Correlations between U, Th Content and Metamorphic Grade in the Western Namaqualand Belt, South Africa, with Implications for Radioactive Heating of the Crust

doi:10.1093/petrology/egl004

Journal of Petrology Advance Access originally published online on March 7, 2006
Journal of Petrology 2006 47(6):1095-1118; doi:10.1093/petrology/egl004

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Correlations between U, Th Content and Metamorphic Grade in the Western Namaqualand Belt, South Africa, with Implications for Radioactive Heating of the Crust

MARCO A. G. ANDREOLI¹^,*, RODGER J. HART², LEWIS D. ASHWAL¹ and HENK COETZEE³

¹ SCHOOL OF GEOSCIENCES, UNIVERSITY OF THE WITWATERSRAND, PRIVATE BAG 3, WITS 2050, JOHANNESBURG, SOUTH AFRICA
² ITHEMBA LABS (GAUTENG), P. BAG 3, WITS 2050, JOHANNESBURG, SOUTH AFRICA
³ COUNCIL FOR GEOSCIENCES, P.O. BOX 112, PRETORIA 0001, SOUTH AFRICA

RECEIVED JULY 1, 2004; ACCEPTED JANUARY 13, 2006

The digital image of airborne radiometric data across SouthAfrica reveals that the largest anomaly, $≥$ 100 nGy/h, is causedby the granulite-facies rocks of the Namaquan metamorphic complex,whereas most of the country is <60 nGy/h. This observationis consistent with geochemical data that show that the $~$ 1900± 100 Ma greenschist-facies Richtersveld Terrane nearNamibia (max. U = 3·4 ppm; Th = 20·1 ppm) andthe adjacent, 1100 ± 100 Ma, amphibolite-facies Aggeneys/SteinkopfTerranes (max. U ${approx}$ 10 ppm; Th ${approx}$ 52 ppm) are the least enrichedin U, Th and K. In contrast, the lower-T granulite-facies OkiepTerrane near Springbok hosts more enriched granites (max. U ${approx}$ 17 ppm; Th ${approx}$ 66 ppm) and noritic intrusions (max. U = 14 ppm;Th = 83 ppm). The most enriched rocks are found in the 1030Ma higher-T granulite-facies core of the Namaquan belt and includequartzo-feldspathic gneisses (max. U = 46 ppm; Th = 90 ppm)and charnockites (max. U = 52 ppm; Th = 400 ppm). Our findingscontradict the notion that granulite-facies terrains are characteristicallydepleted in U and Th. In this study we modeled the heat productionin the core of the Namaquan complex, where the granulites havehad a very unusual metamorphic history, and show that ultra-high-T( $~$ 1000°C, P $~$ 10 kbar) metamorphic conditions could have beenachieved by radiogenic heating without invoking external heatsources. However, monazite-rich veins of charnockite and patchesof granulites mark the passage of CO₂-dominated melts and fluidsderived from fractionated noritic intrusions.

KEY WORDS: charnockite; granulite; Namaqualand; thorium; uranium; radioactive heating; metamorphism

^* Corresponding author. Present address: Necsa (South African Nuclear Energy Corporation), P.O. Box 582, Pretoria 0001, South Africa. Telephone: +27 (12) 305-6419. Fax: +27 (12) 305-6797. E-mail: marco{at}necsa.co.za

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