiana Entelognathus primordialis was a Placoderm fish from the late Silurian Qianodus 48 is a tooth based chondrichthyan genus from the early Silurian Aeronian of China Fanjingshania climatiid spiny shark from the lower Silurian Aeronian described from disarticulated dermoskeletal elements Jamoytius was an enigmatic vertebrate that is possibly related to Anaspid fish Pterygotus was a giant eurypterid that had a nearly cosmopolitan distribution Sphooceras was a Nautiloid cephalopod found in Silurian strata of the Czech RepublicNotes Edit Jeppsson L Calner M 2007 The Silurian Mulde Event and a scenario for secundo secundo events Earth and Environmental Science Transactions of the Royal Society of Edinburgh 93 02 135 154 doi 10 1017 S0263593300000377 Munnecke A Samtleben C Bickert T 2003 The Ireviken Event in the lower Silurian of Gotland Sweden relation to similar Palaeozoic and Proterozoic events Palaeogeography Palaeoclimatology Palaeoecology 195 1 99 124 doi 10 1016 S0031 0182 03 00304 3 Chart Time Scale www stratigraphy org International Commission on Stratigraphy Lucas Sepncer 6 November 2018 The GSSP Method of Chronostratigraphy A Critical Review Frontiers in Earth Science 6 191 Bibcode 2018FrEaS 6 191L doi 10 3389 feart 2018 00191 Holland C June 1985 Series and Stages of the Silurian System PDF Episodes 8 2 101 103 doi 10 18814 epiiugs 1985 v8i2 005 Retrieved 11 December 2020 Chlupac Ivo Hladil Jindrich January 2000 The global stratotype section and point of the Silurian Devonian boundary CFS Courier Forschungsinstitut Senckenberg Retrieved 7 December 2020 Haq B U Schutter SR 2008 A Chronology of Paleozoic Sea Level Changes Science 322 5898 64 68 Bibcode 2008Sci 322 64H doi 10 1126 science 1161648 PMID 18832639 S2CID 206514545 Wells John 3 April 2008 Longman Pronunciation Dictionary 3rd ed Pearson Longman ISBN 978 1 4058 8118 0 Silurian Dictionary com Unabridged Online n d Silurian CollinsDictionary com HarperCollins International Chronostratigraphic Chart v 2015 01 PDF International Commission on Stratigraphy January 2015 a b Capel Elliot Cleal Christopher J Xue Jinzhuang Monnet Claude Servais Thomas Cascales Minana Borja August 2022 The Silurian Devonian terrestrial revolution Diversity patterns and sampling bias of the vascular plant macrofossil record Earth Science Reviews 231 104085 Bibcode 2022ESRv 23104085C doi 10 1016 j earscirev 2022 104085 S2CID 249616013 Retrieved 8 November 2022 a b Xue Jinzhuang Huang Pu Wang Deming Xiong Conghui Liu Le Basinger James F May 2018 Silurian Devonian terrestrial revolution in South China Taxonomy diversity and character evolution of vascular plants in a paleogeographically isolated low latitude region Earth Science Reviews 180 92 125 doi 10 1016 j earscirev 2018 03 004 Retrieved 8 December 2022 Lutzoni Francois Nowak Michael D Alfaro Michael E Reeb Valerie Miadlikowska Jolanta Krug Michael Arnold A Elizabeth Lewis Louise A Swofford David L Hibbett David Hilu Khidir James Timothy Y Quandt Dietmar Magallon Susana 21 December 2018 Contemporaneous radiations of fungi and plants linked to symbiosis Nature Communications 9 1 11 doi 10 1038 s41467 018 07849 9 PMID 30575731 S2CID 56645104 Retrieved 7 December 2022 a b Garwood Russell J Edgecombe Gregory D September 2011 Early Terrestrial Animals Evolution and Uncertainty Evolution Education and Outreach 4 3 489 501 doi 10 1007 s12052 011 0357 y Brazeau M D Friedman M 2015 The origin and early phylogenetic history of jawed vertebrates Nature 520 7548 490 497 Bibcode 2015Natur 520 490B doi 10 1038 nature14438 PMC 4648279 PMID 25903631 See Murchison Roderick Impey 1835 On the Silurian system of rocks Philosophical Magazine 3rd series 7 37 46 52 doi 10 1080 14786443508648654 From p 48 I venture to suggest that as the great mass of rocks in question trending from south west to north east traverses the kingdom of our ancestors the Silures the term Silurian system should be adopted Wilmarth Mary Grace 1925 Bulletin 769 The Geologic Time Classification of the United States Geological Survey Compared With Other Classifications accompanied by the original definitions of era period and epoch terms Washington D C U S A U S Government Printing Office p 80 Sedgwick Murchison R I 1835 On the Silurian and Cambrian systems exhibiting the order in which the older sedimentary strata succeed each other in England and Wales Report of the Fifth Meeting of the British Association for the Advancement of Science Notices and Abstracts of Miscellaneous Communications to