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Evolution of physico-chemical conditions of crystallization of melts during formation of dunite-peridotite-gabbroic massifs of the Eastern Sayan. / Stupakov, Sergey I.; Simonov, Vladimir A.; Mekhonoshin, Sergey A. и др.

в: Известия Томского политехнического университета. Инжиниринг георесурсов, Том 330, № 7, 01.01.2019, стр. 208-223.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Stupakov, SI, Simonov, VA, Mekhonoshin, SA & Kolotilina, TB 2019, 'Evolution of physico-chemical conditions of crystallization of melts during formation of dunite-peridotite-gabbroic massifs of the Eastern Sayan', Известия Томского политехнического университета. Инжиниринг георесурсов, Том. 330, № 7, стр. 208-223. https://doi.org/10.18799/24131830/2019/7/2196

APA

Stupakov, S. I., Simonov, V. A., Mekhonoshin, S. A., & Kolotilina, T. B. (2019). Evolution of physico-chemical conditions of crystallization of melts during formation of dunite-peridotite-gabbroic massifs of the Eastern Sayan. Известия Томского политехнического университета. Инжиниринг георесурсов, 330(7), 208-223. https://doi.org/10.18799/24131830/2019/7/2196

Vancouver

Stupakov SI, Simonov VA, Mekhonoshin SA, Kolotilina TB. Evolution of physico-chemical conditions of crystallization of melts during formation of dunite-peridotite-gabbroic massifs of the Eastern Sayan. Известия Томского политехнического университета. Инжиниринг георесурсов. 2019 янв. 1;330(7):208-223. doi: 10.18799/24131830/2019/7/2196

Author

Stupakov, Sergey I. ; Simonov, Vladimir A. ; Mekhonoshin, Sergey A. и др. / Evolution of physico-chemical conditions of crystallization of melts during formation of dunite-peridotite-gabbroic massifs of the Eastern Sayan. в: Известия Томского политехнического университета. Инжиниринг георесурсов. 2019 ; Том 330, № 7. стр. 208-223.

BibTeX

@article{2ea76af30db34232b5a45d857bbba2af,
title = "Evolution of physico-chemical conditions of crystallization of melts during formation of dunite-peridotite-gabbroic massifs of the Eastern Sayan",
abstract = "The relevance of the research. The study of melt inclusions in minerals is one of the most reliable ways of obtaining direct information on the nature of magmatic processes, allows building a model of formation of intrusions and tracing the evolution of physico-chemical conditions of crystallization of magmatic complexes. The main aim of the research is to prove the magmatic origin of rocks of this massif, which makes it possible to consider the distribution of noble metals in melts, based on the available experimental data. Objects: melt inclusions in Cr-spinel from dunites and wehrlites Medek basite-ultrabasite massifs. Methods. The search for melt inclusions was carried out in accessory Cr-spinel sample isolated from dunites and wehrlite, to determine the nature of the high temperature experiments. For this purpose, the samples were taken (about 50-100 grains of Cr-spinel fraction 0, 2-0, 5 mm) and placed in a graphite microcontainer with internal dimensions in the first millimeters. Micro containers were tightly closed with graphite covers. Thus, the Cr-spinel in these containers were at temperatures above 1000°C under reducing conditions as a result of the reaction of air oxygen with graphite. The experiments were carried out at high temperatures on the basis of existing methods of investigation of melt inclusions. For maximum transformation of the melt in inclusions into homogeneous glass, quenching into water was carried out. The choice of the temperature regime (1280-1300°C) was determined primarily by the fact that the main task of high-temperature experiments was to melt the contents of inclusions and to obtain glass during hardening, which was then analyzed on a microprobe and a scanning microscope. Result. Conducted research of homogenised melt inclusions glass showed that crystallization of Cr-spinel and containing wehrlite of the ultrabasic Medek massif (East Sayan) were involved in low potassium picrobasalt of melts of normal alkalinity, of the most similar petrochemical characteristics to the data on melt inclusions in Cr-spinel from oceanic complexes. The calculations were made for various mineralogical barometers and different models of crystallization on the basis of compositions of glasses of heated melt inclusions in Crspinel in the COMAGMAT program, which showed that the pressure in formation of massive rocks was about 4 kbar (2, 8-4, 7 kbar); the combined use of mineralogical thermometers and calculations on the basis of glass compositions of heated melt inclusions in Cr-spinel according to PETROLOG and COMAGMAT programs allows us to speak about the formation of dunites from picritoids (MgO 17, 85 wt. %) of the melt, since the crystallization of olivine at 1380°C, the formation of wehrlite occurred mainly from picrobasalt (MgO 13, 36 wt. %) of the melt with the crystallization of olivine starting from 1280-1275°C, but in much smaller quantities than clinopyroxene, the intensive formation of which was at lower temperatures (starting from 1235-1230°C); a comparative analysis of the results of computational modeling of melt and mineral compositions with data on melt inclusions and real olivines and clinopyroxenes indicates their consistency, as evidenced by the fact of the location of melt inclusions along the calculated trends of melt change, that is, experimental data on inclusions on the one hand confirm the reliability of the calculations, and on the other - this ratio shows that the inclusions are not an accident, but record the natural and theoretically justified evolution of the melt.",
keywords = "Cr-spinel, Dunites, Medek intrusion, Melt inclusions, Ultrabasic rocks, Wehrlite, PETROGENESIS, dunites, INCLUSIONS, MINERALS, melt inclusions, ROCKS, KAMCHATKA, SIBERIA, ultrabasic rocks, HORNBLENDE, GENESIS, MANTLE, wehrlite, MAGMAS",
author = "Stupakov, {Sergey I.} and Simonov, {Vladimir A.} and Mekhonoshin, {Sergey A.} and Kolotilina, {Tatyana B.}",
year = "2019",
month = jan,
day = "1",
doi = "10.18799/24131830/2019/7/2196",
language = "English",
volume = "330",
pages = "208--223",
journal = "Известия Томского политехнического университета. Инжиниринг георесурсов",
issn = "2500-1019",
publisher = "Tomsk Polytechnic University",
number = "7",

