Neogene potassic lavas in northern and southern Tibet have different isotopic (eNd (i) north, À5Á5 to À10Á3; south À8Á8 to À18Á1) and major element signatures suggesting derivation from separate sub-continental lithospheric mantle (SCLM) sources. Inverse trace-element modelling shows that the southern Tibet magmas were derived by 1EEE2% partial melting of a phlogopite and amphibole peridotite, and that the northern samples were derived by 3EEE4% partial melting of a phlogopite peridotite. In both cases, melting is inferred to take place in the spinel stability field. Both sources show large ion lithophile element (LILE) enrichment relative to the high field strength elements (HFSE), and heavy rare earth element (HREE) depletion relative to primitive mantle. LILE/HFSE enrichment suggests subduction-related metasomatism; HREE depletion is indicative of prior melt extraction. Extension postdates the earliest magmatism in southern and northEEEcentral Tibet by 7 Myr and 5 Myr, respectively, which, in combination with the shallow depths of melting inferred for the Tibetan samples, supports geodynamic models invoking thinning of the SCLM. The northern Tibetan magmatism and extension can be explained by convective removal of the lower SCLM; the older ages and arcuate distribution of the southern magmas are most consistent with the SCLM erosion following slab break-off.
. (2016) 'Titanium stable isotope investigation of magmatic processes on the Earth and Moon.', Earth and planetary science letters., 449 . pp. 197-205. Further information on publisher's website:
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