Petrological and geochemical evolution of the Tolbachik volcanic massif, Kamchatka, Russia

Churikova, Tatiana; Gordeychik, Boris; Iwamori, Hikaru; Nakamura, Hitomi; Ishizuka, Osamu; Nishizawa, Tatsuji; Haraguchi, Satoru; Miyazaki, Takashi; Vaglarov, Bogdan Stefanov

doi:10.1016/j.jvolgeores.2015.10.026

Cited by 36 publications

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“…All this implies the comparative independence of two coexisting parent magmas that were generated at different magma sources in a region of the upper mantle. The fact that a deep-seated source of trachybasaltic magma did exist is shown by an alkaline-basaltic composition of the plateau rocks (Churikova et al, 2013(Churikova et al, , 2015a, which reflects the stage of volcanism that preceded the formation of the Ploskie Sopki massif, and by the essential similarity to the scenario enacted in the Tolbachik Dol volcanism (Braitseva et al, 1984;Flerov et al, 2015;Koloskov et al, 2015;Churikova, 2015aChurikova, , 2015b). This in turn provides evidence that alkaline magma was involved in the general process of volcanic activity on the Ushkovskii stratovolcano with subsequent synchronous existence of a basaltic and a trachybasaltic magma source.…”

Section: Resultsmentioning

confidence: 98%

“…The magma generation processes in the evolution of the Ploskie Sopki and Tolbachik Dol volcanic centers, as expressed in interrelationships between magmas of different alkalinities, are essentially similar; this may indicate the coexistence of independent sources where basaltic and trachybasaltic melts are generated in the upper mantle beneath the entire Klyuchevskoi Volcanic Cluster (Flerov et al, 2015;Churikova et al, 2015aChurikova et al, , 2015bKoloskov et al, 2015). In fact, this concept of two coexisting sources where basaltic and alkaline basaltic magmas are generated, as well as their occurrence at a common volcanic center, is reflected in Fig.…”

Section: Resultsmentioning

confidence: 99%

“…3c,3d). The overall picture that emerges from inspection of the diagrams of (Churikova et al, 2015a), (10,13,17,24) (Ivanov, 2008); (1,8,9,18,19,21,31) were performed at the Institute of Geology, Far East Branch, Russian Academy of Sciences using the XRF technique; the rest of the analyses were performed at the Institute of Volcanology, Far East Branch, Russian Academy of Sciences by wet chemistry. * Total iron.…”

Section: The Petrochemistrymentioning

confidence: 99%

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The Ploskie Sopki volcanic massif: Geology, petrochemistry, mineralogy, and petrogenesis (Klyuchevskoi Volcanic Cluster, Kamchatka)

Flerov

Churikova

Anan’ev

2017

J. Volcanolog. Seismol.

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Abstract⎯This paper is concerned with the geological history and petrology of a major polygenic volcanic edifice dating back to Upper Pleistocene to Holocene time. This long-lived volcanic center is remarkable in that it combines basaltic and trachybasaltic magmas which are found in basaltic andesite and trachybasaltictrachyandesite series. The inference is that the coexisting parent magmas are genetically independent and are generated at different sources at depth in an upper mantle volume. The associated volcanic rocks have diverse compositions, stemming from a multi-stage spatio-temporal crystallization differentiation of the magmas and mixing of these in intermediate chambers. DOI: 10.1134/S0742046317040030INTRODUCTION The information on the Ploskie Sopki massif can be found to varying degrees of detail in (Sirin, 1968;Piip, 1956;Ermakov, 1977;Flerov and Ovsyannikov, 1991;Churikova, 1990Churikova, , 1993Churikova and Sokolov, 1993;Churikova et al., 2001Churikova et al., , 2012Churikova et al., , 2013. Our studies supplied considerable corrections to the interpretation of the volcanic history for the formation of the massif and the associated petrogenesis. The Ploskie Sopki massif (Fig. 1) is the largest polygenic (as to morphology and geology) volcanic edifice in the Klyuchevskoi Volcanic Cluster. It is made of the paired edifices of the Late Pleistocene Ushkovskii (3943 m) and Krestovskii (4108 m) stratovolcanoes. The summit part of Ushkovskii Volcano and part of Krestovskii are truncated by a 4.5-km × 5.5-km collapse caldera, which includes two cinder cones, Kherts and Gorshkov, and is filled with a glacier. Krestovskii Volcano is a fragment of the volcanic cone that has been spared by the collapse, and which makes up the N-NW-W steep wall of the collapse cirque. The slopes of the massif abound in cinder and cinder-lava cones due to parasitic eruptions at different hypsometric levels. Some of these are along the periphery of Ushkovskii Volcano, while most of the cones are confined to a narrow zone striking SSW-NNE-NE, which traverses the top of the massif and its slopes, and can be followed for a distance of 60 km, with the width varying between 6 and 8 km. One peculiar feature of the massif consists in the presence of normal and high alkalinity volcanic rocks within a single edifice, which

