Misplaced Pages

Adeyton Group

Article snapshot taken from Wikipedia with creative commons attribution-sharealike license. Give it a read and then ask your questions in the chat. We can research this topic together.
#526473

59-699: Adeyton Group is a Cambrian stratigraphic group cropping out in Newfoundland . This article about a specific stratigraphic formation in Canada is a stub . You can help Misplaced Pages by expanding it . Cambrian The Cambrian ( / ˈ k æ m b r i . ə n , ˈ k eɪ m -/ KAM -bree-ən, KAYM - ) is the first geological period of the Paleozoic Era, and the Phanerozoic Eon . The Cambrian lasted 53.4 million years from

118-465: A GSSP, but it is expected to be defined in strata marking the first appearance of trilobites in Gondwana . There was a rapid diversification of metazoans during this epoch, but their restricted geographic distribution, particularly of the trilobites and archaeocyaths , have made global correlations difficult, hence ongoing efforts to establish a GSSP. The Miaolingian is the third series/epoch of

177-717: A new geological period: the Ordovician . He resolved the long running " Highlands Controversy . Lapworth received numerous awards for his research work, while for teaching he used the English Midlands as a setting for demonstrating the fieldwork techniques he had pioneered in his own research. Following his researches in the Southern Uplands Charles Lapworth also devoted time to mapping near Durness in Scotland's northwest highlands and

236-638: A profound change in life on Earth ; prior to the Period, the majority of living organisms were small, unicellular and poorly preserved. Complex, multicellular organisms gradually became more common during the Ediacaran, but it was not until the Cambrian that the rapid diversification of lifeforms, known as the Cambrian explosion , produced the first representatives of most modern animal phyla . The Period

295-625: A renowned chemist and Herbert a civil engineer, engineering geologist, stratigrapher and palaeontologist. Lapworth received many awards for his work and contributions to geology. In June 1888 he was elected a Fellow of the Royal Society and in 1891 was awarded their Royal Medal . In 1899, he received the highest award of the Geological Society of London , the Wollaston Medal , in recognition of his outstanding work in

354-655: A sequence exposed at Dob's Linn , Lapworth showed that what was thought to be a thick sequence of Silurian rocks was in fact a much thinner series of rocks repeated by faulting and folding. He completed this pioneering research in the Southern Uplands while employed as a schoolmaster for 11 years at the Episcopal Church school, Galashiels. He then studied geology and became in 1875 an assistant at Madras College in St Andrews, Fife, and then in 1881

413-517: A sliver of continental terrane rifted from Laurentia with the narrow Taconic seaway opening between them. The remains of this terrane are now found in southern Scotland, Ireland, and Newfoundland. Intra-oceanic subduction either to the southeast of this terrane in the Iapetus, or to its northwest in the Taconic seaway, resulted in the formation of an island arc . This accreted to the terrane in

472-558: A subduction zone was closing the narrow seaway between the North West Kunlun region of Tarim and the South West Kunlun terrane. North China lay at equatorial to tropical latitudes during the early Cambrian, although its exact position is unknown. Much of the craton was covered by shallow seas, with land in the northwest and southeast. Northern North China was a passive margin until the onset of subduction and

531-455: Is also unique in its unusually high proportion of lagerstätte deposits, sites of exceptional preservation where "soft" parts of organisms are preserved as well as their more resistant shells. By the end of the Cambrian, myriapods , arachnids , and hexapods started adapting to the land, along with the first plants . The term Cambrian is derived from the Latin version of Cymru ,

590-441: Is characterised by complex, sediment-penetrating Phanerozoic-type trace fossils , and its upper part by small shelly fossils. The second series/epoch of the Cambrian is currently unnamed and known as Cambrian Series 2 . It lasted from c. 521 Ma to c. 509 Ma. Its two stages are also unnamed and known as Cambrian Stage 3 , c. 521 Ma to c. 514 Ma, and Cambrian Stage 4 , c. 514 Ma to c. 509 Ma. The base of Series 2 does not yet have

