Research output: Contribution to journal › Article › peer-review
Features of the Structures and Evolution of the Lower Part of the Continental Crust of the Yakutian Diamondiferous Province within the Upper Muna Kimberlite Field. / Shatsky, V. S.; Ragozin, A. L.; Wang, Q. et al.
In: Doklady Earth Sciences, Vol. 507, 2022, p. S365-S374.Research output: Contribution to journal › Article › peer-review
}
TY - JOUR
T1 - Features of the Structures and Evolution of the Lower Part of the Continental Crust of the Yakutian Diamondiferous Province within the Upper Muna Kimberlite Field
AU - Shatsky, V. S.
AU - Ragozin, A. L.
AU - Wang, Q.
AU - Su, W.
AU - Ilyin, A. A.
AU - Kolesnichenko, M. V.
N1 - Публикация для корректировки.
PY - 2022
Y1 - 2022
N2 - Study of xenoliths of crustal rocks from the Novinka kimberlite pipe (Upper Muna kimberlite field) showed that the crust at different levels is composed of pyroxene and garnet–pyroxene crystal schists and garnet–pyroxene gneisses. The exsolution structures in pyroxenes and amphiboles and the garnet rims around ilmenite and pyroxene grains indicate that the mineral assemblages of crystal schists formed upon cooling of rocks at a constant pressure. The PT equilibrium conditions indicate that garnet–pyroxene crystal schists are present in the middle crust (P = 7–8 kbar), whereas garnet–pyroxene gneisses could be constituent rocks of the lower crust (P = 9–10.1 kbar). Sodalite is identified for the first time in xenoliths of the crystal schists, which is evidence of the presence of highly saline brines at the final stages of cooling of rocks. The U–Pb age of zircons indicates a Neoarchean (2.7 Ga) tectono-thermal event, which was accompanied by partial melting of the crust. The stage of 1.9 Ga is weakly manifested in garnet–pyroxene gneisses. Our data support an earlier conclusion on vertical and lateral crustal heterogeneity of the Yakutsk diamondiferous province and the absence of a correlation between the reworking degree of the crust and its spatial location relatively to the main collision zones of the Siberian Craton.
AB - Study of xenoliths of crustal rocks from the Novinka kimberlite pipe (Upper Muna kimberlite field) showed that the crust at different levels is composed of pyroxene and garnet–pyroxene crystal schists and garnet–pyroxene gneisses. The exsolution structures in pyroxenes and amphiboles and the garnet rims around ilmenite and pyroxene grains indicate that the mineral assemblages of crystal schists formed upon cooling of rocks at a constant pressure. The PT equilibrium conditions indicate that garnet–pyroxene crystal schists are present in the middle crust (P = 7–8 kbar), whereas garnet–pyroxene gneisses could be constituent rocks of the lower crust (P = 9–10.1 kbar). Sodalite is identified for the first time in xenoliths of the crystal schists, which is evidence of the presence of highly saline brines at the final stages of cooling of rocks. The U–Pb age of zircons indicates a Neoarchean (2.7 Ga) tectono-thermal event, which was accompanied by partial melting of the crust. The stage of 1.9 Ga is weakly manifested in garnet–pyroxene gneisses. Our data support an earlier conclusion on vertical and lateral crustal heterogeneity of the Yakutsk diamondiferous province and the absence of a correlation between the reworking degree of the crust and its spatial location relatively to the main collision zones of the Siberian Craton.
KW - U–Pb dating of zircons
KW - age of protoliths
KW - kimberlite
KW - lower crust
KW - metamorphic conditions
KW - tectono-thermal events
KW - xenolith
UR - https://www.mendeley.com/catalogue/32a59e39-8253-35af-81be-f51a953c87ab/
U2 - 10.1134/S1028334X22601705
DO - 10.1134/S1028334X22601705
M3 - Article
VL - 507
SP - S365-S374
JO - Doklady Earth Sciences
JF - Doklady Earth Sciences
SN - 1028-334X
ER -
ID: 55694883