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Гришин С.Ю., Гирина О.А., Верещага Е.М., Витер И.В. Мощное извержение вулкана Пик Сарычева (Курильские острова, 2009 г.) и его воздействие на растительный покров // Вестник ДВО РАН. 2010. № 3. С. 40-50.
Very powerful eruption of Sarychev Peak volcano (Matua Isl., the Central Kuriles) in June 2009 is examined in the paper. Nature of the eruption and its catastrophic impact on the island ecosystem (using vegetation as an example) are described based on remote sensing data (photos from the space) and ground observations, carried out in summer of 2009.
Гришин С.Ю., Комачкова И.В. Температура отложений мощного пирокластического потока 2005 г. на вулкане Шивелуч (Камчатка) и начало его зарастания // Вестник КРАУНЦ. Серия: Науки о Земле. 2011. Вып. 18. № 2. С. 128-134.
Thick deposits of pyroclastic flow from Shiveluch Volcano (February 2005) have remained high temperature for 6 years after the eruption. Despite the increased temperature of the deposits, plants began its colonization in recent years. To identify features of succession certain characteristics of unusual ecotope have been studied, including distribution of temperature background.
Гришин С.Ю., Мелекесцев И.В. Лавовые потоки (извержение 2009 г.) вулкана Пик Сарычева (Центральные Курилы) // Вестник КРАУНЦ. Серия: Науки о Земле. 2010. Вып. 15. № 1. С. 232-239.
This paper contains a first brief description for two lava flows from the 12-15 June, 2009 catastrophic eruption produced by Sarychev Peak, Matua Island, the Central Kuriles. Previously this eruption was considered to be explosive. The flows from the eruption are about 2.4 and 2.7 km long and 100 to 150 m wide, in some places they are as wide as 350 m. The flows occupy the territory of 0.8 km2 with lava volume of 10 million km3. They travelled along sector grabens simultaneously with pyroclastic flows burning elder woods and mountain meadows and were partially overlapped by pyroclastics.
Гришин С.Ю., Овсянников А.А., Перепелкина П.А. Возгорание древесной растительности и опасность лесных пожаров в ходе Толбачинского извержения (Камчатка, 2012 - 2013 гг.) // Вестник ДВО РАН. 2015. Т. 183. № 5. С. 63-69.
Гришин С.Ю., Перепелкина П.А., Бурдуковский М.Л., Яковлева А.Н. Начало восстановления лесной растительности после воздействия пирокластической волны вулкана Шивелуч (Камчатка) 27 февраля 2005 г. // Вестник КРАУНЦ. Серия: Науки о Земле. 2017. Вып. 36. № 4. С. 28-38.
In the spruce forest destroyed by a powerful pyroclastic surge, willow has been reestablishing on the surge deposits. Over a decade, the willow has formed a 6–8 m high canopy. The authors have specified the following factors that contributed to such a rapid reestablishing: a favourable moisture regime of the root zone caused by the deposition of the surge, the resources of the buried soil that feed the willows, and a certain protective role of dead trees. Prospects of further succession are being discussed; the authors have concluded that over about a 50-year-long period the willow will mostly fall out; by the end of the century the spruce will have partially restored its positions, but the stand will be mixed.
Гришин С.Ю., Шляхов С.А. Растительность и почвы Толбачинского Дола (Камчатка) // Вестник КРАУНЦ. Серия: Науки о Земле. 2009. Вып. 14. № 2. С. 130-142.
On the basis of the original materials obtained since 1978, the authors examine soil and vegetational cover within the zone of the strongest basalt eruption in Kamchatka. An intense ashfall in the summertime of 1975 caused the fall of enormous quantity of volcanites (0.7 km3). The ashfall destroyed vegetational cover over 100 km2 and damaged it over even larger territory. We consider the vegetational cover that existed prior to the eruption, the impact of the ashfall on the forest and alpine vegetation, and unclosed vegetation of the old lava flows. We calculated the area of the damaged vegetational cover and revealed the damage factors. The authors compared the damage factor of the vegetational cover caused by other ashfalls of the last century in Kurile-Kamchatkan region. Regional soils were studied for the first time.
Гусев А.А., Пономарева В.В., Брайцева О.А., Мелекесцев И.В., Сулержицкий Л.Д. Автомодельное (фрактальное) группирование во временной структуре летописи голоценовых эксплозивных извержений Камчатки // Вулканизм и геодинамика. Материалы II Всероссийского симпозиума по вулканологии и палеовулканологии, г. Екатеринбург, 2003 г. Екатеринбург: 2003. С. 862-866.
Гусев Г.М., Жукова Е.Н., Непеина Л.А., Павлов А.Л., Слободской Р.М. Особенности химического состава продуктов извержения вулкана Тятя в 1973 году // Доклады АН СССР. 1976. Т. 227. № 6. С. 1438-1441.
Гущенко И.И. К механизму образования пирокластического материала // Труды Лаборатории вулканологии АН СССР. 1962. Вып. 22. С. 131-142.
Гущенко И.И. Состояние Корякского вулкана в апреле – мае 1957 г. // Бюллетень вулканологических станций. 1959. Вып. 28. С. 21-22.