Age of ore-bearing skarns of the Gavasai magnetite deposit (Kyrgyzstan): results of U‒Pb (ID-TIMS) geochronological studies of garnet

M. V. Stifeeva; Стифеева М. В.; E. B. Salnikova; Сальникова Е. Б.; A. B. Kotov; Котов А. Б.; Y. D. Gritsenko; Гриценко Ю. Д.

doi:10.31857/S2686739725020063

Age of ore-bearing skarns of the Gavasai magnetite deposit (Kyrgyzstan): results of U‒Pb (ID-TIMS) geochronological studies of garnet

作者: Stifeeva M.V.¹, Salnikova E.B.¹, Kotov A.B.¹, Gritsenko Y.D.²^,3
隶属关系:
1. Institute of Precambrian Geology and Geochronology Russian Academy of Sciences
2. Moscow State University
3. A. Fersman Mineralogical Museum, Russian Academy of Sciences
期: 卷 520, 编号 2 (2025)
页面: 234-238
栏目: GEOLOGY OF ORE DEPOSITS
##submission.dateSubmitted##: 18.06.2025
##submission.dateAccepted##: 18.06.2025
##submission.datePublished##: 19.06.2025
URL: https://ruspoj.com/2686-7397/article/view/685092
DOI: https://doi.org/10.31857/S2686739725020063
EDN: https://elibrary.ru/GDPZDZ
ID: 685092

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The results of U-Pb (ID-TIMS) geochronological studies of garnet from skarn rocks of the Gavasai magnetite deposit (Gava-Sumsar ore region, Kyrgyzstan) are presented. The data obtained on the age of the manifestation of contact-reaction processes (304±1 Ma) are consistent with the stage of the formation of gold and copper-gold mineralization in this area. This gives reason to assume the presence of rich deposits of other ore specialization within the distribution of iron ore deposits.

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skarn, garnet, U-Pb (ID-TIMS), Beltau-Kurama volcano belt, Middle Tien Shan, Gava-Sumsar ore region

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作者简介

M. Stifeeva

Institute of Precambrian Geology and Geochronology Russian Academy of Sciences

编辑信件的主要联系方式.
Email: stifeeva.maria@yandex.ru
俄罗斯联邦, Saint-Petersburg

E. Salnikova

Institute of Precambrian Geology and Geochronology Russian Academy of Sciences

Email: stifeeva.maria@yandex.ru
俄罗斯联邦, Saint-Petersburg

A. Kotov

Institute of Precambrian Geology and Geochronology Russian Academy of Sciences

Email: stifeeva.maria@yandex.ru

Corresponding Member of the RAS

俄罗斯联邦, Saint-Petersburg

Y. Gritsenko

Moscow State University; A. Fersman Mineralogical Museum, Russian Academy of Sciences

Email: stifeeva.maria@yandex.ru

Geological Department

俄罗斯联邦, Moscow; Moscow

参考

Кудрин В.С., Соловьев С.Г., Ставинский В.А., Кабардин Л.Л. Золото-медно-молибден-вольфрамовый рудный пояс Тянь-Шаня // Геология рудных месторождений. 1990. № 4. С. 13–26.
Bo Zu, Reimar Seltmann, Chunji Xue, Tao Wang, Alla Dolgopolova, Chao Li, Limin Zhou, Nikolay Pak, Elena Ivleva, Mingchun Chai, Xiaobo Zhao. Multiple episodes of Late Paleozoic Cu-Au mineralization in the Chatkal-Kuruma terrane: New constraints from the Kuru-Tegerek and Bozymchak skarn deposits, Kyrgyzstan // Ore Geology Reviews. 2019. V. 113. P. 103077.
Бискэ Ю.С., Конопелько Д.Л., Зельтманн Р. Геодинамика позднепалеозойского магматизма Тянь-Шаня и его обрамления // Геотектоника. 2013. № 4. С. 61–81.
Ивлева Е.А., Пак Н.Т., Альпиев Е.А. Региональные факторы размещения золото-медного оруденения в Гава-Сумсарском рудном районе (Кыргызстан) // Известия НАН КР. 2019. № 3. С. 113–119.
Дженчураева Р.Д. Генетические типы скарнов Гавасайского рудного поля (северо-восток Кураминского хребта) и условия их формирования // Изв. АН СССР. Сер. геол. 1971. № 6.
Дженчураев Д.Д., Дженчураева Р.Д. Скарны и орудинение Гавасая. Фрунзе: Илим, 1973 г. 154 с.
Soloviev S.G., Kryazhev S., Dvurechenskaya S. Geology, mineralization, and fluid inclusion study of the Kuru-Tegerek Au-Cu-Mo skarn deposit in the Middle Tien Shan, Kyrgyzstan // Miner. Deposita. 2018. V. 53. P. 195–223.
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Стифеева М.В., Сальникова Е.Б., Арзамасцев А.А., Котов А.Б., Гроздев В.Ю. Кальциевые гранаты как источник информации о возрасте щелочно-ультраосновных интрузий Кольской магматической провинции // Петрология. 2020. Т. 28. № 1. С. 72–84.
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2. Fig. 1. The tectonic zoning scheme of the Tien Shan [2] and the location of some dated granitoid massifs ([3] and references in the work): 1 – The Middle Tien Shan, 2 – the Southern Tien Shan, 3 - the Northern Tien Shan, 4 – cratons, 5 – tectonic faults, 6 – state borders, 7 – gold deposits, 8 – Cu–Mo- and Cu–Au-porphyry deposits, 9 – Fe- and Fe–Cu-skarn deposits, 10 – Hawaiian deposit

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3. Fig. 2. Fragment of skarn rocks of the Hawaiian deposit (a); electron microscopic image of a fragment of a garnet crystal in the mode of secondary reflected electrons (b): Px – pyroxene, Pyr – pyrite; (c) Triangular diagram of garnet composition

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4. Fig. 3. A concordia diagram for garnet from the skarnov rocks of the Hawaiian ore field. The point numbers correspond to the ordinal numbers in Table 1.

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卷 520, 编号 2 (2025)

卷 520, 编号 2 (2025)

Age of ore-bearing skarns of the Gavasai magnetite deposit (Kyrgyzstan): results of U‒Pb (ID-TIMS) geochronological studies of garnet

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作者简介

M. Stifeeva

E. Salnikova

A. Kotov

Y. Gritsenko

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