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Машковцева Кошелева
Вулкан Камбальный. Библиография

Количество записей: 45
Страницы:  1 2 3
Ditmar von Karl Reisen und Aufenthalt in Kamtschatka in den Jahren 1851–1855. Erster Teil. Historischer Bericht nach den Tagebüchern. 1890.    Аннотация
Der Geologe Karl von Ditmar erkundete von 1851 bis 1855 im Auftrag der russischen Regierung die Bodenschätze Kamčatkas. Dabei erforschte er das Land und seine Bevölkerung aber weit über diesen Autrag hinaus, was seine eindrucksvollen Reisebeschreibungen zeigen. So verbrachte er im Sommer 1853 als erster Forscher längere Zeit bei den Korjaken auf der Halbinsel Tajgonos. Der 1890 erschienene erste Teil seines Werkes enthält den ausführlichen Bericht seiner Reise nach den Tagebüchern, ein getrennt erscheinender zweiter Teil die systematische Darstellung der Natur und der Geschichte Kamčatkas.
http://repo.kscnet.ru/566/ [связанный ресурс]
http://repo.kscnet.ru/831/ [связанный ресурс]
Ditmar von Karl Reisen und Aufenthalt in Kamtschatka in den Jahren 1851–1855. Zweiter Teil. Allgemeines über Kamtschatka. 1900. 273 p.    Аннотация
Der Geologe Karl von Ditmar erkundete von 1851 bis 1855 im Auftrag der russischen Regierung die Bodenschätze Kamčatkas. Dabei erforschte er das Land und seine Bevölkerung aber weit über diesen Autrag hinaus, was seine eindrucksvollen Reisebeschreibungen zeigen. So verbrachte er im Sommer 1853 als erster Forscher längere Zeit bei den Korjaken auf der Halbinsel Tajgonos. Der 1900 erschienene zweite Teil seines Werkes enthält die systematische Darstellung der Natur und der Geschichte Kamčatkas sowie ein geografisches Lexikon.
http://repo.kscnet.ru/564/ [связанный ресурс]
Girina O.A., Gordeev E.I., Melnikov D.V., Manevich A.G., Nuzhdaev A.A., Romanova I.M. The 25 Anniversary Kamchatkan Volcanic Eruption Response Team // 10th Biennual workshop on Japan-Kamchatka-Alaska subduction processes (JKASP-2018). Petropavlovsk-Kamchatsky, Russia, August 20-26. Petropavlovsk-Kamchatsky: IVS FEB RAS. 2018. P. 80-82.
Girina O.A., Melnikov D.V., Manevich A.G., Nuzhdaev A.A., Demyanchuk Yu.V. Kamchatka Volcano Explosive Eruptions in 2017 and Danger to Aviation // EGU General Assembly 2018. Viena: EGU General Assembly 2018. 2018. № 3805.
Girina O.A., Melnikov D.V., Manevich A.G., Nuzhdaev A.A., Petrova E. The 2017 Activity of Kamchatka Volcanoes and Danger to Aviation // Abstracts. JpGU2018. May 20-24, 2018. Chiba, Japan. 2018.
Gordeev E.I., Girina O.A., Gorbach N.V., Manevich A.G., Melnikov D.V., Anikin L.P., Manevich T.M, Dubrovskaya I. K., Chirkov S.A., Kartashova E.V. First Historical Eruption of Kambalny Volcano // Doklady Earth Sciences. 2018. V. 482. P. 1257-1259. doi: 10.1134/S1028334X18100045.    Аннотация