649-649: The Altai-Sayan terranes. Some models show a convergent plate margin extending from Greater Avalonia, through the Timanide margin of Baltica, forming the Kipchak island arc offshore of southeastern Siberia and curving round to become part of the Altai-Sayan convergent margin. Along the then western margin, Late Neoproterozoic to early Cambrian rifting was followed by the development of a passive margin. To

SECTION 10

#1732797786527

708-587: The Arequipa-Antofalla block united with the South American sector of Gondwana in the early Cambrian. The Kuunga Orogeny between northern ( Congo Craton , Madagascar and India ) and southern Gondwana ( Kalahari Craton and East Antarctica ), which began c. 570 Ma, continued with parts of northern Gondwana over-riding southern Gondwana and was accompanied by metamorphism and the intrusion of granites . Subduction zones , active since

767-553: The Jiangshanian c. 494 Ma to c. 489.5 Ma, which have defined GSSPs; and the unnamed Cambrian Stage 10 , c. 489.5 Ma to 485.4 ± 1.9 Ma. The GSSP for the Cambrian–Ordovician boundary is at Green Point , western Newfoundland , Canada, and is dated at 485.4 Ma. It is defined by the appearance of the conodont Iapetognathus fluctivagus . Where these conodonts are not found the appearance of planktonic graptolites or

826-626: The continental flood basalts of the Kalkarindji large igneous province (LIP) began to erupt. These covered an area of > 2.1 × 10 km across northern, central and Western Australia regions of Gondwana making it one of the largest, as well as the earliest, LIPs of the Phanerozoic. The timing of the eruptions suggests they played a role in the early to middle Cambrian mass extinction . The terranes of Ganderia , East and West Avalonia , Carolinia and Meguma lay in polar regions during

885-568: The trilobite Jujuyaspis borealis can be used. The boundary also corresponds with the peak of the largest positive variation in the δ C curve during the boundary time interval and with a global marine transgression. Major meteorite impact structures include: the early Cambrian (c. 535 Ma) Neugrund crater in the Gulf of Finland , Estonia, a complex meteorite crater about 20 km in diameter, with two inner ridges of about 7 km and 6 km diameter, and an outer ridge of 8 km that formed as

944-701: The 19 km diameter Glikson crater (c. 508 Ma) in Western Australia; the 5 km diameter Mizarai crater (500±10 Ma) in Lithuania; and the 3.2 km diameter Newporte structure (c. 500 Ma or slightly younger) in North Dakota , U.S.A. Reconstructing the position of the continents during the Cambrian is based on palaeomagnetic , palaeobiogeographic , tectonic , geological and palaeoclimatic data. However, these have different levels of uncertainty and can produce contradictory locations for

1003-550: The Amazonia region of Gondwana with a narrow Iapetus Ocean that only began to open once Gondwana was fully assembled c. 520 Ma. Those not in favour of the existence of Pannotia show the Iapetus opening during the Late Neoproterozoic, with up to c. 6,500 km (c. 4038 miles) between Laurentia and West Gondwana at the beginning of the Cambrian. Of the smaller continents, Baltica lay between Laurentia and Gondwana,

1062-516: The Cambrian and Early Ordovician. Gondwana was a massive continent, three times the size of any of the other Cambrian continents. Its continental land area extended from the south pole to north of the equator. Around it were extensive shallow seas and numerous smaller land areas. The cratons that formed Gondwana came together during the Neoproterozoic to early Cambrian. A narrow ocean separated Amazonia from Gondwana until c. 530 Ma and

1121-540: The Cambrian, Laurentia lay across or close to the equator.  It drifted south and rotated c. 20° anticlockwise during the middle Cambrian, before drifting north again in the late Cambrian. After the Late Neoproterozoic (or mid-Cambrian) rifting of Laurentia from Gondwana and the subsequent opening of the Iapetus Ocean, Laurentia was largely surrounded by passive margins with much of the continent covered by shallow seas. As Laurentia separated from Gondwana,

