A xenolith-derived geotherm and the crust-mantle boundary at Qilin, southeastern China

X. Xu*, S. Y. O'Reilly, X. Zhou, W. L. Griffin

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

114 Citations (Scopus)


Pressure-temperature estimates on a group of well-equilibrated garnet pyroxenites from the Qilin locality, southeastern China have been used to construct the first detailed, locality-specific paleogeotherm for eastern China. This xenolith-defined geothermal gradient is comparable to that for northwestern Spitsbergen, Norway, and higher than that derived for southeastern Australia. The strong curvature of this geotherm between 20 and 50 km depth indicates that advection, rather than conduction was the dominant heat-transfer mechanism in the lower crust and upper mantle at that time. Underplating and overplating of basaltic magmas at the crust-mantle boundary is the likely cause of the advective heat transfer. Temperature estimates on two-pyroxene granulites suggest they were entrained from the lower crust. The crust-mantle boundary, defined from the lowest temperature estimates for spinel lherzolites, lies at ca 27 km depth in this locality. This is shallower than the Moho (∼ 31 km) defined by seismic refraction. Calculation of Vp for the xenolith rock types, and comparison with observed Vp data, allow definition of a stratigraphic sequence. From 27 to 31 km depth, garnet granulites, spinel lherzolites and garnet pyroxenites may be interlayered in a transitional zone. Comparison with present-day heat flow measurements and seismic results suggest that this lithospheric section has undergone cooling since the Cenozoic volcanism.

Original languageEnglish
Pages (from-to)41-62
Number of pages22
Issue number1-2
Publication statusPublished - Jul 1996


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