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Hadean

January 31, 2023

The Hadean ( /hˈdən, ˈhdiən/ hay-DEE-ən, HAY-dee-ən) is a geologic eon of Earth history preceding the Archean. On Earth, the Hadean began with the planet's formation about 4.54 billion years ago[3][4] (although the start of the Hadean is defined as the age of the oldest solid material in the Solar System, found in some meteorites, about 4.567 billion years old).[5] The Hadean ended, as defined by the International Commission on Stratigraphy (ICS), 4 billion years ago.[6]

Hadean
4567.3 ± 0.16 – 4000 Ma
Artist depiction of the hypothetical planet Theia colliding into early Earth
Artist illustration of Earth and the Moon towards the middle/end of the Hadean eon
Chronology
Proposed subdivisionsSee text
Etymology
Synonym(s)Priscoan Period
Harland et al., 1989
Usage information
Celestial bodyEarth
Regional usageGlobal (ICS)
Definition
Chronological unitEon
Stratigraphic unitEonothem
First proposed byPreston Cloud, 1972
Time span formalityFormal
Lower boundary definitionFormation of Earth, Defined Chronometrically
Lower GSSA ratifiedOctober 5th, 2022[1]
Upper boundary definitionDefined Chronometrically
Upper GSSA ratified1991[2]

Hadean rocks are very rare, largely consisting of zircons from one locality in Western Australia.[7] Hadean geophysical models remain controversial among geologists: it appears that plate tectonics and the growth of continents may have started in the Hadean.[7] Earth in the early Hadean had a very thick carbon dioxide atmosphere, but eventually oceans of liquid water formed.

Etymology

"Hadean" (from Hades, the Greek god of the underworld, and the underworld itself) describes the hellish conditions then prevailing on Earth: the planet had just formed and was still very hot owing to its recent accretion, the abundance of short-lived radioactive elements, and frequent collisions with other Solar System bodies.

The term was coined by American geologist Preston Cloud, after the Greek mythical underworld Hades, originally to label the period before the earliest-known rocks on Earth.[8][9] W. Brian Harland later coined an almost synonymous term, the Priscoan Period, from priscus, the Latin word for 'ancient'.[10] Other, older texts refer to the eon as the Pre-Archean.[11][12]

Subdivisions

See also: Proposed Precambrian timeline

Since few geological traces of this eon remain on Earth, there is no official subdivision. However, the lunar geologic timescale embraces several major divisions relating to the Hadean, so these are sometimes used in an informal sense to refer to the same time intervals on Earth.

The lunar divisions are:

  • Pre-Nectarian, from the formation of the Moon's crust (4,533 million years ago) up to about 3,920 million years ago.
  • Nectarian ranging from 3,920 million years ago up to about 3,850 million years ago, in a time when the Late Heavy Bombardment, according to that theory, was declining.

In 2010, an alternative scale was proposed that includes the addition of the Chaotian and Prenephelean eons preceding the Hadean and divides the Hadean into three eras with two periods each. The Paleohadean Era consists of the Hephaestean period (4.5–4.4 Ga) and the Jacobian period (4.4-4.3 Ga). The Mesohadean is divided into the Canadian (4.3-4.2 Ga) and the Procrustean periods (4.2-4.1 Ga). The Neohadean is divided into the Acastan (4.1-4.0 Ga) and the Promethean periods (4.0-3.9 Ga).[13] As of February 2022, this has not been adopted by the IUGS.[14]

Hadean rocks

Further information: Oldest dated rocks
 
Backscatter electron micrograph of detrital zircons from the Hadean (4.404 ± 0.008 Ga) metasediments of the Jack Hills, Narryer Gneiss Terrane, Western Australia

In the last decades of the 20th-century geologists identified a few Hadean rocks from western Greenland, northwestern Canada, and Western Australia. In 2015, traces of carbon minerals interpreted as "remains of biotic life" were found in 4.1-billion-year-old rocks in Western Australia.[15][16]

The oldest dated zircon crystals, enclosed in a metamorphosed sandstone conglomerate in the Jack Hills of the Narryer Gneiss Terrane of Western Australia, date to 4.404 ± 0.008 Ga.[17] This zircon is a slight outlier, with the oldest consistently-dated zircon falling closer to 4.35 Ga[17]—around 200 million years after the hypothesized time of Earth's formation.

