Abstract
Detailed studies of historical seismicity and paleoseismological data for major late Quaternary faults in China reveal spatial and temporal patterns in paleoseismic activity associated with these faults. Analysis of space‐time distributions of late Quaternary faults and consideration of new models for deformation of the Asian continent provide a basis for proposing a division of China and surrounding areas into five active tectonic provinces. Slip rates for active faults are highest in the Himalayan collision zone between the Indian and Eurasian plates and gradually decrease away from the collision zone into the adjacent active tectonic provinces. Paleoearthquake recurrence intervals in the active tectonic provinces of China reflect seismogenic properties that are closely related to the position of these provinces relative to the converging Indian and Eurasian plates. Average recurrence intervals are <2000 years to as little as 310–900 years for active faults in the Qinghai‐Tibetan active tectonic province, whereas recurrence intervals are 2000–4500 years in the Xinjiang active tectonic province and longer than 2000 years to as much as 7250 years in the North China active tectonic province. Although average recurrence intervals are closely related to the slip rates of late Quaternary faults, no simple linear relationship exists between recurrence interval and slip rate. Further, analysis of paleoseismicity on major active faults shows that there are temporal variations in recurrence intervals. The case studies also indicate that for some provinces, faults, or fault segments there are three paleoseismic patterns: linear, logarithmic, and stepped. In the logarithmic and stepped patterns, the earthquake temporal sequence is characterized by active periods (earthquake clusters with relatively short recurrence intervals) and quiet periods (lack of clustering and relatively long recurrence intervals).
Highlights
Large blocks of the first order, which are located on the viscous foundation, interacted with each other under the influence of the sublithospheric movements or endogenous sources and facilitated the occurrence of high stresses inside the blocks
The intense evolution of ensembles of faults and blocks of the second scaletime level is facilitated by shortterm activa tion of faultblock structures of the lithosphere under the influence of strain waves
Investigations of periodical processes specified in the geological records over the postProterozoic periods [Khain, Khalilov, 2009] suggest that in so far uninvestigated historical and more ancient times, the top of the lithosphere was subject to wave processes that influenced the metastable state of the faultblock medium of the lithosphere
Summary
Длительное напряженное состояние верхней хруп кой части литосферы является главной причиной ее деформации, в большинстве случаев сопровождаю щейся разломообразованием, которое представляет со бой формирование разноранговых разрывов, сочетания которых образуют разломноблоковые структуры ли тосферы и ее деструктивные зоны. Сегодня для объяснения первичного формирования крупных разломов Земли и заложения первичной бло ковой структуры литосферы можно оттолкнуться от представлений о роли ячей Бенара при формировании диссипативных структур во время кристаллизации вяз ких сред или изза воздействия волновых процессов. Опираясь на установлен ные закономерности ранних этапов развития Земли и становления ее верхней оболочки – литосферы, можно утверждать, что при ее остывании в вязкой среде фор мировались конвекционные ячеи, наиболее «холод ные» границы между которыми явились концентрато рами напряжений, способствующих заложению дислокаций. В границах блоков первого масштабновременного уров ня в процессе геодинамического развития и реализации тектонических напряжений селективно образуют ся более мелкие блоки других рангов, формирующие второй масштабновременной уровень деструкции ли тосферы. Именно для них характерна за кономерная деструкция, описываемая аналитическими уравнениями
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