Garnet Granulite Xenoliths from the Northern Baltic Shield--the Underplated Lower Crust of a Palaeoproterozoic Large Igneous Province?

doi:10.1093/petrology/42.4.731

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Journal of Petrology Volume 42 Number 4 Pages 731-763 2001
© Oxford University Press 2001

Garnet Granulite Xenoliths from the Northern Baltic Shield—the Underplated Lower Crust of a Palaeoproterozoic Large Igneous Province?

P. D. KEMPTON¹^,*, H. DOWNES², L. A. NEYMARK³, J. A. WARTHO⁴, R. E. ZARTMAN⁵^, and E. V. SHARKOV⁶

¹NERC ISOTOPE GEOSCIENCES LABORATORY, KINGSLEY DUNHAM CENTRE, KEYWORTH NG12 5GG, UK
²BIRKBECK/UCL RESEARCH SCHOOL OF GEOLOGICAL AND GEOPHYSICAL SCIENCES, BIRKBECK COLLEGE, MALET STREET, LONDON WC1E 7HX, UK
³US GEOLOGICAL SURVEY, DFC, BOX 25046, MS 963, DENVER, CO, USA
⁴DEPARTMENT OF EARTH SCIENCES, OPEN UNIVERSITY, WALTON HALL, MILTON KEYNES MK7 6AA, UK
⁵DEPARTMENT OF GEOLOGICAL SCIENCES, UNIVERSITY OF CAPE TOWN, RONDEBOSCH 7700, SOUTH AFRICA
⁶IGEM, STAROMONETNY PER 35, MOSCOW, 109017, RUSSIA

Garnet granulite facies xenoliths hosted in Devonian lamprophyresfrom the Kola Peninsula are interpreted to represent the high-grademetamorphic equivalents of continental flood tholeiites, emplacedinto the Baltic Shield Archaean lower crust in early Proterozoictime. Geochronological data and similarities in major and traceelement geochemistry suggest that the xenoliths formed duringthe same plume-related magmatic event that created a widespreadPalaeoproterozoic large igneous province (LIP) at 2·4–2·5Ga. They are, thus, the first samples of the lower crust ofa Palaeoproterozoic LIP to be studied in petrological detail.The suite includes mafic granulites (gar + cpx + rutile ±plag ± opx ± phlog ± amph), felsic granulites(plag + gar + cpx + rutile ± qtz ± Kspar ±phlog ± amph) and pyroxenites (± phlog ±amph), but mafic garnet granulites predominate. Although somesamples are restites, there is no evidence for a predominanceof magmatic cumulates, as is common for Phanerozoic lower-crustalxenolith suites. Metasediments are also absent. Phlogopite and/oramphibole occur in xenoliths of all types and are interpretedto be metasomatic in origin. The K-rich metasomatic event occurredat $~$ 2·0 Ga, and led to substantial enrichment in Rb, K,LREE/HREE, Th/U, Th/Pb and, to a lesser extent, Nb and Ti. Thefluids responsible for this metasomatism were probably derivedfrom a second plume that arrived beneath the region at thistime. Evidence for partial melting of mafic crust exists inthe presence of migmatitic granulites. The timing of migmatizationoverlaps that of metasomatism, and it is suggested that migmatizationwas facilitated by the metasomatism. The metamorphism, metasomatismand migmatization recorded in the Kola granulite xenoliths maybe representative of the processes responsible for convertingArchaean LIP-generated proto-continents into continental crust.

KEY WORDS: granulite xenoliths; metasomatism; migmatization; Sr–Nd–Pb isotopes; geochronology

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