In many other areas, xenocryst (or relict) Hadean zircons enclosed in older rocks indicate that younger rocks have formed on older terranes and have incorporated some of the older material. One example occurs in the Guiana shield from the Iwokrama Formation of southern Guyana where zircon cores have been dated at 4.22 Ga.[18]

Atmosphere and oceans

A sizable quantity of water would have been in the material that formed Earth.[19] Water molecules would have escaped Earth's gravity more easily when it was less massive during its formation. Hydrogen and helium are expected to continually escape (even to the present day) due to atmospheric escape.

Part of the ancient planet is theorized to have been disrupted by the impact that created the Moon, which should have caused the melting of one or two large regions of Earth. Earth's present composition suggests that there was not complete remelting as it is difficult to completely melt and mix huge rock masses.[20] However, a fair fraction of material should have been vaporized by this impact. The material would have condensed within 2000 years,[21] leaving behind hot volatiles which probably resulted in a heavy CO
2 atmosphere with hydrogen and water vapor. Liquid water oceans existed despite the surface temperature of 230 °C (446 °F) because at an atmospheric pressure of above 27 atmospheres, caused by the heavy CO
2 atmosphere, water is still liquid. As the cooling continued, subduction and dissolving in ocean water removed most CO
2 from the atmosphere but levels oscillated wildly as new surface and mantle cycles appeared.[21] Studies of zircons have found that liquid water may have existed between 4.0 and 4.4 billion years ago, very soon after the formation of Earth.[22][23] For this time interval, meteorite impacts may be been less frequent than previously hypothesized, and Earth may have gone through long periods when liquid oceans and life were possible.[23]

Asteroid impacts during the Hadean and into the Archean would have periodically disrupted the ocean. The geological record from 3.2 Gya contains evidence of multiple impacts of objects up to 100 kilometres (62 mi) in diameter.[24] Each such impact would have boiled off up to 100 metres (330 ft) of a global ocean, and temporarily raised the atmospheric temperature to 500 °C (932 °F).[24]

Geology

 
Evolution of continental crust and ocean depths, per Korenaga

A 2008 study of zircons found that Australian Hadean rock contains minerals pointing to the existence of plate tectonics as early as 4 billion years ago (approximately 600 million years after Earth's formation).[25] However, some geologists suggest that the zircons could have been formed by meteorite impacts.[26] The direct evidence of Hadean geology from zircons is limited, because the zircons are largely gathered in one locality in Australia.[7][27] Geophysical models are underconstrained, but can paint a general picture of the state of Earth in the Hadean.[7][28]

Mantle convection in the Hadean was likely vigorous, due to lower viscosity.[7] The lower viscosity was due to the high levels of radiogenic heat and the fact that water in the mantle had not yet fully outgassed.[29] Whether the vigorous convection led to plate tectonics in the Hadean or was confined under a rigid lid is still a matter of debate.[7][27][30][31] The presence of an ocean during the Hadean is generally accepted, due to zircon evidence.[27][32] The presence of oceans are thought to trigger plate tectonics.[33] The removal of the CO2-rich early atmosphere also indicates that plate tectonics were active in the Hadean.[34]

If plate tectonics occurred in the Hadean, it would have formed continental crust.[35] Different models predict different amounts of continental crust during the Hadean. The work of Dhiume et al. predicts that by the end of the Hadean, the continental crust had only 25% of today's area.[36] The models of Korenaga, et al. predict that the continental crust grew to present-day volume sometime between 4.0 and 4.2 Gya.[35][37]

The amount of exposed land in the Hadean is only loosely dependent on the amount of continental crust: it also depends on the ocean level.[7] In models where plate tectonics started in the Archean, Earth has a global ocean in the Hadean.[38][39] The high heat of the mantle may have made it difficult to support high elevations in the Hadean.[40][41] If continents did form in the Hadean, their growth competed with outgassing of water from the mantle.[7] Continents may have appeared in the mid-Hadean, and then disappeared under a thick ocean by the end of the Hadean.[42] The limited amount of land has implications for the origin of life.[7]

