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dc.contributor.authorHartnady, Michael
dc.contributor.authorJohnson, Tim
dc.contributor.authorSchorn, S.
dc.contributor.authorHugh Smithies, R.
dc.contributor.authorKirkland, Christopher
dc.contributor.authorRichardson, S.H.
dc.date.accessioned2023-03-09T08:22:20Z
dc.date.available2023-03-09T08:22:20Z
dc.date.issued2022
dc.identifier.citationHartnady, M.I.H. and Johnson, T.E. and Schorn, S. and Hugh Smithies, R. and Kirkland, C.L. and Richardson, S.H. 2022. Fluid processes in the early Earth and the growth of continents. Earth and Planetary Science Letters. 594: ARTN 117695.
dc.identifier.urihttp://hdl.handle.net/20.500.11937/90818
dc.identifier.doi10.1016/j.epsl.2022.117695
dc.description.abstract

Water is an essential ingredient in transforming primitive mantle-derived (mafic) rocks into buoyant (felsic) continental crust, thereby driving the irreversible differentiation of Earth's lithosphere. The occurrence in Archaean cratons of sodic granites of the tonalite–trondhjemite–granodiorite (TTG) series, high-MgO variolitic basalts, high-Mg diorites (sanukitoids) and diamonds with harzburgitic inclusion assemblages, all require the presence of hydrous fluids in Earth's deep crust and upper (lithospheric) mantle since at least the Paleoarchaean (3.6–3.2 billion years ago). However, despite its importance, where and how water was stored in Archaean crust, and how some water was transported into the upper mantle, are poorly understood. Here, we investigate Archaean crustal fluid budgets through calculated phase equilibria for three protolith compositions — a low-MgO mafic (basaltic) composition, a high-MgO (picritic) composition and an ultrahigh-MgO ultramafic (komatiitic) composition — that are representative of mafic to ultramafic magmatic rocks in Archaean greenstone belts. We show that the mode and stability of hydrous minerals, in particular chlorite, is positively correlated with protolith MgO content, such that high-MgO basalts can store up to twice the amount of crystal-bound H2O than low-MgO basalts. Importantly, ultrahigh-MgO rocks such as komatiite can store four times as much H2O, most of which is retained until temperatures exceeding 700 °C. Warmer geotherms in the early Archaean favoured dehydration of hydrated high-MgO and ultramafic rocks in the deep crust, leading to hydration and/or fluid-fluxed melting of overlying basaltic rocks to produce ‘high-pressure’ TTG magmas. Burial of Archaean mafic–ultramafic crust along cooler geotherms resulted in dehydration of ultramafic material within the lithospheric mantle, providing the source of enriched Archaean basalt that was parental to large volumes of ancient TTG-dominated continental crust.

dc.languageEnglish
dc.publisherELSEVIER
dc.relation.sponsoredbyhttp://purl.org/au-research/grants/arc/DP200101104
dc.relation.sponsoredbyhttp://purl.org/au-research/grants/arc/LP180100199
dc.rights.urihttp://creativecommons.org/licenses/by-nc/4.0/
dc.subjectScience & Technology
dc.subjectPhysical Sciences
dc.subjectGeochemistry & Geophysics
dc.subjectfluid processes
dc.subjectkomatiite
dc.subjecttonalite-trondhjemite-granodiorite (TTG)
dc.subjectArchaean crustal evolution
dc.subjectISUA SUPRACRUSTAL BELT
dc.subjectOXYGEN ISOTOPES
dc.subjectARCHEAN CRUST
dc.subjectORIGIN
dc.subjectSUBDUCTION
dc.subjectROCKS
dc.subjectPETROGENESIS
dc.subjectMETAMORPHISM
dc.subjectAMPHIBOLITE
dc.subjectGENERATION
dc.titleFluid processes in the early Earth and the growth of continents
dc.typeJournal Article
dcterms.source.volume594
dcterms.source.issn0012-821X
dcterms.source.titleEarth and Planetary Science Letters
dc.date.updated2023-03-09T08:22:20Z
curtin.departmentSchool of Earth and Planetary Sciences (EPS)
curtin.accessStatusOpen access
curtin.facultyFaculty of Science and Engineering
curtin.contributor.orcidJohnson, Tim [0000-0001-8704-4396]
curtin.contributor.orcidHartnady, Michael [0000-0001-5297-9925]
curtin.contributor.orcidKirkland, Christopher [0000-0003-3367-8961]
curtin.contributor.researcheridJohnson, Tim [C-4330-2013]
curtin.contributor.researcheridKirkland, Christopher [S-3305-2016]
curtin.identifier.article-numberARTN 117695
dcterms.source.eissn1385-013X
curtin.contributor.scopusauthoridJohnson, Tim [7404019116]
curtin.contributor.scopusauthoridKirkland, Christopher [14622849000]


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