Evaluating the relative roles of crustal growth versus reworking through continental arc magmatism:A case study from the Ross orogen, Antarctica
Arc magmatism in subduction zone settings reflects variable contributions of melts sourced from the mantle wedge, downgoing oceanic slab and sediments, and from partial re-melting of the upper plate. Magmas sourced from the mantle wedge that ascend into and differentiate in the upper plate—evolving...
| Published in: | Gondwana Research |
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| Main Authors: | , |
| Format: | Article in Journal/Newspaper |
| Language: | English |
| Published: |
2018
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| Subjects: | |
| Online Access: | https://pure.au.dk/portal/da/publications/evaluating-the-relative-roles-of-crustal-growth-versus-reworking-through-continental-arc-magmatism(b16011a4-e638-4f3c-bde2-f2180fe30448).html https://doi.org/10.1016/j.gr.2017.11.006 |
| Summary: | Arc magmatism in subduction zone settings reflects variable contributions of melts sourced from the mantle wedge, downgoing oceanic slab and sediments, and from partial re-melting of the upper plate. Magmas sourced from the mantle wedge that ascend into and differentiate in the upper plate—evolving to more felsic and buoyant compositions—represent new additions of continental crust, while re-melting of the upper plate may be an important process in the “refinement” of pre-existing continental crust. It is clear that island arc magmatism generates new continental crust, but determining the predominance of either crustal growth or reworking in continental arc settings is more challenging. Granites (sensu lato) are a conspicuous and ubiquitous feature in eroded continental arcs. However, there is no consensus on whether they represent predominantly reworked pre-existing crust or new additions of continental crust through the differentiation of mantle-derived (juvenile) magmas. We assess the relative magnitudes of crustal growth and reworking in a 500-km-long segment of the Ross orogen of Antarctica—an archetypal example of a long-lived “Cordilleran-style” continental arc—utilizing an extensive set of zircon Hf (~ 70 samples) and whole rock Nd and Sr (15 samples) isotopic data for igneous rocks with compositions ranging from gabbro to granite. Initial ɛNd and 87 Sr/ 86 Sr values range from + 0.1 to − 10.3 and ~ 0.7044 to 0.7137, respectively. Initial ɛHf values (weighted means of individual analyses from each sample) are predominantly negative—ranging from + 4.3 to − 12.3. The moderately enriched isotope compositions may be qualitatively interpreted as a record of a dominant crustal component in the source of the granitoids. However, inherited zircon domains provide evidence for significantly less-radiogenic ancient crust in the unexposed basement of the orogen. Additionally, the least evolved samples (SiO 2 < 52 wt%; Mg# > 69) range in initial ɛHf from approximately + 0.8 to − 4.0, representing juvenile ... |
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