See also

References

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Further reading

  • Hopkins, Michelle; Harrison, T. Mark; Manning, Craig E. (2008), "Low heat flow inferred from >4 Gyr zircons suggests Hadean plate boundary interactions", Nature, 456 (7221): 493–496, Bibcode:2008Natur.456..493H, doi:10.1038/nature07465, PMID 19037314, S2CID 4417456
  • Valley, John W.; Peck, William H.; King, Elizabeth M. (1999), , The Outcrop for 1999, University of Wisconsin-Madison, archived from the original on March 16, 2012, retrieved January 10, 2006Evidence from detrital zircons for the existence of continental crust and oceans on the Earth 4.4 Gyr ago.
  • Wilde, S. A.; Valley, J. W.; Peck, W. H. & Graham, C. M. (2001), "Evidence from detrital zircons for the existence of continental crust and oceans on the Earth 4.4 Gyr ago", Nature, 409 (6817): 175–178, Bibcode:2001Natur.409..175W, doi:10.1038/35051550, PMID 11196637, S2CID 4319774
  • Wyche, S.; Nelson, D. R. & Riganti, A. (2004), "4350–3130 Ma detrital zircons in the Southern Cross Granite–Greenstone Terrane, Western Australia: implications for the early evolution of the Yilgarn Craton", Australian Journal of Earth Sciences, 51 (1): 31–45, Bibcode:2004AuJES..51...31W, doi:10.1046/j.1400-0952.2003.01042.x
  • Carley, Tamara L.; et al. (2014), "Iceland is not a magmatic analog for the Hadean: Evidence from the zircon record", Earth and Planetary Science Letters, 405 (1): 85–97, Bibcode:2014E&PSL.405...85C, doi:10.1016/j.epsl.2014.08.015
  • Marchi, S.; et al. (2014), "Widespread mixing and burial of Earth's Hadean crust by asteroid impacts", Nature, 511: 578–582, doi:10.1038/nature13539

External links

 
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  • Hadean (chronostratigraphy scale)

