2002
DOI: 10.1029/2001jb000328
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Repeated crustal thickening and recycling during the Andean orogeny in north Chile (21°–26°S)

Abstract: Understanding Neogene arc crustal thickening in the central Andes requires (1) some estimate of initial pre‐Neogene (prior to 26 Ma) crustal thicknesses and (2) mechanisms that account for the remaining deficit in crustal thickening (10–30%). Mid‐Miocene horizontal crustal shortening can explain most but not all crustal thickening in the modern central Andean arc. Systematic changes in geochemical and Sr, Nd, and selected Pb isotopic data of Late Cretaceous–Eocene (∼78–37 Ma) and older arc magmatic episodes fr… Show more

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Cited by 186 publications
(96 citation statements)
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“…deeper than those associated with the EPRIM samples (e.g., Haschke et al, 2002;Haschke and Günther, 2003;Chung et al, 2009). The magma source depths of MPST is probably related with the underplated mafic magmas and increasing crustal thickness during Eocene and Oligocene (e.g., Chung et al, 2009).…”
Section: Accepted M Manuscriptmentioning
confidence: 99%
“…deeper than those associated with the EPRIM samples (e.g., Haschke et al, 2002;Haschke and Günther, 2003;Chung et al, 2009). The magma source depths of MPST is probably related with the underplated mafic magmas and increasing crustal thickness during Eocene and Oligocene (e.g., Chung et al, 2009).…”
Section: Accepted M Manuscriptmentioning
confidence: 99%
“…The last two processes would produce dominantly juvenile crust, which contradicts the abundant inherited zircons and negative whole rock ε Nd (t) and zircon ε Hf (t) values recorded by the Dengfeng and Xiaoqinling TTGs. The thickening of crust by repeated underplating would be a long-term process and result in evolutionary changes in geochemical and isotopic characteristics (Haschke et al, 2002), which is different from the uniform age of inherited zircons in the Xiaoqinling TTGs (Fig. 3).…”
Section: Orogeny In the Late Neoarchean And Early Paleoproterozoicmentioning
confidence: 99%
“…Therefore, the Dengfeng and Taihua TTGs at 2.30-2.57 Ga are all partial melts of thickened lower crust, which might have formed through orogeny (e.g., Burg and Ford, 1997), repeated underplating (e.g., Furlong and Fountain, 1986;Haschke et al, 2002), intraoceanic plate stacking (De Wit, 1998), and/or oceanic plateau accretion (e.g., De Wit et al, 1992;Desrochers et al, 1993;Condie, 1997). The last two processes would produce dominantly juvenile crust, which contradicts the abundant inherited zircons and negative whole rock ε Nd (t) and zircon ε Hf (t) values recorded by the Dengfeng and Xiaoqinling TTGs.…”
Section: Orogeny In the Late Neoarchean And Early Paleoproterozoicmentioning
confidence: 99%
“…Along the Andean convergent margin, good correlations have been documented between the REE contents of arc lavas and crustal thickness (e.g., Haschke et al, 2002). Thus, the maximum light/heavy REE ratios have been used to infer the maximum thickness of the Tibetan crust and constrain its evolution (e.g., Chung et al, 2009).…”
Section: Implications For Crustal Thickeningmentioning
confidence: 99%