Early-Middle Jurassic Dolerite Dykes from Western Dronning Maud Land (Antarctica): Identifying Mantle Sources in the Karoo Large Igneous Province

doi:10.1093/petrology/egi023

Journal of Petrology Advance Access originally published online on March 30, 2005
Journal of Petrology 2005 46(7):1489-1524; doi:10.1093/petrology/egi023

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Early–Middle Jurassic Dolerite Dykes from Western Dronning Maud Land (Antarctica): Identifying Mantle Sources in the Karoo Large Igneous Province

TEAL R. RILEY¹^,*, PHILIP T. LEAT¹, MICHAEL L. CURTIS¹, IAN. L. MILLAR¹^,2, ROBERT A. DUNCAN³ and ADELA FAZEL⁴

¹ BRITISH ANTARCTIC SURVEY, NATURAL ENVIRONMENT RESEARCH COUNCIL, HIGH CROSS, MADINGLEY ROAD, CAMBRIDGE CB3 0ET, UK
² NERC ISOTOPE GEOSCIENCES LABORATORY, KEYWORTH, NOTTINGHAM NG12 5GG, UK
³ COLLEGE OF OCEANIC AND ATMOSPHERIC SCIENCES, OREGON STATE UNIVERSITY, CORVALLIS, OR 97331-5503, USA
⁴ DEPARTMENT OF EARTH SCIENCES, WALTON HALL, OPEN UNIVERSITY, MILTON KEYNES MK7 6AA, UK

RECEIVED DECEMBER 22, 2003; ACCEPTED FEBRUARY 9, 2005

A suite of dolerite dykes from the Ahlmannryggen region of westernDronning Maud Land (Antarctica) forms part of the much moreextensive Karoo igneous province of southern Africa. The dykecompositions include both low- and high-Ti magma types, includingpicrites and ferropicrites. New ⁴⁰Ar/³⁹Ar age determinationsfor the Ahlmannryggen intrusions indicate two ages of emplacementat $~$ 178 and $~$ 190 Ma. Four geochemical groups of dykes have beenidentified in the Ahlmannryggen region based on analyses of $~$ 60 dykes. The groups are defined on the basis of whole-rockTiO₂ and Zr contents, and reinforced by rare earth element (REE),⁸⁷Sr/⁸⁶Sr and ¹⁴³Nd/¹⁴⁴Nd isotope data. Group 1 were intrudedat $~$ 190 Ma and have low TiO₂ and Zr contents and a significantArchaean crustal component, but also evidence of hydrothermalalteration. Group 2 dykes were intruded at $~$ 178 Ma; they havelow to moderate TiO₂ and Zr contents and are interpreted tobe the result of mixing of melts derived from an isotopicallydepleted source with small melt fractions of an enriched lithosphericmantle source. Group 3 dyke were intruded at $~$ 190 Ma and formthe most distinct magma group; these are largely picritic withsuperficially mid-ocean ridge basalt (MORB)-like chemistry (flatREE patterns, ⁸⁷Sr/⁸⁶Sr_i $~$ 0·7035, ${varepsilon}$ Nd_i $~$ 9). However, theyhave very high TiO₂ ( $~$ 4 wt %) and Zr ( $~$ 500 ppm) contents, whichis not consistent with melting of MORB-source mantle. The Group3 magmas are inferred to be derived by partial melting of astrongly depleted mantle source in the garnet stability field.This group includes several high Mg–Fe dykes (ferropicrites),which are interpreted as high-temperature melts. Some Group3 dykes also show evidence of contamination by continental crust.Group 4 dykes are low-K picrites intruded at $~$ 178 Ma; they havevery high TiO₂–Zr contents and are the most enriched magmagroup of the Karoo–Antarctic province, with ocean-islandbasalt (OIB)-like chemistry. Dykes of Group 1 and Group 3 aresub-parallel (ENE–WSW) and both groups were emplaced at $~$ 190 Ma in response to the same regional stress field, whichhad changed by $~$ 178 Ma, when Group 2 and Group 4 dykes were intrudedalong a dominantly NNE–SSW strike.

KEY WORDS: flood basalt; depleted mantle; enriched mantle; Ahlmannryggen; Karoo dyke

^* Corresponding author. Telephone: (+44) 1223 221423. Fax: (+44) 1223 362616. E-mail: t.riley{at}bas.ac.uk

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