Variability of glaciers situated in volcanic regions of Kamchatka is considered. Glacier fluctuations, induced by climatic changes and volcanic activity are distinguished. Kozelsky Glacier advanced in 1971-1976. For five years it made a 330-meter advance and its area increased by 0.09 km . The advance was stimulated by favourable climatic conditions: big snowness of winters and cold summer ablation seasons. The Bil'chenok Glacier advanced in 1976-1977 after a 17-year quiescence period. The glacier terminus descended down to 1100 m a.s.l. and made a 500-m advance. The impact of present-day volcanism on glacier fluctuations was revealed: 1) glacier surges resulting from considerable water film at the glacier-bed boundary, accumulation of
additional volumes of eruptive material on its surface and also due to the growth of seismic activity; 2) shrinkage of the area and volume of glaciers -because of ice melting and washout of their parts by melt waters under thermal influence of erupting volcano and, in particular, in case of subglacial eruptions and ice contacts with lava flows; 3) destruction of ice and glaciers by catastrophic explosive eruptions and also in case of partial subsidence and stopong of volcanoes. Some examples of the impacts of volcanic eruptions on glaciers are given.

Описаны камчатские разрезы тефры голоценового возраста (разрез вулкана Малый Семячик; разрезы Киргурич и Апахончич в районе Ключевской сопки; разрез, включающий культурные слои стоянки Авача-1). Отмечено, что в спектре вариаций геомагнитного поля могут быть выделены гармоники, пригодные для межрегиональных хроностратиграфических сопоставлений.
Ил. 3, библ. 6.

Among the hypotheses of andesite formation was distinguished a group of «aqueous» models which assume an active participation of water in this process. From the position of «aqueous» genesis of andesites under analysis are mechanisms which could lead to lowering of water concentration and increasing of temperature of the melts to the values being in accordance to estimations of conditions of crystallization of andesites. At the depth more than 10 km such mechanism could be represented by supply into the magma of large amounts (tens percent of mass) of high-temperature depth-derived fluids having a low percentage of water. At the depth less than 5 - 10 km it could be a bulk crystallization under adiabatic decompression. The conclusions obtained are discussed on the example of the Bezymyanny volcano. For reasonable testing of the «aqueous» models it is necessary to determine more precisely the depthes of formation of phenocrysts of andesites.

Рассмотрено образование различных типов магматических пород с использованием для расшифровки их генезиса геологических, петрографических и петрохимичсских методов, а также данных по экспериментальному изучению фазовых равновесий в породах. Уделено внимание распределению редких элементов в горных породах и изотопному анализу. Дана оценка возможностей и применимости различных методов исследования. Обоснована ведущая роль магматической дифференциации в генезисе изверженных пород. Освещены вопросы методологии их изучения.

Для геологов, петрографов и других специалистов, занимающихся изучением изверженных пород и связанных с ними полезных ископаемых. Может быть полезна студентам вузов геологического профиля.