A Sequence of Pan-African and Hercynian Events Recorded in Zircons from an Orthogneiss from the Hercynian Belt of Western Central Iberia--an Ion Microprobe U-Pb Study

doi:10.1093/petrology/egh026

Journal of Petrology Advance Access originally published online on July 1, 2004
Journal of Petrology 2004 45(8):1613-1629; doi:10.1093/petrology/egh026

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A Sequence of Pan-African and Hercynian Events Recorded in Zircons from an Orthogneiss from the Hercynian Belt of Western Central Iberia—an Ion Microprobe U–Pb Study

H. P. ZECK¹^,*, M. T. D. WINGATE¹, G. D. POOLEY² and J. M. UGIDOS³

¹ TECTONICS SPECIAL RESEARCH CENTRE, SCHOOL OF EARTH AND GEOGRAPHICAL SCIENCES M004, THE UNIVERSITY OF WESTERN AUSTRALIA, CRAWLEY, WA 6009, AUSTRALIA
² CENTRE FOR MICROSCOPY AND MICROANALYSIS M010, THE UNIVERSITY OF WESTERN AUSTRALIA, CRAWLEY, WA 6009, AUSTRALIA
³ DEPARTAMENTO DE GEOLOGÍA, UNIVERSIDAD DE SALAMANCA, FACULTAD DE CIENCIAS, PLAZA DE LA MERCED, E 37008 SALAMANCA, SPAIN

^* Corresponding author. Present address: Geological Museum and Institute, Copenhagen University, ØsterVoldgade 10, 1350K Copenhagen, Denmark. E-mail: zeck.frappier{at}wanadoo.fr

Sensitive high-resolution ion microprobe U–Pb dating showsthat a biotite orthogneiss from the Hercynian belt of westerncentral Iberia contains 1000–300 Ma zircon. Older, 1000–570Ma ages within this range represent inherited, detrital materialamong which four age components may be recognized: $~$ 980 Ma, $~$ 830Ma, 616 ± 10(2 ${sigma}$ ) Ma and 582 ± 5(2 ${sigma}$ ) Ma. This inheritedzircon commonly forms cores that are surrounded by rims yieldingLate Pan-African ages, identical to those found in slender,prismatic, and some stubbier, bi-pyramidal, euhedral crystals.This is the predominant type of zircon with an average age of546 ± 3(2 ${sigma}$ ) Ma, thought to have been formed during themain magmatic crystallization stage of the granitic protolithof the gneiss. Local deuteric replacements of magmatic zirconyield a virtually identical average age of 547 ± 5(2 ${sigma}$ )Ma, suggesting rapid magmatic cooling, typical of shallow intrusivesettings. Many zircon crystals have very thin, low-Th/U rimswith an age of $~$ 315 Ma, suggested to represent the gneissificationof the granitic rock during the Hercynian orogeny. The abundancein the gneiss body of Al-rich restitic material and inherited,detrital zircon suggests that the granitic magma was formedby anatectic melting of a meta-sedimentary source rock complex.The age of the youngest inherited, detrital zircon constrainsthe sedimentation age of the (youngest parts of the) anatecticsource rock complex to the Late Neoproterozoic (<582 ±5 Ma) and leaves a maximum period of $~$ 40 Myr for metamorphismand anatexis of the source rock complex, and migration and intrusionof the granitic magma. Among the inherited, detrital zirconthe 616 ± 10(2 ${sigma}$ ) Ma and 582 ± 5(2 ${sigma}$ ) Ma ages areby far the most abundant, and might be derived from the WestAfrican craton, where such ages are common for main-stage Pan-Africancomplexes. The older, $~$ 980 Ma and $~$ 830 Ma inherited zircon agesare absent or rare in the West African craton and a derivationfrom the Amazon craton (Grenvillian, Sunsas orogens), wheresuch ages are common, is an alternative.

KEY WORDS: SIMS U–Pb Zircon dating; inherited, magmatic, deuteric and metamorphic granitic zircon; anatectic granite; Iberian Hercynian belt

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