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Journal of Petrology | Volume 39 | Number 8 | Pages 1405-1424 | 1998
© Oxford University Press 1998

Geochemistry and Petrogenesis of Nepheline Syenites: Kasungu–Chipala, Ilomba, and Ulindi Nepheline Syenite Intrusions, North Nyasa Alkaline Province, Malawi

G. Nelson Eby1,*, Alan R. Woolley2, Vic Din2 and Garth Platt3

1 Department of Environmental, Earth & Atmospheric Sciences, University of Massachusetts Lowell, MA 01854, USA
2 Department of Mineralogy, Natural History Museum Cromwell Road, London SW7 5BD, UK
3 Department of Geology, Lakehead University Thunder Bay, Ont., Canada P7B 5E1

Received April 18, 1997; Revised typescript accepted February 12, 1998


  Abstract

The North Nyasa Alkaline Province of Malawi consists of seven Late Precambrian intrusions emplaced along a north–south trend roughly parallel to that of the current rift valley. The intrusions are predominantly nepheline syenite, but minor pyroxenite is found at Ilomba and alkali syenite and granite are associated with nepheline syenite at Mphompha. The chemistry and mineralogy of four representative nepheline syenite intrusions (Kasungu, Chipala, Ilomba, and Ulindi) have been investigated. Pyroxenes vary in composition from diopside (pyroxenite) through aegirine-augite to aegirine. Al-rich micas (Ilomba and Ulindi) may reflect primary magmatic compositions. Rocks from three intrusions plot near the minimum in the 1 kbar Nepheline–Albite–Orthoclase–Kalsilite phase diagram, indicating that they represent evolved liquids. Rocks from the fourth intrusion (Ilomba) are apparently cumulates. NbTa, Zr/Hf, and Th/U ratios vary from those typical of ocean-island basalt (OIB) to very high ratios which may reflect a hydrothermal overprint. Rare earth element patterns are steep, slightly to moderately concave upwards, and typically lack Eu anomalies. The Ulindi and Ilomba nepheline syenites were derived by nepheline, pyroxene, and titanite fractionation of a basanite–nephelinite magma, whereas the Kasungu and Chipala nepheline syenites were fractionated from an alkali basalt magma. These magmas originated from a subcontinental OIB-like source.

KEY WORDS: element ratios; geochemistry; Malawi; nepheline syenite; OIB-like source

* Corresponding author. Telephone: (978) 934-3907. Fax: (978) 934-3069. e-mail: Nelson_Eby{at}uml.edu


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