1180-738: The Cambrian, lasting from c. 509 Ma to c. 497 Ma, and roughly identical to the middle Cambrian in older literature [1] . It is divided into three stages: the Wuliuan c. 509 Ma to 504.5 Ma; the Drumian c. 504.5 Ma to c. 500.5 Ma; and the Guzhangian c. 500.5 Ma to c. 497 Ma. The name replaces Cambrian Series 3 and was ratified by the IUGS in 2018. It is named after the Miaoling Mountains in southeastern Guizhou Province , South China, where

1239-998: The Carboniferous rocks between Nuneaton and Atherstone, and suggesting a pre-Cambrian date for the Longmyndian rocks that underlay them. He extrapolated these findings to the N.W. Highlands of Scotland, suggesting that the Torridonian sandstone might correspond to the Longmyndian rocks, and thus be pre-Cambrian rather than Cambrian, and that the Durness-Eriboll series, overlaying the Torridonian, would be of Cambrian age rather than Silurian. Again Peach and Horne, surveying in Dundonnell Forest , confirmed Lapworths's suggestion, finding Olenelloid fossils in

SECTION 20

#1732797786527

1298-544: The Ediacaran Timanian Orogeny was coming to an end. In this region the early to middle Cambrian was a time of non-deposition and followed by late Cambrian rifting and sedimentation. Its southeastern margin was also a convergent boundary , with the accretion of island arcs and microcontinents to the craton, although the details are unclear. Siberia began the Cambrian close to western Gondwana and north of Baltica. It drifted northwestwards to close to

1357-584: The GSSP marking its base is found. This is defined by the first appearance of the oryctocephalid trilobite Oryctocephalus indicus . Secondary markers for the base of the Miaolingian include the appearance of many acritarchs forms, a global marine transgression , and the disappearance of the polymerid trilobites, Bathynotus or Ovatoryctocara. Unlike the Terreneuvian and Series 2, all the stages of

1416-609: The ICS ratify rock units based on a Global Boundary Stratotype Section and Point (GSSP) from a single formation (a stratotype ) identifying the lower boundary of the unit. Currently the boundaries of the Cambrian System, three series and six stages are defined by global stratotype sections and points. The lower boundary of the Cambrian was originally held to represent the first appearance of complex life, represented by trilobites . The recognition of small shelly fossils before

1475-475: The Iapetus and from Gondwana by the Ran Ocean. It was composed of two continents, Fennoscandia and Sarmatia , separated by shallow seas. The sediments deposited in these unconformably overlay Precambrian basement rocks. The lack of coarse-grained sediments indicates low lying topography across the centre of the craton. Along Baltica's northeastern margin subduction and arc magmatism associated with

1534-419: The Miaolingian are defined by GSSPs . The olenellids , eodiscids , and most redlichiids trilobites went extinct at the boundary between Series 2 and the Miaolingian. This is considered the oldest mass extinction of trilobites. The Furongian , c. 497 Ma to 485.4 ± 1.9 Ma, is the fourth and uppermost series/epoch of the Cambrian. The name was ratified by the IUGS in 2003 and replaces Cambrian Series 4 and

1593-423: The Neoproterozoic, extended around much of Gondwana's margins, from northwest Africa southwards round South America, South Africa , East Antarctica , and the eastern edge of West Australia. Shorter subduction zones existed north of Arabia and India. The Famatinian continental arc stretched from central Peru in the north to central Argentina in the south. Subduction beneath this proto- Andean margin began by

1652-457: The Ran Ocean (an arm of the Iapetus) opening between it and Gondwana. Siberia lay close to the western margin of Gondwana and to the north of Baltica. Annamia and South China formed a single continent situated off north central Gondwana. The location of North China is unclear. It may have lain along the northeast Indian sector of Gondwana or already have been a separate continent. During

1711-552: The Sedgwick's "Upper Cambrian", claiming all fossilised strata for "his" Silurian series. Matters were complicated further when, in 1852, fieldwork carried out by Sedgwick and others revealed an unconformity within the Silurian, with a clear difference in fauna between the two. This allowed Sedgwick to now claim a large section of the Silurian for "his" Cambrian and gave the Cambrian an identifiable fossil record. The dispute between

