Abstract
The petrogenesis of calc-alkaline granitic rocks from the northern part of the Arabian-Nubian shield (ANS) was studied by analyzing the mineralogy, petrography, major and trace element compositions and 87Sr/86Sr isotope ratios in suites of late Proterozoic granitoides, diorites and mafic xenoliths from Elat massif. The granites and mafic xenoliths lie on linear correlations in the major element variation diagrams and in the Rb-Sr isotope (isochron) diagram, where they yield an isochron age of 621±12Ma and initial ratio of 87Sr/86Sr=0.7034±2. Our interpretation is that the two groups are cogenetic and that the isochron indicates the formation age of mafic to granitic magmas. Several petrogenetic models were examined to explain this genetic relation. We conclude that the chemical and isotopic data are best satisfied by crustal anatexis - partial melting model. The calc-alkaline granitic magmas (such as those comprising the Elat granitic plutons) are produced by partial melting of hydrous mafic crustal rocks. Non-modal batch melting of an amphibolitic source (formed earlier above a subduction zone) could produce the suite of calc-alkaline felsic magmas, leaving a residual mafic rocks that were later trapped as xenoliths. We assume that the mafic mineral assemblage represented by the most mafic xenolith was in equilibrium with Elat granite. A melting model of a hydrous amphibolitic crustal source predicts REE patterns similar to Elat granite. The initial 87Sr/86Sr ratio of the Elat calc-alkaline granites and mafic xenoliths is consistent with the anticipated value of the juvenile magmas (~0.7034), indicating that the parental basaltic magmas that formed the amphibolitic source were derived from an enriched-mantle reservoir.
Original language | English |
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Pages (from-to) | 252-264 |
Number of pages | 13 |
Journal | Precambrian Research |
Volume | 236 |
DOIs | |
State | Published - Oct 2013 |
Bibliographical note
Funding Information:The study was inspired by Zvi Garfunkel who also guided us to the locations of the mafic xenoliths at the Elat area. We thank Olga Yafe, Ludwik Halicz and Irena Segal who helped in the chemical and strontium isotope analyses at the Geological Survey (GSI). Moshe Perri prepared the thin sections at the GSI. Yaakov Weiss devoted precious time in helping with the microprobe analyses at the Institute of Earth Sciences, Hebrew University. The paper benefitted the comments of two anonymous reviewers. Research was supported by Israel Ministry of Energy and Infrastructure grant ES132008 to ON.
Keywords
- Arabian-Nubian shield
- Calc-alkaline granite
- Crustal anatexis
- Mafic xenoliths