January 31, 2023
hadean, geologic, earth, history, preceding, archean, earth, began, with, planet, formation, about, billion, years, although, start, defined, oldest, solid, material, solar, system, found, some, meteorites, about, billion, years, ended, defined, international,. The Hadean h eɪ ˈ d iː e n ˈ h eɪ d i e n hay DEE en HAY dee en is a geologic eon of Earth history preceding the Archean On Earth the Hadean began with the planet s formation about 4 54 billion years ago 3 4 although the start of the Hadean is defined as the age of the oldest solid material in the Solar System found in some meteorites about 4 567 billion years old 5 The Hadean ended as defined by the International Commission on Stratigraphy ICS 4 billion years ago 6 Hadean4567 3 0 16 4000 Ma Pha Proterozoic Archean Had nArtist depiction of the hypothetical planet Theia colliding into early EarthArtist illustration of Earth and the Moon towards the middle end of the Hadean eonChronology 4500 4000 3500 3000 2500 2000 1500 1000 500 0 P r e c a m b r i a nHadeanA r c h e a nP r o t e r o z o i cP h a n EoPaleoMesoNeoPaleoMesoNeoPaleozoicMesozoicCenozoic Scale millions of yearsProposed subdivisionsSee textEtymologySynonym s Priscoan PeriodHarland et al 1989Usage informationCelestial bodyEarthRegional usageGlobal ICS DefinitionChronological unitEonStratigraphic unitEonothemFirst proposed byPreston Cloud 1972Time span formalityFormalLower boundary definitionFormation of Earth Defined ChronometricallyLower GSSA ratifiedOctober 5th 2022 1 Upper boundary definitionDefined ChronometricallyUpper GSSA ratified1991 2 Hadean rocks are very rare largely consisting of zircons from one locality in Western Australia 7 Hadean geophysical models remain controversial among geologists it appears that plate tectonics and the growth of continents may have started in the Hadean 7 Earth in the early Hadean had a very thick carbon dioxide atmosphere but eventually oceans of liquid water formed Contents 1 Etymology 2 Subdivisions 3 Hadean rocks 4 Atmosphere and oceans 5 Geology 6 See also 7 References 8 Further reading 9 External linksEtymology Edit Hadean from Hades the Greek god of the underworld and the underworld itself describes the hellish conditions then prevailing on Earth the planet had just formed and was still very hot owing to its recent accretion the abundance of short lived radioactive elements and frequent collisions with other Solar System bodies The term was coined by American geologist Preston Cloud after the Greek mythical underworld Hades originally to label the period before the earliest known rocks on Earth 8 9 W Brian Harland later coined an almost synonymous term the Priscoan Period from priscus the Latin word for ancient 10 Other older texts refer to the eon as the Pre Archean 11 12 Subdivisions EditSee also Proposed Precambrian timeline Since few geological traces of this eon remain on Earth there is no official subdivision However the lunar geologic timescale embraces several major divisions relating to the Hadean so these are sometimes used in an informal sense to refer to the same time intervals on Earth The lunar divisions are Pre Nectarian from the formation of the Moon s crust 4 533 million years ago up to about 3 920 million years ago Nectarian ranging from 3 920 million years ago up to about 3 850 million years ago in a time when the Late Heavy Bombardment according to that theory was declining In 2010 an alternative scale was proposed that includes the addition of the Chaotian and Prenephelean eons preceding the Hadean and divides the Hadean into three eras with two periods each The Paleohadean Era consists of the Hephaestean period 4 5 4 4 Ga and the Jacobian period 4 4 4 3 Ga The Mesohadean is divided into the Canadian 4 3 4 2 Ga and the Procrustean periods 4 2 4 1 Ga The Neohadean is divided into the Acastan 4 1 4 0 Ga and the Promethean periods 4 0 3 9 Ga 13 As of February 2022 update this has not been adopted by the IUGS 14 Hadean rocks EditFurther information Oldest dated rocks Backscatter electron micrograph of detrital zircons from the Hadean 4 404 0 008 Ga metasediments of the Jack Hills Narryer Gneiss Terrane Western Australia In the last decades of the 20th century geologists identified a few Hadean rocks from western Greenland northwestern Canada and Western Australia In 2015 traces of carbon minerals interpreted as remains of biotic life were found in 4 1 billion year old rocks in Western Australia 15 16 The oldest dated zircon crystals enclosed in a metamorphosed sandstone conglomerate in the Jack Hills of the Narryer Gneiss Terrane of Western Australia date to 4 404 0 008 Ga 17 This zircon is a slight outlier with the oldest consistently dated zircon falling closer to 4 35 Ga 17 around 200 million years after the hypothesized time of Earth s formation In many other areas xenocryst or relict Hadean zircons