1770-567: The Southern Uplands, and Northwest Highlands of Scotland. There years later, in February 1902, he was elected President of the Geological Society for the years 1902–1904. The glacial Lake Lapworth , was named for him by Leonard Johnston Wills in recognition of his original suggestion of its existence in 1898. Aberdeen University awarded him an honorary doctorate in 1884 and Glasgow University in 1912 (both LLD). In 1916 he

1829-791: The Welsh name for Wales, where rocks of this age were first studied. It was named by Adam Sedgwick in 1835, who divided it into three groups; the Lower, Middle, and Upper. He defined the boundary between the Cambrian and the overlying Silurian, together with Roderick Murchison , in their joint paper " On the Silurian and Cambrian Systems, Exhibiting the Order in which the Older Sedimentary Strata Succeed each other in England and Wales ". This early agreement did not last. Due to

Adeyton Group - Misplaced Pages Continue

1888-663: The development of the Bainaimiao arc in the late Cambrian. To its south was a convergent margin with a southwest dipping subduction zone, beyond which lay the North Qinling terrane (now part of the Qinling Orogenic Belt ). South China and Annamia formed a single continent. Strike-slip movement between it and Gondwana accommodated its steady drift northwards from offshore the Indian sector of Gondwana to near

1947-461: The early Cambrian, and high-to-mid southern latitudes by the mid to late Cambrian. They are commonly shown as an island arc-transform fault system along the northwestern margin of Gondwana north of northwest Africa and Amazonia, which rifted from Gondwana during the Ordovician. However, some models show these terranes as part of a single independent microcontinent , Greater Avalonia, lying to

2006-545: The end of the preceding Ediacaran period 538.8 Ma (million years ago) to the beginning of the Ordovician Period 485.4 Ma. Most of the continents lay in the southern hemisphere surrounded by the vast Panthalassa Ocean . The assembly of Gondwana during the Ediacaran and early Cambrian led to the development of new convergent plate boundaries and continental-margin arc magmatism along its margins that helped drive up global temperatures. Laurentia lay across

2065-557: The equator as the Ægir Ocean opened between it and Baltica. Much of the continent was covered by shallow seas with extensive archaeocyathan reefs . The then northern third of the continent (present day south; Siberia has rotated 180° since the Cambrian) adjacent to its convergent margin was mountainous. From the Late Neoproterozoic to the Ordovician, a series of island arcs accreted to Siberia's then northeastern margin, accompanied by extensive arc and back-arc volcanism. These now form

2124-428: The equator, separated from Gondwana by the opening Iapetus Ocean . The Cambrian was a time of greenhouse climate conditions, with high levels of atmospheric carbon dioxide and low levels of oxygen in the atmosphere and seas. Upwellings of anoxic deep ocean waters into shallow marine environments led to extinction events, whilst periods of raised oxygenation led to increased biodiversity . The Cambrian marked

2183-535: The first professor of geology at Mason Science College , later the University of Birmingham , where he taught until his retirement in 1913. He is best known for pioneering faunal analysis of Silurian beds by means of index fossils , especially graptolites , and his proposal (eventually adopted) that the beds between the Cambrian beds of north Wales and the Silurian beds of South Wales should be assigned to

2242-508: The first trilobites, and Ediacara biota substantially earlier, has led to calls for a more precisely defined base to the Cambrian Period. Despite the long recognition of its distinction from younger Ordovician rocks and older Precambrian rocks, it was not until 1994 that the Cambrian system/period was internationally ratified. After decades of careful consideration, a continuous sedimentary sequence at Fortune Head, Newfoundland

2301-745: The fucoid beds of the Durness-Eriboll series. For a modern account and discussion of the elucidation of the geology of the N.W. Highlands, see Oldroyd (1990). He died on 13 March 1920 and is buried in Lodge Hill Cemetery near Birmingham. He married Janet Sanderson in 1869. The couple had five children in total. The first and last born children died during infancy; Ernest, born 22 January 1871 and died 6 February 1871, and Walter Sanderson Lapworth, born in 1882 and died in 1884 before his second birthday. The children who survived to adulthood were Arthur (born c. 1873), Herbert (born c. 1876), and Edith Matilda (born c. 1879). Arthur Lapworth became

