Long-term slip rates and characteristic slip: keys to active fault behaviour and earthquake hazard

Comptes Rendus de l'Académie des Sciences - Series IIA - Earth and Planetary Science Pub Date : 2001-11-15 DOI:10.1016/S1251-8050(01)01668-8

Paul Tapponnier , Frederick James Ryerson , Jerome Van der Woerd , Anne-Sophie Mériaux , Cécile Lasserre

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引用次数: 89

Abstract

Over periods of thousands of years, active faults tend to slip at constant rates. Pioneer studies of large Asian faults show that cosmogenic radionuclides (¹⁰Be, ²⁶Al) provide an unparalleled tool to date surface features, whose offsets yield the longest records of recent cumulative movement. The technique is thus uniquely suited to determine long-term (10–100 ka) slip rates. Such rates, combined with coseismic slip-amounts, can give access to recurrence times of earthquakes of similar sizes. Landform dating – morphochronology – is therefore essential to understand fault-behaviour, evaluate seismic hazard, and build physical earthquake models. It is irreplaceable because long-term slip-rates on interacting faults need not coincide with GPS-derived, interseismic rates, and can be difficult to obtain from paleo-seismological trenching.

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长期滑动率和特征滑动:活动断层行为和地震危险的关键

在数千年的时间里，活动断层往往以恒定的速度滑动。对亚洲大型断层的初步研究表明，宇宙成因放射性核素(10Be, 26Al)提供了一种无与伦比的工具来确定地表特征的年代，这些地表特征的偏移量产生了最近累积运动的最长记录。因此，该技术非常适合于确定长期(10-100 ka)滑动速率。这样的速率与同震滑动量相结合，可以得到类似大小地震的重复时间。因此，地貌测年——形态年代学——对于理解断层行为、评估地震危险性和建立物理地震模型至关重要。它是不可替代的，因为相互作用断层的长期滑动速率不需要与gps获得的地震间速率一致，并且很难从古地震沟槽中获得。

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Comptes Rendus de l'Académie des Sciences - Series IIA - Earth and Planetary Science

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