}

RIS

TY - JOUR

T1 - Evolution of physico-chemical conditions of crystallization of melts during formation of dunite-peridotite-gabbroic massifs of the Eastern Sayan

AU - Stupakov, Sergey I.

AU - Simonov, Vladimir A.

AU - Mekhonoshin, Sergey A.

AU - Kolotilina, Tatyana B.

PY - 2019/1/1

Y1 - 2019/1/1

N2 - The relevance of the research. The study of melt inclusions in minerals is one of the most reliable ways of obtaining direct information on the nature of magmatic processes, allows building a model of formation of intrusions and tracing the evolution of physico-chemical conditions of crystallization of magmatic complexes. The main aim of the research is to prove the magmatic origin of rocks of this massif, which makes it possible to consider the distribution of noble metals in melts, based on the available experimental data. Objects: melt inclusions in Cr-spinel from dunites and wehrlites Medek basite-ultrabasite massifs. Methods. The search for melt inclusions was carried out in accessory Cr-spinel sample isolated from dunites and wehrlite, to determine the nature of the high temperature experiments. For this purpose, the samples were taken (about 50-100 grains of Cr-spinel fraction 0, 2-0, 5 mm) and placed in a graphite microcontainer with internal dimensions in the first millimeters. Micro containers were tightly closed with graphite covers. Thus, the Cr-spinel in these containers were at temperatures above 1000°C under reducing conditions as a result of the reaction of air oxygen with graphite. The experiments were carried out at high temperatures on the basis of existing methods of investigation of melt inclusions. For maximum transformation of the melt in inclusions into homogeneous glass, quenching into water was carried out. The choice of the temperature regime (1280-1300°C) was determined primarily by the fact that the main task of high-temperature experiments was to melt the contents of inclusions and to obtain glass during hardening, which was then analyzed on a microprobe and a scanning microscope. Result. Conducted research of homogenised melt inclusions glass showed that crystallization of Cr-spinel and containing wehrlite of the ultrabasic Medek massif (East Sayan) were involved in low potassium picrobasalt of melts of normal alkalinity, of the most similar petrochemical characteristics to the data on melt inclusions in Cr-spinel from oceanic complexes. The calculations were made for various mineralogical barometers and different models of crystallization on the basis of compositions of glasses of heated melt inclusions in Crspinel in the COMAGMAT program, which showed that the pressure in formation of massive rocks was about 4 kbar (2, 8-4, 7 kbar); the combined use of mineralogical thermometers and calculations on the basis of glass compositions of heated melt inclusions in Cr-spinel according to PETROLOG and COMAGMAT programs allows us to speak about the formation of dunites from picritoids (MgO 17, 85 wt. %) of the melt, since the crystallization of olivine at 1380°C, the formation of wehrlite occurred mainly from picrobasalt (MgO 13, 36 wt. %) of the melt with the crystallization of olivine starting from 1280-1275°C, but in much smaller quantities than clinopyroxene, the intensive formation of which was at lower temperatures (starting from 1235-1230°C); a comparative analysis of the results of computational modeling of melt and mineral compositions with data on melt inclusions and real olivines and clinopyroxenes indicates their consistency, as evidenced by the fact of the location of melt inclusions along the calculated trends of melt change, that is, experimental data on inclusions on the one hand confirm the reliability of the calculations, and on the other - this ratio shows that the inclusions are not an accident, but record the natural and theoretically justified evolution of the melt.