The first historical eruption of Kambalny volcano began on March 24, 2017 with the powerful ash emission from the summit crater reaching as high as 6 km above sea level. The explosive activity continued without interruption from March 24 to March 30. The most powerful ash emission was registered on March 25–26, when the ash plume drifted several thousand kilometers SW, S, and SE from the volcano. On April 2 and April 9, after several calm days, powerful ash explosions occurred generating ash plumes up to 7 km high. The area of the land and sea over which the ash plume drifted during the day of March 25, was 650000 km2; the area of the ash accumulation on the land that was formed from March 24 to April 9, exceeded 1500 km2. These parameters were measured using the satellite-based data in the VolSatView information system. Domination of the silty fraction and the presence of secondary minerals (pyrite, gypsum, sulfur, and others) in the ash point to the phreatic character of the volcanic eruption.
Holocene Volcanoes in Kamchatka. 2002.
Manevich A.G., Girina O.A., Melnikov D.V., Nuzhdaev A.A. 2016-2017 explosive eruptions of Kamchatka volcanoes based on KVERT data // JKASP-2018. Petropavlovsk-Kamchatsky: IVS FEB RAS. 2018.
Ponomareva Vera V., Melekestsev Ivan V., Dirksen Oleg V. Sector collapses and large landslides on Late Pleistocene–Holocene volcanoes in Kamchatka, Russia // Journal of Volcanology and Geothermal Research. 2006. V. 158. № 1-2. P. 117-138. doi:10.1016/j.jvolgeores.2006.04.016.    Аннотация
On Kamchatka, detailed geologic and geomorphologic mapping of young volcanic terrains and observations on historical eruptions reveal that landslides of various scales, from small (0.001 km3) to catastrophic (up to 20–30 km3), are widespread. Moreover, these processes are among the most effective and most rapid geomorphic agents. Of 30 recently active Kamchatka volcanoes, at least 18 have experienced sector collapses, some of them repetitively. The largest sector collapses identified so far on Kamchatka volcanoes, with volumes of 20–30 km3 of resulting debris-avalanche deposits, occurred at Shiveluch and Avachinsky volcanoes in the Late Pleistocene. During the last 10,000 yr the most voluminous sector collapses have occurred on extinct Kamen' (4–6 km3) and active Kambalny (5–10 km3) volcanoes. The largest number of repetitive debris avalanches (> 10 during just the Holocene) has occurred at Shiveluch volcano. Landslides from the volcanoes cut by ring-faults of the large collapse calderas were ubiquitous. Large failures have happened on both mafic and silicic volcanoes, mostly related to volcanic activity. Orientation of collapse craters is controlled by local tectonic stress fields rather than regional fault systems.

