Vv. Yarmolyuk et al., Formation stages and sources of the peralkaline granitoid magmatism of theNorthern Mongolia-Transbaikalia rift belt during the Permian and Triassic, PETROLOGY, 9(4), 2001, pp. 302-328
Rb-Sr and Sm-Nd isotopic systems were investigated in the peralkaline grani
toids and comagmatic volcanic rocks, which compose the Northern Mongolia-Tr
ansbaikalia Belt (NMTB). The belt extends over more than 2000 km at a width
of 200-300 km. It includes more than 350 syenite-granite plutons and a num
ber of volcanic fields. The majority of plutons and volcanic sequences of t
he NMTB were formed in the end of the Paleozoic and beginning of the Mesozo
ic (main stage). The isotopic investigations were carried out in two key re
gions, which comprise typical and comprehensively studied associations of g
ranitoids and volcanic rocks. The Rb-Sr isotopic dating showed that the mai
n stage of NMTB formation began at 275 Ma and terminated at ca. 210 Ma. Thi
s stage is subdivided into several discrete magmatic episodes occurring in
the Middle-Late Permian (275-250 Ma) and the Late Triassic (225-210 Ma). Du
ring each episodes, large (up to 2000 km(2)) volcano-plutonic structures we
re formed. The magmatism was located mainly in the western segment of the N
MTB (northern Mongolia) in the Middle-Late Permian and in the eastern segme
nt (Transbaikalia), in the Late Triassic. The movement of magma generation
zones from the western to the eastern part of the belt with a displacement
amplitude of ca. 800 km was related to the clockwise rotation of the North
Asia continent above the mantle plume that controlled intraplate activity i
n the southern margin of North Asia in the Late Paleozoic and Mesozoic. The
Sm-Nd and Rb-Sr isotopic data indicate that mantle-derived material played
an essential role in the formation of peralkaline silicic magmas. The unus
ually high homogenization temperatures of melt inclusions in quartz phenocr
ysts from comendite (up to 1100 degreesC) at H2O and F contents no lower th
an I wt % in the magmas suggest either significant (subcrustal) depths of s
ilicic magma formation or their anomalous heating in crustal magma chambers
owing to basaltic melt injection.