AB - The relevance of the research. The study of melt inclusions in minerals is one of the most reliable ways of obtaining direct information on the nature of magmatic processes, allows building a model of formation of intrusions and tracing the evolution of physico-chemical conditions of crystallization of magmatic complexes. The main aim of the research is to prove the magmatic origin of rocks of this massif, which makes it possible to consider the distribution of noble metals in melts, based on the available experimental data. Objects: melt inclusions in Cr-spinel from dunites and wehrlites Medek basite-ultrabasite massifs. Methods. The search for melt inclusions was carried out in accessory Cr-spinel sample isolated from dunites and wehrlite, to determine the nature of the high temperature experiments. For this purpose, the samples were taken (about 50-100 grains of Cr-spinel fraction 0, 2-0, 5 mm) and placed in a graphite microcontainer with internal dimensions in the first millimeters. Micro containers were tightly closed with graphite covers. Thus, the Cr-spinel in these containers were at temperatures above 1000°C under reducing conditions as a result of the reaction of air oxygen with graphite. The experiments were carried out at high temperatures on the basis of existing methods of investigation of melt inclusions. For maximum transformation of the melt in inclusions into homogeneous glass, quenching into water was carried out. The choice of the temperature regime (1280-1300°C) was determined primarily by the fact that the main task of high-temperature experiments was to melt the contents of inclusions and to obtain glass during hardening, which was then analyzed on a microprobe and a scanning microscope. Result. Conducted research of homogenised melt inclusions glass showed that crystallization of Cr-spinel and containing wehrlite of the ultrabasic Medek massif (East Sayan) were involved in low potassium picrobasalt of melts of normal alkalinity, of the most similar petrochemical characteristics to the data on melt inclusions in Cr-spinel from oceanic complexes. The calculations were made for various mineralogical barometers and different models of crystallization on the basis of compositions of glasses of heated melt inclusions in Crspinel in the COMAGMAT program, which showed that the pressure in formation of massive rocks was about 4 kbar (2, 8-4, 7 kbar); the combined use of mineralogical thermometers and calculations on the basis of glass compositions of heated melt inclusions in Cr-spinel according to PETROLOG and COMAGMAT programs allows us to speak about the formation of dunites from picritoids (MgO 17, 85 wt. %) of the melt, since the crystallization of olivine at 1380°C, the formation of wehrlite occurred mainly from picrobasalt (MgO 13, 36 wt. %) of the melt with the crystallization of olivine starting from 1280-1275°C, but in much smaller quantities than clinopyroxene, the intensive formation of which was at lower temperatures (starting from 1235-1230°C); a comparative analysis of the results of computational modeling of melt and mineral compositions with data on melt inclusions and real olivines and clinopyroxenes indicates their consistency, as evidenced by the fact of the location of melt inclusions along the calculated trends of melt change, that is, experimental data on inclusions on the one hand confirm the reliability of the calculations, and on the other - this ratio shows that the inclusions are not an accident, but record the natural and theoretically justified evolution of the melt.

KW - Cr-spinel

KW - Dunites

KW - Medek intrusion

KW - Melt inclusions

KW - Ultrabasic rocks

KW - Wehrlite

KW - PETROGENESIS

KW - dunites

KW - INCLUSIONS

KW - MINERALS

KW - melt inclusions

KW - ROCKS

KW - KAMCHATKA

KW - SIBERIA

KW - ultrabasic rocks

KW - HORNBLENDE

KW - GENESIS

KW - MANTLE

KW - wehrlite

KW - MAGMAS

UR - http://www.scopus.com/inward/record.url?scp=85070579412&partnerID=8YFLogxK

U2 - 10.18799/24131830/2019/7/2196

DO - 10.18799/24131830/2019/7/2196

M3 - Article

AN - SCOPUS:85070579412

VL - 330

SP - 208

EP - 223

JO - Известия Томского политехнического университета. Инжиниринг георесурсов

JF - Известия Томского политехнического университета. Инжиниринг георесурсов

SN - 2500-1019

IS - 7

ER -

ID: 21256123