the Sections 5 59 61 Lapworth Charles 1879 On the tripartite classification of the Lower Palaeozoic rocks Geological Magazine 2nd series 6 1 1 15 Bibcode 1879GeoM 6 1L doi 10 1017 s0016756800156560 S2CID 129165105 From pp 13 14 North Wales itself at all events the whole of the great Bala district where Sedgwick first worked out the physical succession among the rocks of the intermediate or so called Upper Cambrian or Lower Silurian system and in all probability much of the Shelve and the Caradoc area whence Murchison first published its distinctive fossils lay within the territory of the Ordovices Here then have we the hint for the appropriate title for the central system of the Lower Palaeozoics It should be called the Ordovician System after this old British tribe The Gotlandian system was proposed in 1893 by the French geologist Albert Auguste Cochon de Lapparent 1839 1908 Lapparent A de 1893 Traite de Geologie in French Vol 2 3rd ed Paris France F Savy p 748 From p 748 D accord avec ces divisions on distingue communement dans le silurien trois etages l etage inferieur oucambrien 1 l etage moyen ouordovicien 2 l etage superieur ougothlandien 3 In agreement with these divisions one generally distinguishes within the Silurian three stages the lower stage or Cambrian 1 the middle stage or Ordovician 2 the upper stage or Gotlandian 3 Barrande Joachim 1852 Systeme silurien du centre de la Boheme in French Paris France and Prague Czech Republic Self published pp ix x Forbes Edward 1854 Anniversary Address of the President Quarterly Journal of the Geological Society of London 10 xxii lxxxi See p xxxiv a b Paul Selden amp Helen Read 2008 The oldest land animals Silurian millipedes from Scotland PDF Bulletin of the British Myriapod amp Isopod Group 23 36 37 Manda Stepan Fryda Jiri 2010 Silurian Devonian boundary events and their influence on cephalopod evolution evolutionary significance of cephalopod egg size during mass extinctions Bulletin of Geosciences 85 3 513 40 doi 10 3140 bull geosci 1174 a b c d e f g Munnecke Axel Calner Mikael Harper David A T Servais Thomas 2010 Ordovician and Silurian sea water chemistry sea level and climate A synopsis Palaeogeography Palaeoclimatology Palaeoecology 296 3 4 389 413 Bibcode 2010PPP 296 389M doi 10 1016 j palaeo 2010 08 001 Yan Guanzhou Lehnert Oliver Mannik Peep Calner Mikael Luan Xiaocong Gong Fanyi Li Lixia Wei Xin Wang Guangxu Zhan Renbin Wu Rongchang 15 November 2022 The record of early Silurian climate changes from South China and Baltica based on integrated conodont biostratigraphy and isotope chemostratigraphy Palaeogeography Palaeoclimatology Palaeoecology 606 111245 doi 10 1016 j palaeo 2022 111245 S2CID 252504361 Retrieved 8 December 2022 a b Gambacorta G Menichetti E Trincianti E Torricelli S March 2019 The Silurian climatic transition recorded in the epicontinental Baltica Sea Palaeogeography Palaeoclimatology Palaeoecology 517 16 29 Bibcode 2019PPP 517 16G doi 10 1016 j palaeo 2018 12 016 S2CID 135118794 Young Set A Benayoun Emily Kozik Nevin P Hints Olle Martma Tonu Bergstrom Stig M Owens Jeremy D 15 September 2020 Marine redox variability from Baltica during extinction events in the latest Ordovician early Silurian Palaeogeography Palaeoclimatology Palaeoecology 554 109792 doi 10 1016 j palaeo 2020 109792 S2CID 218930512 Retrieved 7 December 2022 Sproson Adam D 15 February 2020 Pacing of the latest Ordovician and Silurian carbon cycle by a 4 5 Myr orbital cycle Palaeogeography Palaeoclimatology Palaeoecology 540 109543 doi 10 1016 j palaeo 2019 109543 S2CID 213445668 Retrieved 8 December 2022 a b Trotter Julie A Williams Ian S Barnes Christopher R Mannik Peep Simpson Andrew February 2016 New conodont d18O records of Silurian climate change Implications for environmental and biological events Palaeogeography Palaeoclimatology Palaeoecology 443 34 48 Bibcode 2016PPP 443 34T doi 10 1016 j palaeo 2015 11 011 Chaloner William G 2003 The role of carbon dioxide in plant evolution Evolution on Planet Earth 65 83 doi 10 1016 B978 012598655 7 50032 X ISBN 9780125986557 Nealon T Williams D Michael 30 April 2007 Storm influenced shelf deposits from the silurian of Western Ireland A reinterpretation of deep basin sediments Geological Journal 23 4 311 320 doi 10 1002 gj 3350230403 Samtleben C Munnecke A Bickert T 2000 Development of facies and C O isotopes in transects through the Ludlow of Gotland Evidence for global and local influences on a shallow marine environment Facies 43 1 38 doi 