2360-517: The globe that corresponded to the base of the Cambrian. An early date of 570 Ma quickly gained favour, though the methods used to obtain this number are now considered to be unsuitable and inaccurate. A more precise analysis using modern radiometric dating yields a date of 538.8 ± 0.2 Ma. The ash horizon in Oman from which this date was recovered corresponds to a marked fall in the abundance of carbon-13 that correlates to equivalent excursions elsewhere in

2419-553: The late Cambrian, triggering southeast-dipping subduction beneath the terrane itself and consequent closure of the marginal seaway. The terrane collided with Laurentia in the Early Ordovician. Towards the end of the early Cambrian, rifting along Laurentia's southeastern margin led to the separation of Cuyania (now part of Argentina) from the Ouachita embayment with a new ocean established that continued to widen through

Adeyton Group - Misplaced Pages Continue

2478-613: The late Cambrian. Along the northern margin of Gondwana, between northern Africa and the Armorican Terranes of southern Europe, the continental arc of the Cadomian Orogeny continued from the Neoproterozoic in response to the oblique subduction of the Iapetus Ocean. This subduction extended west along the Gondwanan margin and by c. 530 Ma may have evolved into a major transform fault system. At c. 511 Ma

2537-543: The lower boundary of the Cambrian at the base of the Tommotian Stage, characterized by diversification and global distribution of organisms with mineral skeletons and the appearance of the first Archaeocyath bioherms. The Terreneuvian is the lowermost series/ epoch of the Cambrian, lasting from 538.8 ± 0.2 Ma to c. 521 Ma. It is divided into two stages: the Fortunian stage, 538.8 ± 0.2 Ma to c. 529 Ma; and

2596-436: The major continents. This, together with the ongoing debate around the existence of the Neoproterozoic supercontinent of Pannotia , means that while most models agree the continents lay in the southern hemisphere, with the vast Panthalassa Ocean covering most of northern hemisphere, the exact distribution and timing of the movements of the Cambrian continents varies between models. Most models show Gondwana stretching from

2655-470: The result of an impact of an asteroid 1 km in diameter; the 5 km diameter Gardnos crater (500±10 Ma) in Buskerud , Norway, where post-impact sediments indicate the impact occurred in a shallow marine environment with rock avalanches and debris flows occurring as the crater rim was breached not long after impact; the 24 km diameter Presqu'ile crater (500 Ma or younger) Quebec , Canada;

2714-409: The scarcity of fossils, Sedgwick used rock types to identify Cambrian strata. He was also slow in publishing further work. The clear fossil record of the Silurian, however, allowed Murchison to correlate rocks of a similar age across Europe and Russia, and on these he published extensively. As increasing numbers of fossils were identified in older rocks, he extended the base of the Silurian downwards into

2773-663: The son of James Lapworth. He trained as a teacher at the Culham Diocesan Training College near Abingdon, Oxfordshire. He moved to the Scottish border region, where he investigated the previously little-known fossil fauna of the area. He was headmaster of the school in Galashiels from 1864 to 1875. In 1869 he married Janet, daughter of Galashiels schoolmaster Walter Sanderson. Through mapping and innovative use of index fossil analysis, based on

2832-577: The south of North China. To the south of these the Tarim microcontinent lay between Gondwana and Siberia. Its northern margin was passive for much of the Paleozoic, with thick sequences of platform carbonates and fluvial to marine sediments resting unconformably on Precambrian basement. Along its southeast margin was the Altyn Cambro–Ordovician accretionary complex, whilst to the southwest

2891-472: The south polar region to north of the equator. Early in the Cambrian, the south pole corresponded with the western South American sector and as Gondwana rotated anti-clockwise, by the middle of the Cambrian, the south pole lay in the northwest African region. Laurentia lay across the equator, separated from Gondwana by the Iapetus Ocean . Proponents of Pannotia have Laurentia and Baltica close to

