Volcanic pulses in the siberian traps as inferred from permo-triassic geomagnetic secular variations

© Cambridge University Press 2015. There is little reason to believe that eruption of the Siberian Traps occurred gradually. On the contrary, trap emplacement likely occurred in the form of brief but voluminous volcanic pulses, as for example demonstrated for theDeccan Traps (Chenet et al., 2008, 20...

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Main Authors: Pavlov V., Fluteau F., Veselovskiy R., Fetisova A., Latyshev A., Elkins-Tanton L., Sobolev A., Krivolutskaya N.
Format: Book Part
Language:unknown
Published: 2015
Subjects:
Kotuy
Maymecha
Norilsk
Sunduk
norilsk
Online Access:https://openrepository.ru/article?id=139396
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spelling ftneicon:oai:rour.neicon.ru:rour/139396 2023-05-15T17:24:59+02:00 Volcanic pulses in the siberian traps as inferred from permo-triassic geomagnetic secular variations Pavlov V. Fluteau F. Veselovskiy R. Fetisova A. Latyshev A. Elkins-Tanton L. Sobolev A. Krivolutskaya N. 2015 https://openrepository.ru/article?id=139396 unknown 63 https://openrepository.ru/article?id=139396 SCOPUS-2015-SID84928913493 Chapter 2015 ftneicon 2020-07-21T11:49:54Z © Cambridge University Press 2015. There is little reason to believe that eruption of the Siberian Traps occurred gradually. On the contrary, trap emplacement likely occurred in the form of brief but voluminous volcanic pulses, as for example demonstrated for theDeccan Traps (Chenet et al., 2008, 2009) in India and for the Karoo Traps (Moulin et al., 2011, 2012) in South Africa. To search for evidence of such pulses during formation of the Siberian Traps, and to obtain time constraints on eruptive activity we have undertaken a paleomagnetic study of several important trap volcanic sections from the Norilsk and Maymecha-Kotuy areas (Figure 5.1). To complement our work, we include paleomagnetic directions published by Heunemann et al. (2004) from the Norilsk area. A brief description of the sampling areas and the paleomagnetic results are presented below. Sampling Detailed paleomagnetic sampling was carried out on the Medvejia and Truba sections in the Maymecha-Kotuy region (Figure 5.1a, b) during field seasons in 2008 and 2009, and on the Sunduk and Ergalakh sections in the Norilsk region in 2010 (Figure 5.1c). Between 8 and 20 oriented hand samples were collected from individual lava flows or tuff units. In total, about 1400 samples, representing 133 lava flows, were collected and studied. Book Part norilsk NORA (National aggregator of open repositories of Russian universities) Kotuy ENVELOPE(102.083,102.083,71.917,71.917) Maymecha ENVELOPE(99.467,99.467,71.300,71.300) Norilsk ENVELOPE(88.203,88.203,69.354,69.354) Sunduk ENVELOPE(42.517,42.517,65.600,65.600)
institution Open Polar
collection NORA (National aggregator of open repositories of Russian universities)
op_collection_id ftneicon
language unknown
description © Cambridge University Press 2015. There is little reason to believe that eruption of the Siberian Traps occurred gradually. On the contrary, trap emplacement likely occurred in the form of brief but voluminous volcanic pulses, as for example demonstrated for theDeccan Traps (Chenet et al., 2008, 2009) in India and for the Karoo Traps (Moulin et al., 2011, 2012) in South Africa. To search for evidence of such pulses during formation of the Siberian Traps, and to obtain time constraints on eruptive activity we have undertaken a paleomagnetic study of several important trap volcanic sections from the Norilsk and Maymecha-Kotuy areas (Figure 5.1). To complement our work, we include paleomagnetic directions published by Heunemann et al. (2004) from the Norilsk area. A brief description of the sampling areas and the paleomagnetic results are presented below. Sampling Detailed paleomagnetic sampling was carried out on the Medvejia and Truba sections in the Maymecha-Kotuy region (Figure 5.1a, b) during field seasons in 2008 and 2009, and on the Sunduk and Ergalakh sections in the Norilsk region in 2010 (Figure 5.1c). Between 8 and 20 oriented hand samples were collected from individual lava flows or tuff units. In total, about 1400 samples, representing 133 lava flows, were collected and studied.
format Book Part
author Pavlov V.
Fluteau F.
Veselovskiy R.
Fetisova A.
Latyshev A.
Elkins-Tanton L.
Sobolev A.
Krivolutskaya N.
spellingShingle Pavlov V.
Fluteau F.
Veselovskiy R.
Fetisova A.
Latyshev A.
Elkins-Tanton L.
Sobolev A.
Krivolutskaya N.
Volcanic pulses in the siberian traps as inferred from permo-triassic geomagnetic secular variations
author_facet Pavlov V.
Fluteau F.
Veselovskiy R.
Fetisova A.
Latyshev A.
Elkins-Tanton L.
Sobolev A.
Krivolutskaya N.
author_sort Pavlov V.
title Volcanic pulses in the siberian traps as inferred from permo-triassic geomagnetic secular variations
title_short Volcanic pulses in the siberian traps as inferred from permo-triassic geomagnetic secular variations
title_full Volcanic pulses in the siberian traps as inferred from permo-triassic geomagnetic secular variations
title_fullStr Volcanic pulses in the siberian traps as inferred from permo-triassic geomagnetic secular variations
title_full_unstemmed Volcanic pulses in the siberian traps as inferred from permo-triassic geomagnetic secular variations
title_sort volcanic pulses in the siberian traps as inferred from permo-triassic geomagnetic secular variations
publishDate 2015
url https://openrepository.ru/article?id=139396
long_lat ENVELOPE(102.083,102.083,71.917,71.917)
ENVELOPE(99.467,99.467,71.300,71.300)
ENVELOPE(88.203,88.203,69.354,69.354)
ENVELOPE(42.517,42.517,65.600,65.600)
geographic Kotuy
Maymecha
Norilsk
Sunduk
geographic_facet Kotuy
Maymecha
Norilsk
Sunduk
genre norilsk
genre_facet norilsk
op_source SCOPUS-2015-SID84928913493
op_relation 63
https://openrepository.ru/article?id=139396
_version_ 1766116285760929792

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