Specific features of some debris avalanche deposits are toreva blocks — huge almost intact fragments of volcanic edifices involved in the failure; some have been erroneously mapped as individual volcanoes. One of the largest toreva blocks is Mt. Monastyr' — a ∼ 2 km3 piece of Avachinsky Somma involved in a major sector collapse 30–40 ka BP.

Long-term forecast of sector collapses on Kliuchevskoi, Koriaksky, Young Cone of Avachinsky and some other volcanoes highlights the importance of closer studies of their structure and stability.
Siebert L., Simkin T. Volcanoes of the World: an Illustrated Catalog of Holocene Volcanoes and their Eruptions. 2013.
Siebert L., Simkin T., Kimberly P. Volcanoes of the World. 2010. 568 p.    Аннотация
This impressive scientific resource presents up-to-date information on ten thousand years of volcanic activity on Earth. In the decade and a half since the previous edition was published new studies have refined assessments of the ages of many volcanoes, and several thousand new eruptions have been documented. This edition updates the book's key components: a directory of volcanoes active during the Holocene; a chronology of eruptions over the past ten thousand years; a gazetteer of volcano names, synonyms, and subsidiary features; an extensive list of references; and an introduction placing these data in context. This edition also includes new photographs, data on the most common rock types forming each volcano, information on population densities near volcanoes, and other features, making it the most comprehensive source available on Earth's dynamic volcanism.
VONA/KVERT Information Releases. 2005.
Volcano observatory notification to aviation (VONA/KVERT). 2011.
Zaretskaya N.E., Ponomareva V.V., Sulerzhitsky L.D. Radiocarbon dating of large Holocene volcanic events within South Kamchatka (Russian Far East) // Radiocarbon. 2007. V. 49. № 2. P. 1065-1078.    Аннотация
Radiocarbon dating is widely used when studying recent volcanic activity in the Kamchatka Peninsula due to the abundance of organic matter that is associated with the volcanic deposits. Here, we present the results of 14C dating of major volcanic events within the active South Kamchatka volcanic zone. South Kamchatka includes 8 recently active volcanic centers (stratovolcanoes, calderas, and large craters) that have been erupting during the Holocene. Their tephras represent useful markers for both the southern part of the peninsula and the Northern Kurile Islands. Since these marker tephra layers facilitate stratigraphic and tephrochronological studies in this area, it was important to determine their ages. We have obtained 73 new individual 14C dates on paleosol, peat, charcoal, and wood associated with the marker tephra layers, then complemented these data with 37 earlier published dates and analyzed the resulting data set. We selected the reliable dates and then obtained average 14C ages of marker tephra layers. The details of these procedures, as well as brief descriptions of South Kamchatka Holocene eruptions and their tephra beds, are presented in the paper.
Апродов В.А. Вулканы. 1982. 367 с.
Бриль А.А., Гирина О.А., Кашницкий А.В., Уваров И.А. Возможности оценки параметров пепловых шлейфов на основе данных дистанционных наблюдений в информационной системе дистанционного мониторинга активности вулканов Камчатки и Курил VolSatView // Современные проблемы дистанционного зондирования Земли из космоса. Тезисы докладов. Пятнадцатая Всероссийская открытая конференция. 13-17 ноября 2017 г. М.: ИКИ РАН. 2017. С. 80
Виноградов В.Н., Муравьев Я.Д. Современное оледенение Южной Камчатки // Вопросы географии Камчатки. 1982. № 8. С. 27-33.
Влодавец В.И., Пийп Б.И. Каталог действующих вулканов Камчатки // Бюлл. вулканол. станции. // Бюллетень вулканологических станций. 1957. № 25. С. 5-95.    Аннотация
"Каталог действующих вулканов Камчатки" является сводкой наших знаний на 1 января 1957 г. по действующим вулканам Камчатки.
Гирина О.А., Крамарева Л.С., Лупян Е.А., Сорокин А.А., Мельников Д.В., Маневич А.Г., Уваров И.А., Кашницкий А.В., Бурцев М.А., Марченков В.В., Бриль А.А., Мазуров А.А. Применение данных со спутника Himawari-8 для мониторинга вулканов Камчатки и Северных Курил // Современные проблемы дистанционного зондирования Земли из космоса. Тезисы докладов. Пятнадцатая Всероссийская открытая конференция. 13-17 ноября 2017 г. М.: ИКИ РАН. 2017. С. 82
Гирина О.А., Лупян Е.А., Гордеев Е.И., Сорокин А.А., Крамарева Л.С., Мельников Д.В., Маневич А.Г., Уваров И.А., Кашницкий А.В., Романова И.М., Константинова А.М., Королев С.П. Информационная система VolSatView для комплексного анализа активности вулканов Камчатки и Курил // Информационные технологии и высокопроизводительные вычисления. Материалы IV Всероссийской научно-практической конференции, 11-14 сентября 2017 г. Хабаровск: ТГУ. 2017. С. 36-39.    Аннотация
В 2011-2017 гг. специалистами ИВиС ДВО РАН, ИКИ РАН, ВЦ ДВО РАН и ДЦ НИЦ Планета была создана и развивается информационная система “Дистанционный мониторинг активности вулканов Камчатки и Курил” (VolSatView), позволяющая вулканологам комплексно работать с различными спутниковыми данными, метео- и видеоинформацией для непрерывного мониторинга и исследования вулканической активности Курило-Камчатского региона. В работе показаны возможности VolSatView для оперативного мониторинга вулканов, анализа динамики извержений и их продуктов, прогноза эруптивной деятельности.

Since 2011, experts from IVS FEB RAS, SRI RAS, CC FEB RAS and FE Planeta RC are operating and developing the “Remote monitoring of Volcanic Activity in Kamchatka and the Kurile Islands” (VolSatView) information sys-tem that utilize all the available satellite data, weather and video observations to ensure continues monitoring and study of volcanic activity in Kamchatka and the Kurile Islands. This paper provides the capabilities of VolSatView for real-time monitoring of volcanoes, analysis of eruptions dynamics and their products, and forecasting of eruptive activity.




 

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