Geology, Age and Origin of Supracrustal Rocks at Akilia, West Greenland
نویسندگان
چکیده
New mapping, geochronology, and geochemistry of the supracrustal enclave and associated orthogneisses at Akilia, West Greenland, support a >3825 6 Ma age for the sequence and a chemical sedimentary origin for the controversial Fe-rich quartz-pyroxene gneisses. Lithologies of the enclave comprise laterally continuous, mappable units of mafic amphibolite, ultramafic rocks, and two Fe-rich quartzpyroxene units. A minor anthophyllite-garnet rock with chemical characteristics suggesting a sedimentary protolith was identified. The earliest foliation parallels lithologic contacts. This foliation was isoclinally folded about a steep hinge surface, and then tightly refolded about a steep NS hinge plane. The latest folding produced limbs exhibiting contrasting strains. The full deformation history is shared by all lithologies of the enclave. Two previously unidentified orthogneiss sheets preserve deformed magmatic crosscutting relations with amphibolite and ultramafic units in the low-strain limb. The supracrustal anthophyllite-garnet rock experienced zircon growth at 3600 and 2700 Ma, in common with amphibolites. These ages are interpreted to reflect metamorphism at granulite and amphibolite facies, respectively, consistent with independent regional evidence. The crosscutting orthogneiss sheets preserve a complex history of zircon growth, but only earliest cores indicate Th/U exchange equilibrium with the bulk rock at magmatic conditions. Weighted-mean Pb/Pb ages of cores of 3730 7 Ma and 3825 6 Ma date the crystallization ages of the sheets, indicating that the Akilia supracrustal rocks were deposited >3819 Ma. Quartz-pyroxene rocks on Akilia have been interpreted as metamorphosed chemical sediments that may preserve carbon-isotope evidence for life at the time of their formation. An alternative proposal is an origin by metasomatic alteration. Our results show that these rocks experienced a history of deformation and zircon growth identical to other lithologies of the supracrustal body. Metamorphic zircons give a minimum Pb/Pb age of 3589 13 Ma regardless of origin. The two models of formation of quartz-pyroxene rocks were evaluated using field, petrologic and geochemical tests. The distribution of the units, the absence of field or petrologic indicators of metasomatism, and geochemistry (oxygen and nontraditional stable isotopes, immobile elements and REE) together support a sedimentary, but not a metasomatic, origin. Because their protolith was sedimentary, the quartz-pyroxene rocks are a primary part of the supracrustal sequence and have the same minimum age. Despite strong deformation and polymetamorphism, the Akilia supracrustal enclave contains information about terrestrial surficial processes at >3819 Ma.
منابع مشابه
Establishment of a 3.83-Ga magmatic age for the Akilia tonalite (southern West Greenland)
A recurring challenge to ion microprobe U^Pb zircon geochronology has been to discriminate between preservation of original igneous zircon populations and inherited grains. This has proved particularly problematic in studying the polyphase metamorphic rocks that dominate Early Archean gneissic terranes. For example, differing interpretations exist for the origin of complex zircon populations in...
متن کاملVestiges of life in the oldest Greenland rocks? A review of early Archean geology in the Godthabsfjord region, and reappraisal of field evidence for > 3850 Ma life on Akilia.
The Godthåbsfjord region of West Greenland contains the most extensive, best exposed and most intensely studied early Archean rocks on Earth. A geological record has been described of numerous magmatic events between ~3.9 and 3.6 Ga, and evidence of life at >3.85 Ga and ~3.8-3.7 Ga has been proposed from two widely-separated localities. Some of these claims have recently been questioned, and th...
متن کاملOrigin and Significance of Archean Quartzose Rocks at Akilia, Greenland
Archean Quartzose Rocks at Akilia, Greenland Fedo and Whitehouse (1) presented data to support their hypothesis that granulite grade quartz magnetite rocks on the island of Akilia, southwest Greenland—which are conformably interposed with pyroxenite and hornblendite units that date from before 3830 million years ago (Ma) (2–4)—had a metasomatic ultramafic igneous origin. They offered that inter...
متن کاملOrigin and significance of Archean quartzose rocks at Akilia, Greenland.
Archean Quartzose Rocks at Akilia, Greenland Fedo and Whitehouse (1) presented data to support their hypothesis that granulite grade quartz magnetite rocks on the island of Akilia, southwest Greenland—which are conformably interposed with pyroxenite and hornblendite units that date from before 3830 million years ago (Ma) (2–4)—had a metasomatic ultramafic igneous origin. They offered that inter...
متن کاملExtreme Nd-isotope heterogeneity in the early Archaean - fact or fiction? Case histories from northern Canada and West Greenland
Sm-Nd data on rock suites from early Archaean provinces in northern Canada and West Greenland clearly demonstrate that tectonothermal (i.e. igneous, metamorphic, tectonic) processes which affected the rocks long after their formation produced open-system behaviour leading to effective resetting of the Sm-Nd system accompanied by complete, or near-complete, Nd-isotope homogenisation. This means ...
متن کامل