| 词条 | East African Orogeny |
| 释义 |
The East African Orogeny (EAO) is the main stage in the Neoproterozoic assembly of East and West Gondwana (Australia–India–Antarctica and Africa–South America) along the Mozambique Belt.[2] Gondwana assemblyThe notion that Gondwana was assembled during the Late Precambrian from two older fragments along the Pan-African Mozambique Belt was first proposed in the early 1980s.[3] A decade later this continental collision was named the East African Orogeny, but it was also realised that this was not the simple bringing together of two halves. Rather, it was the piecemeal assembly of several much smaller cratonic elements that once formed an earlier supercontinent (today known as Rodinia), a process that eventually culminated in the relatively short-lived Gondwanan supercontinent.[2] Two partly incomparable scenarios have been proposed for this assembly.[4] In one model, the EAO evolved from an accretionary orogeny involving the amalgamation of arcs and evolved into a collisional orogeny when the Neoproterozoic continent Azania collided with the Congo-Tanzania-Bangweulu Block at {{Circa}} {{Ma|640|{{Abbr|Ma|million year ago}}}}.[5] In another model, the assembly of East Gondwana {{Circa}} {{Ma|750|530|Ma}} was a multiphase process which included two main periods of orogenesis: the older EAO ({{Circa}} {{Ma|750|620|Ma}}) and the younger Kuunga Orogeny ({{Circa}} {{Ma|570|530|Ma}}).[6] In the former scenario the Kuunga Orogeny of the latter scenario are two coeval events: the collisions between India and Australia-East Antarctica and Azania and India. Furthermore, the two orogens of the latter scenario intersect in Madagascar, the proposed location of the Azania-India collision, and this part of the Kuunga Orogeny should be renamed the Malagasy Orogeny.[7] Erosion and Cambrian explosionThe East African orogeny resulted in the formation of an enormous mountain chain, known as the Transgondwanan Supermountain, which was more than {{Convert|8000|km|abbr=on}}-long and {{Convert|1000|km|abbr=on}}-wide. The sedimentary deposition from this mountain chain, known as the Gondwana Super-fan, exceeded {{Convert|1000000|km3|abbr=on}} or the equivalent to covering the United States with {{Circa}} {{Convert|10|km|abbr=on}} of sediment, lasted for 260 million years and coincided with the Cambrian explosion, the sudden radiation of life on Earth {{Circa}} {{Ma|550|Ma}}. These unprecedented sedimentary depositions probably made the evolution of early life possible.[8] The orogen was eroded to such extent that by the Ordovician epoch it had been leveled to a planation surface in Ethiopia.[9][10] Cenozoic reopeningThe Cenozoic East African Rift System mostly evolved along the complex pattern of Proterozoic prerift systems in eastern Africa.[11] It passes through the Mozambique Belt east of the Tanzania Craton.[12] References1. ^{{Harvnb|Meert|2003|loc=Fig. 10, p. 19}} 2. ^1 {{Harvnb|Stern|1994|pp=320–321, 324}} 3. ^{{Harvnb|McWilliams|1981|loc=Abstract}} 4. ^For a discussion see {{Harvnb|Meert|2003|loc=Discussion, p. 31}}; {{Harvnb|Collins|Pisarevsky|2005|loc=Comparisons with other models, pp. 256–257}}; {{Harvnb|Meert|Lieberman|2008|loc=Assembling Gondwana: polyphase or simple?, pp. 9–11}}; {{Harvnb|Nance|Murphy|Santosh|2014|loc=Pannotia (Gondwana), pp. 12, 14}} 5. ^Azania was defined by {{Harvnb|Collins|Windley|2002|loc=Discussion, pp. 334–335}} and named by {{Harvnb|Collins|Pisarevsky|2005|p=244}} 6. ^{{Harvnb|Meert|2003|loc=Abstract}} 7. ^{{Harvnb|Collins|Pisarevsky|2005|loc=Comparisons with other models, pp. 256–257}} 8. ^{{Harvnb|Squire|Campbell|Allen|Wilson|2006|loc=Abstract}} 9. ^{{cite book |last=Abbate |first=Ernesto|last2=Bruni |first2=Piero|last3=Sagri |first3=Mario |date=2015|editor-last=Billi|editor-first=Paolo |title=Landscapes and Landforms of Ethiopia |chapter=Geology of Ethiopia: A Review and Geomorphological Perspectives|series=World Geomorphological Landscapes |location= |publisher= |pages=33–64 |isbn=978-94-017-8026-1 |author-link= |doi=10.1007/978-94-017-8026-1_2}} 10. ^{{cite journal |last1=Coltorti |first1=M. |last2=Dramis |first2=F.|last3=Ollier |first3=C.D.|author-link3=Cliff Ollier |date=2007 |title=Planation surfaces in Northern Ethiopia |journal=Geomorphology |volume=89 |issue= |pages=287–296 |doi= }} 11. ^{{Harvnb|Ring|1994|loc=Conclusions, p. 325}} 12. ^{{Harvnb|Aulbach|Rudnick|McDonough|2011|loc=Geology and samples, pp. 106–108}} Sources{{Refbegin|30em}}
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| last = Meert | first = J. G. | title = A synopsis of events related to the assembly of eastern Gondwana | year = 2003 | journal = Tectonophysics | volume = 362 | issue = 1 | pages = 1–40 | url = http://gondwanaresearch.com/hp/gond.pdf | access-date = 6 January 2018 | doi = 10.1016/S0040-1951(02)00629-7 | bibcode = 2003Tectp.362....1M | ref = harv}}
| last1 = Meert | first1 = J. G. | last2 = Lieberman | first2 = B. S. | title = The Neoproterozoic assembly of Gondwana and its relationship to the Ediacaran–Cambrian radiation | year = 2008 | journal = Gondwana Research | volume = 14 | issue = 1 | pages = 5–21 | url = https://pdfs.semanticscholar.org/6c97/779ecc8838683543549e849e42bda66bb70e.pdf | access-date = 7 January 2018 | doi = 10.1016/j.gr.2007.06.007 | ref = harv| bibcode = 2008GondR..14....5M}}
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| last1 = Squire | first1 = R. J. | last2 = Campbell | first2 = I. H. | last3 = Allen | first3 = C. M. | last4 = Wilson | first4 = C. J. | title = Did the Transgondwanan Supermountain trigger the explosive radiation of animals on Earth? | year = 2006 | journal = Earth and Planetary Science Letters | volume = 250 | issue = 1 | pages = 116–133 | url = http://www.blc.arizona.edu/courses/schaffer/182h/Climate/Transgondwanan%20Supermountain.pdf | access-date = 11 September 2017 | doi = 10.1016/j.epsl.2006.07.032 | ref = harv| bibcode = 2006E&PSL.250..116S}}
| last = Stern | first = R. J. | title = Arc assembly and continental collision in the Neoproterozoic East African Orogen: implications for the consolidation of Gondwanaland | year = 1994 | journal = Annual Review of Earth and Planetary Sciences | volume = 22 | issue = 1 | pages = 319–351 | url = https://bbs.utdallas.edu/~rjstern/pdfs/SternEAO-AREPS94.pdf | access-date = 6 January 2018 | doi = 10.1146/annurev.ea.22.050194.001535 | ref = harv| bibcode = 1994AREPS..22..319S}}{{Refend}}{{Major African geological formations}} 3 : Geology of Africa|Neoproterozoic Africa|Neoproterozoic orogenies |
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