Oxygen isotope geochemistry of rocks from the pre-pilot hole of the Chinese Continental Scientific Drilling Project (CCSD-PPH1)

2005 | conference paper. A publication with affiliation to the University of Göttingen.

Jump to:Cite & Linked | Documents & Media | Details | Version history

Cite this publication

​Oxygen isotope geochemistry of rocks from the pre-pilot hole of the Chinese Continental Scientific Drilling Project (CCSD-PPH1)​
Zhang, Z. M.; Rumble, D.; Liou, J. G.; Xiao, Y. L. & Gao, Y. J.​ (2005)
American Mineralogist90(5-6) pp. 857​-863. ​Annual Meeting of the Geological-Society-of-America​, Seattle, WA.
Washington​: Mineralogical Soc Amer. DOI: https://doi.org/10.2138/am.2005.1650 

Documents & Media

License

GRO License GRO License

Details

Authors
Zhang, Z. M.; Rumble, D.; Liou, J. G.; Xiao, Y. L.; Gao, Y. J.
Abstract
The Qinglongshan O- and H-isotope anomaly occurs within a coesite-bearing, eclogite-facies regional metamorphic belt in Eastern China near Donghai in Jiangsu province. The anomaly is defined by low values of delta(18)O and delta D. Garnets from eclogite have delta(18)O as low as -11 parts per thousand and rutiles are -15 parts per thousand (VSMOW). Phengites have delta D of -120 parts per thousand (VSMOW). The anomaly is Neoproterozoic in age. Surface outcrops of coesite-eclogite-facies rocks with unusually low delta(18)O and delta D values extend over an area of at least 1600 km(2). The Chinese Continental Scientific Drilling project has made it possible to investigate the depth of the Qinglongshan anomaly and to measure an O-isotope profile across a garnet peridotite body sandwiched between crustal rocks. New O-isotope analyses of minerals separated from drill core gneisses, eclogites, amphibolite, and quartzite verify that the Qinglongshan O-isotope anomaly extends to a depth of at least 432 in. Crustal rocks with unusually low PO form both the hanging- and foot-walls of a 100 m thick, fault-bounded, garnet peridotite body intersected by the drill. Minerals of the garnet peridotite body have delta(18)O values indistinguishable from mantle nodules and megacrysts. The garnet peridotites may have originated from enriched mantle sources in sub-cratonic lithosphere, isolated from mantle convection. This origin is consistent with the collision of the Archean Sino-Korean craton with the Yangtze plate, consequent subduction, and UHP metamorphism. The garnet peridotite was transported from the mantle and emplaced into UHP crustal rocks during Triassic subduction and cratonic collision.
Issue Date
2005
Status
published
Publisher
Mineralogical Soc Amer
Journal
American Mineralogist 
Conference
Annual Meeting of the Geological-Society-of-America
Conference Place
Seattle, WA
ISSN
0003-004X

Reference

Citations


Social Media