Abstract
Serpentinization of ultramafic rocks in ophiolites is key to understanding the global cycle of elements and changes in the physical properties of lithospheric mantle. Mongolia, a central part of the Central Asian Orogenic Belt (CAOB), contains numerous ophiolite complexes, but the metamorphism of ultramafic rocks in these ophiolites has been little studied. Here we present the results of our study of the serpentinization of an ultramafic body in the Manlay Ophiolite, southern Mongolia. The ultramafic rocks were completely serpentinized, and no relics of olivine or orthopyroxene were found. The composition of Cr-spinels [Mg# = Mg/(Mg + Fe2+) = 0.54 and Cr# = Cr/(Cr + Al) = 0.56] and the bulk rock chemistry (Mg/Si = 1.21–1.24 and Al/Si < 0.018) of the serpentinites indicate their origin from a fore-arc setting. Lizardite occurs in the cores and rims of mesh texture (Mg# = 0.97) and chrysotile is found in various occurrences, including in bastite (Mg# = 0.95), mesh cores (Mg# = 0.92), mesh rims (Mg# = 0.96), and later-stage large veins (Mg# = 0.94). The presence of lizardite and chrysotile and the absence of antigorite suggests low-temperature serpentinization (<300 °C). The lack of brucite in the serpentinites implies infiltration of the ultramafic rocks of the Manlay Ophiolite by Si-rich fluids. Based on microtextures and mineral chemistry, the serpentinization of the ultramafic rocks in the Manlay Ophiolite took place in three stages: (1) replacement of olivine by lizardite, (2) chrysotile formation (bastite) after orthopyroxene and as a replacement of relics of olivine, and (3) the development of veins of chrysotile that cut across all previous textures. The complex texture of the serpentinites in the Manlay Ophiolite indicates multiple stages of fluid infiltration into the ultramafic parts of these ophiolites in southern Mongolia and the CAOB.
Highlights
Serpentinization is the formation of serpentine group minerals as a result of the hydrothermal alteration of Mg-rich minerals such as olivine, orthopyroxene, and clinopyroxene in ultramafic rocks (Pinti, 2011)
We present our results from a study of the completely serpentinized ultramafic rocks of the Manlay Ophiolite, which is one of the best -preserved and most significant ophiolites in southern Mongolia and the Central Asian Orogenic Belt (CAOB)
Based on the identification of serpentine mineral species, mineral chemistry, and bulk rock compositions, we propose, that the ultramafic rocks of the Manlay Ophiolite interacted with silicarich fluids to become serpentinized at shallow levels of the mantle wedge
Summary
Serpentinization is the formation of serpentine group minerals as a result of the hydrothermal alteration of Mg-rich minerals such as olivine, orthopyroxene, and clinopyroxene in ultramafic rocks (Pinti, 2011). We present our results from a study of the completely serpentinized ultramafic rocks of the Manlay Ophiolite, which is one of the best -preserved and most significant ophiolites in southern Mongolia and the CAOB. Mesh cores and large veins show three high wavenumber peaks (3686-3687, 3692, and 3699 -3700 cm−1) indicating a mixture of chrysotile and lizardite at the microscopic level (less than the size of the beam spot of the micro-Raman spectroscope; Fig. 2b). Serpentine minerals The chrysotiles are rich in Fe with Mg# (= Mg/ Mg + Fetotal) values varying slightly from bastite cores (Mg# = 0.96) to bastite rims (0.95), mesh cores (0.92), mesh rims (0.96), and large veins (0.94), whereas the lizardites (mesh cores and rims) are relatively poor in Fe with nearly constant Mg# values of 0.97 (Table 3). The ratios of Mg/Si in the serpentinites vary from 1.219-1.245 and the Al/Si ratios are lower than 0.018 (Table 2)
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