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Section: Resultsmentioning

confidence: 98%

Section: Resultsmentioning

confidence: 99%

Section: The Petrochemistrymentioning

confidence: 99%

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The Ploskie Sopki volcanic massif: Geology, petrochemistry, mineralogy, and petrogenesis (Klyuchevskoi Volcanic Cluster, Kamchatka)

Flerov

Churikova

Anan’ev

2017

J. Volcanolog. Seismol.

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“…Almost no trace element and isotopic data exist for samples from the Tolbachik pedestal and stratovolcanoes, except one sample PT33-1/82, which was analyzed for trace elements, and Sr, Nd, Pb, U-Th-Pa-Ra and Re-Os isotopes (Alves et al, 1999;Pineau et al, 1999;Dosseto et al, 2003). But a new dataset of analyses from these regions are presented by Churikova et al (2015).…”

Section: Origin Of the Two Parental Magma Seriesmentioning

confidence: 99%

The Tolbachik volcanic massif: A review of the petrology, volcanology and eruption history prior to the 2012–2013 eruption

Churikova

Gordeychik

Edwards

et al. 2015

Journal of Volcanology and Geothermal Research

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“…Далее мы еще вернемся к этой работе в ходе обсуждения полученных материалов. Следует также отметить недавние работы по петрологии Толбачинского вулканического центра [Колосков и др., 2017а] и Толбачинского вулканического массива [Churikova et al, 2015], в которых присутствие пород повышенной щелочности и особенности тренда их дифференциации связывается с переходом магматической системы этих вулканов к режиму внутридугового рифтинга.…”

Section: новые данные по геологии платовулканитовunclassified

New data on age, material composition and geological structure of the Central Kamchatka depression (CKD). Part 1. Rocks types. Age, petrological and isotopo-geochemical characteristicsн

Колосков

Davydova

Коваленко

2019

Вулканология и сейсмология

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The paper presents new age and isotope geochemical characteristics for plateau effusive rocks from the Central Kamchatka Depression (CKD) and Nikolka Volcano. We compared these data with the data on rocks from the Klyuchevskoy group of volcanoes and also Sheveluch, Kharchinsky, Zarechny, Nachikinsky, Bakening volcanoes and NEB-adakites from Pliocene shield volcano between the Ozernaya Kamchatka and Pravaya Kamchatka rivers. It is shown that the evolutionally advanced (often more alkaline) rock from Nachikinsky, Bakening, Nikolka volcanoes and the Pliocene shield volcanoe significantly differ in isotope-geochemical characteristics from the Klyuchevskoy group of volcanoes rocks. Exactly this type of rocks is characteristic for CKD as rift structure. The Klyuchevskoy group of volcanoes rock are not typomorphic for this structure and manifest the usual orogenic volcanism stage, typical for much larger area. Miocene plateau effusive rocks differ from rocks of this group only by slightly increased potassium alkalinity. The rift type rocks characteristic feature is not only their increased alkalinity, but also specific microcomponents ratios: Ti/V > 0.004, Nb/Y > 0.28, Dy/Yb > 2.00, La/Yb > 6.5, Sm/Yb > 2.4, Lu/Hf < 0.08. Along with isotopic characteristics, these ratios suggest the existence of the single deep asthenospheric mantle reservoir for initial melts. The Kurile-Kamchatka and Commander-Aleutian island-arc systems’ junction is marked by the increased fluid enrichment (Ce group of REE) of melts for rocks of certain volcanoes: Shiveluch, Kharchinsky, Zarechny.

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Petrological and geochemical evolution of the Tolbachik volcanic massif, Kamchatka, Russia

Cited by 36 publications

References 39 publications

The Ploskie Sopki volcanic massif: Geology, petrochemistry, mineralogy, and petrogenesis (Klyuchevskoi Volcanic Cluster, Kamchatka)

The Ploskie Sopki volcanic massif: Geology, petrochemistry, mineralogy, and petrogenesis (Klyuchevskoi Volcanic Cluster, Kamchatka)

The Tolbachik volcanic massif: A review of the petrology, volcanology and eruption history prior to the 2012–2013 eruption

New data on age, material composition and geological structure of the Central Kamchatka depression (CKD). Part 1. Rocks types. Age, petrological and isotopo-geochemical characteristicsн

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