A Late Cretaceous felsic magmatic suite from the Tengchong Block, western Yunnan: Integrated geochemical and isotopic investigation and implications for Sn mineralization
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Sun, Zhuanrong
Dong, Guochen
Santosh, M.
Mo, Xuanxue
Dong, Pengsheng
Wang, Weiqing
Fu, Bin
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Cambridge University Press
Abstract
The Tengchong Block within the Sanjiang Tethys belt in the southeastern part of the Tibetan
plateau experienced a widespread intrusion of a felsic magmatic suite of granites in its central
domain during Late Cretaceous times. Here, we investigate the Guyong and Xiaolonghe plutons
from this suite in terms of their petrological, geochemical, and Sr–Nd, zircon U–Pb and
Lu–Hf–O isotopic features to gain insights into the evolution of the Neo-Tethys. The Guyong
pluton (76 Ma) is composed of metaluminous monzogranites, and the Xiaolonghe pluton
(76 Ma) is composed of metaluminous to peraluminous medium- and fine-grained syenogranite.
A systematic decrease in Eu, Ba, Sr, P and Ti concentrations; a decrease in Zr/Hf and LREE/HREE
ratios; and an increase in the Rb/Ba and Ta/Nb ratios from the Guyong to Xiaolonghe plutons
suggest fractional crystallization of biotite, plagioclase, K-feldspar, apatite, ilmenite and titanite.
They also show the characteristics of I-type granites. The negative zircon εHf(t) isotopic values
(−10.04 to −5.22) and high δ18O values (6.69 to 8.58 ‰) and the negative whole-rock εNd(t)
isotopic values (−9.7 to −10.1) and high initial 87Sr/86Sr ratios (0.7098–0.7099) of the Guyong
monzogranite suggest that these rocks were generated by partial melting of the Precambrian
basement without mantle input. The zircon εHf(t) isotopic values (−10.63 to −3.04) and δ18O
values (6.54 to 8.69 ‰) of the Xiaolonghe syenogranite are similar to the features of the
Guyong monzogranite, and this similarity suggests a cogenetic nature and magma derivation
from the lower crust that is composed of both metasedimentary and meta-igneous rocks.
The Xiaolonghe fine-grained syenogranite shows an obvious rare earth element tetrad effect
and lower Nb/Ta ratios, which indicate its productive nature with respect to ore formation.
In fact, we discuss that the Sn mineralization in the region was possible due to Sn being scavenged
from these rocks by exsolved hydrothermal fluids. We correlate the Late Cretaceous magmatism
in the central Tengchong Block with the northward subduction of the Neo-Tethys beneath the
Burma–Tengchong Block.
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Geological Magazine
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2037-12-31
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