Contrasting Enrichments in High- and Low-Temperature Mantle Xenoliths from Nushan, Eastern China: Results of a Single Metasomatic Event during Lithospheric Accretion?

doi:10.1093/petrology/egg098

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Journal of Petrology | Volume 45 | Number 2 | Pages 321-341 | 2004
© Oxford University Press 2004; all rights reserved

Contrasting Enrichments in High- and Low-Temperature Mantle Xenoliths from Nushan, Eastern China: Results of a Single Metasomatic Event during Lithospheric Accretion?

YI-GANG XU¹^,* and JEAN-LOUIS BODINIER²

¹ GUANGZHOU INSTITUTE OF GEOCHEMISTRY, CHINESE ACADEMY OF SCIENCES, 510640 WUSHAN, GUANGZHOU, P.R. CHINA
² LABORATOIRE DE TECTONOPHYSIQUE, ISTEEM, UMR 5568, CC 49, CNRS AND UNIVERSITÉ MONTPELLIER 2, 34095 MONTPELLIER, FRANCE

^* Corresponding author. Telephone: 86 20 85290109. Fax: 86 20 85290130. E-mail: yigangxu{at}gig.ac.cn

Distinct equilibration temperatures, deformation and trace elementcharacteristics are observed in amphibole-bearing and amphibole-freeperidotite xenoliths from Nushan, Sino-Korean Craton, easternChina. Amphibole-free peridotites are predominantly deformed,fine-grained ( $~$ 1 mm) and equilibrated at 990–1110°C.Their cpx are characterized by either light rare earth element(LREE)-depleted or relatively flat REE patterns with only aslight depletion in high field strength elements (HFSE). LREEenrichment is generally associated with Fe-rich samples, consistentwith ‘wall-rock’ metasomatism adjacent to basalticveins. In contrast, amphibole-bearing peridotites are less deformed,coarse-grained (>3 mm) and display chemical zonation in thepyroxenes suggesting cooling from 1050 to 850°C. Their cpxshow a large variation in LREE (Ce_n = 1·7–68) andalmost constant heavy rare earth element (HREE) contents (Yb_n= 9·8–11·6). The highest LREE contents occurin cpx from amphibole-rich samples, coupled with Fe enrichment,strong enrichment in Th and U, and marked depletion in the HFSE.These characteristics may be accounted for by combined ‘wall-rock’and ‘diffuse’ metasomatism involving an agent richin volatiles and incompatible elements. As such the Nushan xenolithscould represent samples from two spatially separate metasomaticaureoles. Conversely, the cryptic and modal metasomatism couldbe genetically related, because the amphibole-peridotites andFe-rich amphibole-free samples show similar Sr–Nd isotopicranges that are indistinguishable from those of the Cenozoicbasalts from eastern China. The different metasomatic assemblageand the trace element composition can be accounted for in termsof P–T control on amphibole stability and progressivechemical evolution of asthenosphere-derived melts during upwardmigration. Trace element signatures and metasomatic assemblages,together with the fertile composition of the Nushan peridotites,suggest an origin as newly accreted lithosphere rather thanas relic cratonic mantle. Metasomatism may have occurred afterlate Mesozoic lithospheric thinning, which marked a dramaticchange in lithospheric architecture beneath the Sino-KoreanCraton.

KEY WORDS: mantle; metasomatism; peridotite xenoliths; thermal evolution; trace element geochemistry; Sino-Korean Craton

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