Zandt George, Gilbert Hersh, Owens Thomas J, Ducea Mihai, Saleeby Jason, Jones Craig H
Department of Geosciences, University of Arizona, Tucson, Arizona 85721, USA.
Nature. 2004 Sep 2;431(7004):41-6. doi: 10.1038/nature02847.
Seismic data provide images of crust-mantle interactions during ongoing removal of the dense batholithic root beneath the southern Sierra Nevada mountains in California. The removal appears to have initiated between 10 and 3 Myr ago with a Rayleigh-Taylor-type instability, but with a pronounced asymmetric flow into a mantle downwelling (drip) beneath the adjacent Great Valley. A nearly horizontal shear zone accommodated the detachment of the ultramafic root from its granitoid batholith. With continuing flow into the mantle drip, viscous drag at the base of the remaining approximately 35-km-thick crust has thickened the crust by approximately 7 km in a narrow welt beneath the western flank of the range. Adjacent to the welt and at the top of the drip, a V-shaped cone of crust is being dragged down tens of kilometres into the core of the mantle drip, causing the disappearance of the Moho in the seismic images. Viscous coupling between the crust and mantle is therefore apparently driving present-day surface subsidence.
地震数据提供了加利福尼亚州内华达山脉南部下方正在进行的致密岩基根部移除过程中地壳 - 地幔相互作用的图像。这种移除似乎在10到3百万年前由瑞利 - 泰勒型不稳定性引发,但伴随着明显不对称的流体流入相邻大谷地下方的地幔下沉(滴流)。一个近乎水平的剪切带使得超镁铁质根部与其花岗岩质岩基分离。随着持续流入地幔滴流,在山脉西侧下方狭窄的地带上,剩余约35千米厚地壳底部的粘性阻力使地壳增厚了约7千米。在滴流顶部且与地带相邻处,一个V形地壳锥正被向下拖入地幔滴流核心达数十千米,导致地震图像中莫霍面消失。因此,地壳与地幔之间的粘性耦合显然正在推动当今的地表沉降。