Affiliation:
1. Department of Geology, Mineralogy and Petrography, Siberian Federal University, 660041 Krasnoyarsk, Russia
2. Department of Geology and Geography, Tomsk State University, 634050 Tomsk, Russia
3. Department of Geology and Geophysics, Tomsk Polytechnic University, 634050 Tomsk, Russia
Abstract
The Kresty volcano–plutonic complex (KVPC) is one of the representatives of the alkaline–ultrabasic magmatism in the Maymecha-Kotuy Alkaline Province in Polar Siberia. The geological structure of the KVPC consists of intrusive formations of olivinite–pyroxenite and melilitolite–monticellitolite bodies, a series of rocks that break through dikes of trachydolerites, syenites, granosyenites, alkaline picrites and lamprophyres. This paper summarizes the results of the authors’ long-term research on the geological structure and features of the material composition of the intrusive magmatic rocks, including geochemistry, mineralogy, distribution of rare earth elements (REE), as well as the results of isotope studies. The multielement composition of the KVPC intrusions demonstrates a complex geodynamic paleoenvironment of the formation as plume nature with signs of subduction and collision. For the ultrabasic series with normal alkalinity from the first phase of the KVPC, a Sm-Nd isochron age yielded an Early Triassic (T1) result of 251 ± 25 Ma. Here, we present U-Pb dating of zircons and perovskite of high-calcium intrusive formations and a dyke complex of alkaline syenites. Thus, for the intrusion of kugdite (according to perovskite), the age determination was 249 ± 4 Ma, and for the crosscutting KVPC dykes of syenites (according to zircon) 249 ± 1 Ma and 252 ± 1 Ma. The age of the most recent dike is almost identical to the age of the main intrusive phases of the KVPC (T1), which corresponds to a larger regional event of the Siberian LIP—251 Ma. According to isotopic Sr-Nd parameters, the main source of KVPC magmas is a PREMA-type material. For dyke varieties, we assume there was an interaction of plume melts with the continental crust. The new age results obtained allow us to further constrain the episodes of alkaline–ultrabasic intrusions in Polar Siberia, taking into account the interaction of mantle plume matter and crustal material.
Funder
The Tomsk State University Development Programme
State assignment of the Ministry of Science and Higher Education of the Russian Federation
Subject
Geology,Geotechnical Engineering and Engineering Geology
Reference54 articles.
1. Rapid eruption of Siberian food-volcanic rocks and evidence for coincidence with the Permian-Triassic boundary and mass extinction at 251 Ma;Kamo;Earth Planet. Sci. Lett.,2003
2. Ernst, R.E. (2014). Large Igneous Provinces, Cambridge University Press.
3. Surkov, V.S., and Zhero, O.G. (1981). Foundation and Development of the Platform Cover of the West Siberian Plate, Subsoil. (In Russian).
4. Grinev, O.M. (2007). Rift Systems of SIBERIA: Methodology of Study, Morphotectonics, Minerageny, Tomsk STT. (In Russian).
5. Fossil travertines and quasi-travertine in the Minusa basin (West Siberia): Structure, composition, and comparative analysis;Fedoseev;Russ. Geol. Geophys.,2017