2950-693: The then north, Siberia was separated from the Central Mongolian terrane by the narrow and slowly opening Mongol-Okhotsk Ocean . The Central Mongolian terrane's northern margin with the Panthalassa was convergent, whilst its southern margin facing the Mongol-Okhotsk Ocean was passive. During the Cambrian, the terranes that would form Kazakhstania later in the Paleozoic were a series of island arc and accretionary complexes that lay along an intra-oceanic convergent plate margin to

3009-400: The traditional "Upper Cambrian". The GSSP for the base of the Furongian is in the Wuling Mountains , in northwestern Hunan Province , China. It coincides with the first appearance of the agnostoid trilobite Glyptagnostus reticulatus , and is near the beginning of a large positive δ C isotopic excursion. The Furongian is divided into three stages: the Paibian , c. 497 Ma to c. 494 Ma, and

SECTION 50

#1732797786527

3068-664: The two geologists and their supporters, over the boundary between the Cambrian and Silurian, would extend beyond the life times of both Sedgwick and Murchison. It was not resolved until 1879, when Charles Lapworth proposed the disputed strata belong to its own system, which he named the Ordovician. The term Cambrian for the oldest period of the Paleozoic was officially agreed in 1960, at the 21st International Geological Congress . It only includes Sedgwick's "Lower Cambrian series", but its base has been extended into much older rocks. Systems , series and stages can be defined globally or regionally. For global stratigraphic correlation,

3127-434: The unnamed Stage 2, c. 529 Ma to c. 521 Ma. The name Terreneuvian was ratified by the International Union of Geological Sciences (IUGS) in 2007, replacing the previous "Cambrian Series 1". The GSSP defining its base is at Fortune Head on the Burin Peninsula, eastern Newfoundland, Canada (see Ediacaran - Cambrian boundary above). The Terreneuvian is the only series in the Cambrian to contain no trilobite fossils. Its lower part

3186-415: The west of Baltica and aligned with its eastern ( Timanide ) margin, with the Iapetus to the north and the Ran Ocean to the south. During the Cambrian, Baltica rotated more than 60° anti-clockwise and began to drift northwards. This rotation was accommodated by major strike-slip movements in the Ran Ocean between it and Gondwana. Baltica lay at mid-to-high southerly latitudes, separated from Laurentia by

3245-451: The western Australian sector. This northward drift is evidenced by the progressive increase in limestones and increasing faunal diversity. Charles Lapworth Charles Lapworth FRS FGS (20 September 1842 – 13 March 1920) was a headteacher and an English geologist who pioneered faunal analysis using index fossils and identified the Ordovician period. Charles Lapworth was born at Faringdon in Berkshire (now Oxfordshire )

3304-436: The world, and to the disappearance of distinctive Ediacaran fossils ( Namacalathus , Cloudina ). Nevertheless, there are arguments that the dated horizon in Oman does not correspond to the Ediacaran-Cambrian boundary, but represents a facies change from marine to evaporite-dominated strata – which would mean that dates from other sections, ranging from 544 to 542 Ma, are more suitable. *Most Russian paleontologists define

3363-473: Was elected an Honorary Fellow of the Royal Society of Edinburgh . Papers relating to Charles Lapworth can be found at the University of Birmingham in the Lapworth Museum of Geology , located within the Aston Webb building on the main Edgbaston campus. The Lapworth Archive contains a remarkably complete record of all areas of his research work and teaching. In August 2021 an Archives Revealed funded project began to catalogue and promote Lapworth's archive, which

3422-451: Was first to propose the controversial theory that here older rocks were found lying above younger, suggesting complex folding or faulting as a cause. Later Peach and Horne were dispatched to the area and their monumental memoir proved Lapworth correct. In the English Midlands he carried out important work in Shropshire, in particular identifying fossils of Olenelloid trilobites of Cambrian age, demonstrating that Cambrian rocks underlay

3481-444: Was settled upon as a formal base of the Cambrian Period, which was to be correlated worldwide by the earliest appearance of Treptichnus pedum . Discovery of this fossil a few metres below the GSSP led to the refinement of this statement, and it is the T. pedum ichnofossil assemblage that is now formally used to correlate the base of the Cambrian. This formal designation allowed radiometric dates to be obtained from samples across

#526473