10 1007 BF02536983 S2CID 130640332 Calner Mikael 2008 Silurian global events at the tipping point of climate change Mass Extinction 21 57 doi 10 1007 978 3 540 75916 4 4 ISBN 978 3 540 75915 7 Retallack Gregory J June 2022 Ordovician Devonian lichen canopies before evolution of woody trees Gondwana Research 106 211 223 Bibcode 2022GondR 106 211R doi 10 1016 j gr 2022 01 010 S2CID 246320087 Retrieved 23 November 2022 Rittner Don 2009 Encyclopedia of Biology Infobase Publishing p 338 ISBN 9781438109992 Rickards R B 1 March 2000 The age of the earliest club mosses the Silurian Baragwanathia flora in Victoria Australia Geological Magazine 137 2 207 209 doi 10 1017 S0016756800003800 S2CID 131287538 Retrieved 8 December 2022 Lang W H Cookson I C 1935 On a flora including vascular land plants associated with Monograptus in rocks of Silurian age from Victoria Australia Philosophical Transactions of the Royal Society of London B 224 517 421 449 Bibcode 1935RSPTB 224 421L doi 10 1098 rstb 1935 0004 Hueber F M 1983 A new species of Baragwanathia from the Sextant Formation Emsian Northern Ontario Canada Botanical Journal of the Linnean Society 86 1 2 57 79 doi 10 1111 j 1095 8339 1983 tb00717 x Bora Lily 2010 Principles of Paleobotany Mittal Publications pp 36 37 a b Niklas Karl J 1976 Chemical Examinations of Some Non Vascular Paleozoic Plants Brittonia 28 1 113 137 doi 10 2307 2805564 JSTOR 2805564 S2CID 21794174 Edwards D amp Wellman C 2001 Embryophytes on Land The Ordovician to Lochkovian Lower Devonian Record in Gensel P amp Edwards D eds Plants Invade the Land Evolutionary and Environmental Perspectives New York Columbia University Press pp 3 28 ISBN 978 0 231 11161 4 p 4 Jeram Andrew J Selden Paul A Edwards Dianne 1990 Land Animals in the Silurian Arachnids and Myriapods from Shropshire England Science 250 4981 658 61 Bibcode 1990Sci 250 658J doi 10 1126 science 250 4981 658 PMID 17810866 DiMichele William A Hook Robert W 1992 The Silurian In Behrensmeyer Anna K ed Terrestrial Ecosystems Through Time Evolutionary Paleoecology of Terrestrial Plants and Animals pp 207 10 ISBN 978 0 226 04155 1 Huang Bing Jin Jisuo Rong Jia Yu 15 March 2018 Post extinction diversification patterns of brachiopods in the early middle Llandovery Silurian Palaeogeography Palaeoclimatology Palaeoecology 493 11 19 Bibcode 2018PPP 493 11H doi 10 1016 j palaeo 2017 12 025 Retrieved 23 November 2022 Vinn O wilson M A Motus M A 2014 Symbiotic endobiont biofacies in the Silurian of Baltica Palaeogeography Palaeoclimatology Palaeoecology 404 24 29 Bibcode 2014PPP 404 24V doi 10 1016 j palaeo 2014 03 041 Retrieved 2014 06 11 Vinn O Motus M A 2008 The earliest endosymbiotic mineralized tubeworms from the Silurian of Podolia Ukraine Journal of Paleontology 82 2 409 414 doi 10 1666 07 056 1 S2CID 131651974 Retrieved 2014 06 11 Andreev Plamen S Sansom Ivan J Li Qiang Zhao Wenjin Wang Jianhua Wang Chun Chieh Peng Lijian Jia Liantao Qiao Tuo Zhu Min September 2022 The oldest gnathostome teeth Nature 609 7929 964 968 Bibcode 2022Natur 609 964A doi 10 1038 s41586 022 05166 2 ISSN 1476 4687 PMID 36171375 S2CID 252569771 References EditEmiliani Cesare 1992 Planet Earth Cosmology Geology amp the Evolution of Life amp the Environment Cambridge University Press Paperback Edition ISBN 0 521 40949 7 Mikulic DG DEG Briggs and J Kluessendorf 1985 A new exceptionally preserved biota from the Lower Silurian of Wisconsin USA Philosophical Transactions of the Royal Society of London 311B 75 86 Moore RA Briggs DEG Braddy SJ Anderson LI Mikulic DG Kluessendorf J 2005 A new synziphosurine Chelicerata Xiphosura from the Late Llandovery Silurian Waukesha Lagerstatte Wisconsin USA Journal of Paleontology 79 2 242 250 doi 10 1666 0022 3360 2005 079 lt 0242 anscxf gt 2 0 co 2 S2CID 56570105 External links Edit Wikisource has original works on the topic Paleozoic Silurian Wikimedia Commons has media related to Silurian Ogg Jim June 2004 Overview of Global Boundary Stratotype Sections and Points GSSP s Palaeos Silurian UCMP Berkeley The Silurian Paleoportal Silurian strata in U S state by state USGS Silurian and Devonian Rocks U S International Commission on Stratigraphy ICS Geologic Time Scale 2004 Retrieved September 19 2005 Examples of Silurian Fossils GeoWhen Database for the Silurian Silurian Chronostratography scale Retrieved from https en wikipedia org w index php title Silurian amp oldid 1132663758, wikipedia, wiki, book, books, library,

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