Camacho Alfredo, Lee James K W, Hensen Bastiaan J, Braun Jean
Geological Sciences and Geological Engineering, Queen's University, Kingston, Ontario K7L 3N6, Canada.
Nature. 2005 Jun 30;435(7046):1191-6. doi: 10.1038/nature03643.
Collision tectonics and the associated transformation of continental crust to high-pressure rocks (eclogites) are generally well-understood processes, but important contradictions remain between tectonothermal models and petrological-isotopic data obtained from such rocks. Here we use 40Ar-39Ar data coupled with a thermal model to constrain the time-integrated duration of an orogenic cycle (the burial and exhumation of a particular segment of the crust) to be less than 13 Myr. We also determine the total duration of associated metamorphic events to be approximately 20 kyr, and of individual heat pulses experienced by the rocks to be as short as 10 years. Such short timescales are indicative of rapid tectonic processes associated with catastrophic deformation events (earthquakes). Such events triggered transient heat advection by hot fluid along deformation (shear) zones, which cut relatively cool and dry subducted crust. In contrast to current thermal models that assume thermal equilibrium and invoke high ambient temperatures in the thickened crust, our non-steady-state cold-crust model satisfactorily explains several otherwise contradictory geological observations.
碰撞构造以及与之相关的大陆地壳向高压岩石(榴辉岩)的转变通常是人们比较了解的过程,但是在构造热模型与从这类岩石获得的岩石学 - 同位素数据之间仍然存在重要矛盾。在这里,我们使用40Ar - 39Ar数据并结合热模型,将造山旋回(地壳特定部分的埋藏和折返)的时间积分持续时间限制为小于13百万年。我们还确定相关变质事件的总持续时间约为20千年,并且岩石经历的单个热脉冲短至10年。如此短的时间尺度表明与灾难性变形事件(地震)相关的快速构造过程。这些事件通过热流体沿着切割相对凉爽干燥的俯冲地壳的变形(剪切)带引发瞬态热平流。与当前假设热平衡并在加厚地壳中引入高环境温度的热模型相反,我们的非稳态冷地壳模型令人满意地解释了一些原本相互矛盾的地质观测结果。