enclosed in older rocks indicate that younger rocks have formed on older terranes and have incorporated some of the older material One example occurs in the Guiana shield from the Iwokrama Formation of southern Guyana where zircon cores have been dated at 4 22 Ga 18 Atmosphere and oceans EditA sizable quantity of water would have been in the material that formed Earth 19 Water molecules would have escaped Earth s gravity more easily when it was less massive during its formation Hydrogen and helium are expected to continually escape even to the present day due to atmospheric escape Part of the ancient planet is theorized to have been disrupted by the impact that created the Moon which should have caused the melting of one or two large regions of Earth Earth s present composition suggests that there was not complete remelting as it is difficult to completely melt and mix huge rock masses 20 However a fair fraction of material should have been vaporized by this impact The material would have condensed within 2000 years 21 leaving behind hot volatiles which probably resulted in a heavy CO2 atmosphere with hydrogen and water vapor Liquid water oceans existed despite the surface temperature of 230 C 446 F because at an atmospheric pressure of above 27 atmospheres caused by the heavy CO2 atmosphere water is still liquid As the cooling continued subduction and dissolving in ocean water removed most CO2 from the atmosphere but levels oscillated wildly as new surface and mantle cycles appeared 21 Studies of zircons have found that liquid water may have existed between 4 0 and 4 4 billion years ago very soon after the formation of Earth 22 23 For this time interval meteorite impacts may be been less frequent than previously hypothesized and Earth may have gone through long periods when liquid oceans and life were possible 23 Asteroid impacts during the Hadean and into the Archean would have periodically disrupted the ocean The geological record from 3 2 Gya contains evidence of multiple impacts of objects up to 100 kilometres 62 mi in diameter 24 Each such impact would have boiled off up to 100 metres 330 ft of a global ocean and temporarily raised the atmospheric temperature to 500 C 932 F 24 Geology Edit Evolution of continental crust and ocean depths per Korenaga A 2008 study of zircons found that Australian Hadean rock contains minerals pointing to the existence of plate tectonics as early as 4 billion years ago approximately 600 million years after Earth s formation 25 However some geologists suggest that the zircons could have been formed by meteorite impacts 26 The direct evidence of Hadean geology from zircons is limited because the zircons are largely gathered in one locality in Australia 7 27 Geophysical models are underconstrained but can paint a general picture of the state of Earth in the Hadean 7 28 Mantle convection in the Hadean was likely vigorous due to lower viscosity 7 The lower viscosity was due to the high levels of radiogenic heat and the fact that water in the mantle had not yet fully outgassed 29 Whether the vigorous convection led to plate tectonics in the Hadean or was confined under a rigid lid is still a matter of debate 7 27 30 31 The presence of an ocean during the Hadean is generally accepted due to zircon evidence 27 32 The presence of oceans are thought to trigger plate tectonics 33 The removal of the CO2 rich early atmosphere also indicates that plate tectonics were active in the Hadean 34 If plate tectonics occurred in the Hadean it would have formed continental crust 35 Different models predict different amounts of continental crust during the Hadean The work of Dhiume et al predicts that by the end of the Hadean the continental crust had only 25 of today s area 36 The models of Korenaga et al predict that the continental crust grew to present day volume sometime between 4 0 and 4 2 Gya 35 37 The amount of exposed land in the Hadean is only loosely dependent on the amount of continental crust it also depends on the ocean level 7 In models where plate tectonics started in the Archean Earth has a global ocean in the Hadean 38 39 The high heat of the mantle may have made it difficult to support high elevations in the Hadean 40 41 If continents did form in the Hadean their growth competed with outgassing of water from the mantle 7 Continents may have appeared in the mid Hadean and then disappeared under a thick ocean by the end of the Hadean 42 The limited amount of land has implications for the origin of life 7 See also EditChaotian geology Proposed era of the Hadean eon Faint young Sun paradox Paradox concerning water on early Earth Formation and evolution of the Solar System Hadean zircon Oldest surviving crustal material from the Earth s earliest geological time period History of Earth Development of planet Earth from its formation to the present day the first sections