2014
DOI: 10.1002/2014gc005486
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Geochemical insights into the role of metasomatic hornblendite in generating alkali basalts

Abstract: Experimental petrology suggested the role of hornblendite in generating alkali basalt. This mechanism is confirmed by an integrated study of major-trace elements and radiogenic isotopes for Mesozoic alkali basalts from the Qinling orogen in China. The alkali basalts have high contents of MgO (4.8-11.1 wt %, Mg# 5 47-69), Na 2 O 1 K 2 O (2.9-5.4 wt %), TiO 2 (2.0-3.1 wt %) but low content of SiO 2 (41.4-49.6 wt %), which are generally silica-undersaturated with normative minerals of nepheline and olivine. They … Show more

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Cited by 45 publications
(20 citation statements)
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References 104 publications
(226 reference statements)
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“…Generally, continental crust often begins to subduct/collide after the oceanic subduction due to the pulling force during the whole orogenic process (Ye et al, 2000;Dai et al, 2014Dai et al, , 2015Li, 2014;Turcotte and Schubert, 2014;Zhou et al, 2015). Being a typical continental subduction/collision orogen, HP-UHP rocks from South Altyn were shown by previous studies to have experienced continental deep subduction and two subsequent uplifts .…”
Section: Tectonic Significancementioning
confidence: 99%
“…Generally, continental crust often begins to subduct/collide after the oceanic subduction due to the pulling force during the whole orogenic process (Ye et al, 2000;Dai et al, 2014Dai et al, , 2015Li, 2014;Turcotte and Schubert, 2014;Zhou et al, 2015). Being a typical continental subduction/collision orogen, HP-UHP rocks from South Altyn were shown by previous studies to have experienced continental deep subduction and two subsequent uplifts .…”
Section: Tectonic Significancementioning
confidence: 99%
“…Sobolev et al 2005;Herzberg 2011), and melting of amphibole-rich lithologies in the lithosphere or at the lithosphere-asthenosphere boundary (e.g. Pilet et al 2011;Dai et al 2014).…”
Section: Anorogenic Magmatismmentioning
confidence: 99%
“…Reaction of these melts with the overlying mantle wedge peridotite would generate pyroxene/amphibole-rich metasomatites. The metasomatites could be stored in the lithospheric mantle for a long time, and then become partially melted to give rise to mafic igneous rocks, which have OIB-like trace element distribution patterns, depleted radiogenic isotope compositions and H-O isotope compositions different from those of the normal mantle (Zheng, 2012;Dai et al, 2014Dai et al, , 2015aDai et al, , 2015bXu et al, 2014aXu et al, , 2014b.…”
Section: The Crust-mantle Interaction In Subduction Channelmentioning
confidence: 99%
“…The produced felsic melts are remarkably enriched in LILE and LREE but depleted in HFSE and HREE due to the stability of rutile and garnet during the dehydration melting. If the accessory minerals of rutile and garnet decompose, the resulted melts would be not depleted and even enriched in HFSE and HREE (Ringwood, 1990;Zheng, 2012;Dai et al, 2014Dai et al, , 2015b. In any case, these felsic melts would metasomatize the overlying mantle wedge above subduction channel, generating the mantle sources of mafic igneous rocks in deep subduction zones.…”
Section: The Crust-mantle Interaction In Subduction Channelmentioning
confidence: 99%
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