describe the formation of Earth Oldest dated rocks Includes rocks over 4 billion years old from the Hadean Eon Precambrian History of Earth 4600 539 million years ago Timeline of natural historyReferences Edit Cohen Kim New edition of the Chart 2022 10 International Commission on Stratigraphy International Commission on Stratigraphy Retrieved 16 January 2023 Plumb K A June 1 1991 New Precambrian time scale Episodes 14 2 139 140 doi 10 18814 epiiugs 1991 v14i2 005 Retrieved 16 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Geology 43 6 535 538 Bibcode 2015Geo 43 535L doi 10 1130 G36665 1 Chang Kenneth December 2 2008 A New Picture of the Early Earth The New York Times Kenny GG Whitehouse MJ Kamber BS et al April 12 2016 Differentiated impact melt sheets may be a potential source of Hadean detrital zircon Retrieved March 6 2017 a b c Harrison TM 2020 Hadean Earth Cham Switzerland Springer Korenaga J Planavsky NJ Evans DAD 2017 Global water cycle and the coevolution of Earth s interior and surface environment Phil Trans R Soc A 375 2094 20150393 Bibcode 2017RSPTA 37550393K doi 10 1098 rsta 2015 0393 PMC 5394256 PMID 28416728 S2CID 2958757 Korenaga J 2021 Hadean geodynamics and the nature of early continental crust Precambrian Res 359 106178 Bibcode 2021PreR 359j6178K doi 10 1016 j precamres 2021 106178 S2CID 233441822 Tang M Chen K Rudnick RL 2016 Archean upper crust transition from mafic to felsic marks the onset of plate tectonics Science 351 6271 372 375 Bibcode 2016Sci 351 372T doi 10 1126 science aad5513 PMID 26798012 S2CID 206643793 Windley BF Kusky T Polat A 2021 Onset of plate tectonics by the Eoarchean Precambrian Res 352 105980 Bibcode 2021PreR 352j5980W doi 10 1016 j precamres 2020 105980 S2CID 228993361 Wilde SA Valley JW Peck WH Graham CM 2001 Evidence from detrital zircons for the existence of continental crust and oceans on the Earth 4 4 Gyr ago Nature 409 6817 175 178 doi 10 1038 35051550 PMID 11196637 S2CID 4319774 Regenauer Lieb K Yuen DA Branlund J 2001 The initiation of subduction Criticality by addition of water Science 294 5542 578 580 Bibcode 2001Sci 294 578R doi 10 1126 science 1063891 PMID 11641494 S2CID 43547982 Sleep NH Zahnle KJ Lupu RE 2014 Terrestrial aftermath of the Moon forming impact Phil Trans R Soc A 372 2024 20130172 Bibcode 2014RSPTA 37230172S doi 10 1098 rsta 2013 0172 PMID 25114303 S2CID 6902632 a b Guo M Korenaga J 2020 Argon constraints on the early growth of felsic continental crust Scientific Advances 6 21 eaaz6234 Bibcode 2020SciA 6 6234G 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Geophys J Int 221 2 1165 1181 doi 10 1093 gji ggaa064 Rey PF Coltice N 2008 Neoarchean lithospheric strengthening and the coupling of Earth s geochemical reservoirs Geology 36 8 635 638 Bibcode 2008Geo 36 635R doi 10 1130 G25031A 1 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint ignored DOI errors link Bada JL Korenaga J 2018 Exposed areas above sea level on Earth gt 3 5 Gyr ago Implications for prebiotic and primitive biotic chemistry Life 8 4 55 doi 10 3390 life8040055 PMC 6316429 PMID 30400350 Further reading EditHopkins Michelle Harrison T Mark Manning Craig E 2008 Low heat flow inferred from gt 4 Gyr zircons suggests Hadean plate boundary interactions Nature 456 7221 493 496 Bibcode 2008Natur 456 493H doi 10 1038 nature07465 PMID 19037314 S2CID 4417456 Valley John W Peck William H King Elizabeth M 1999 Zircons Are Forever The Outcrop for 1999 University of Wisconsin Madison archived from the original on March 16 2012 retrieved January 10 2006 Evidence from detrital zircons for the existence of continental crust and oceans on the Earth 4 4 Gyr ago Wilde S A Valley J W Peck W H amp Graham C M 2001 Evidence from detrital zircons for the existence of continental crust and oceans on the Earth 4 4 Gyr ago Nature 409 6817 175 178 Bibcode 2001Natur 409 175W doi 10 1038 35051550 PMID 11196637 S2CID 4319774 Wyche S Nelson D R amp Riganti A 2004 4350 3130 Ma detrital zircons in the Southern Cross Granite Greenstone Terrane Western Australia implications for the early evolution of the Yilgarn Craton Australian Journal of Earth Sciences 51 1 31 45 Bibcode 2004AuJES 51 31W doi 10 1046 j 1400 0952 2003 01042 x Carley Tamara L et al 2014 Iceland is not a magmatic analog for the Hadean Evidence from the zircon record Earth and Planetary Science Letters 405 1 85 97 Bibcode 2014E amp PSL 405 85C doi 10 1016 j epsl 2014 08 015 Marchi S et al 2014 Widespread mixing and burial of Earth s Hadean crust by asteroid impacts Nature 511 578 582 doi 10 1038 nature13539External links Edit Wikimedia Commons has media related to Hadean Peripatus nz Description of the Hadean Era Hadean chronostratigraphy scale Retrieved from https en wikipedia org w index php title Hadean amp oldid 1136464463, wikipedia, wiki, book, books, library,

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