大连地区红粘土特征研究

大连地区存在发育的红粘土。该土与石灰岩及粘土在化学成分上进行了对比,分析了某些元素流失与聚集的原因,并对其特有的物理特征进行了原始状态、风干状态的水浸试验与土体的收缩试验。从而对该地区红粘土风干后,遇水崩解不可恢复的特殊性,以及土体卸荷在保持原有天然含水量的情况下,呈现稳定状态的合理解释。     

Late Cretaceous–Cenozoic uplift,deformation, and erosion of the SW Tianshan Mountains in Kyrgyzstan and Western China

The Mesozoic to Cenozoic mountain uplift, exhumation, and deformation of the SW Tianshan Mountains (Kyrgyzstan and Northwest China) offer an important window to understand the intra-continental rejuvenation mechanism of the Central Asian Orogenic Belt (CAOB), as response to the far-field effects of the India-Asia collision. This article presents new observation and data for the planation surface and sedimentation and deformation features of the regional intermountain basins to rebuild the orogenic history in Mesozoic to Cenozoic. Three planation surfaces were recognized by field observation, showing that the mountain may have experienced lengthy erosion since the end Cretaceous, and a continuous planation surface may have formed at the Eocene to Oligocene. The filling sequences and deformation character revealed that the orogenic disintegrate and intermountain basin formation likely began in the end of Oligocene. Subsequently, the uniform planation surface in Western Tianshan may have begun to disintegrate, leading to the basin-and-range landform formation. Folds and nappes in the Cenozoic basins, large-scale thrusting of Palaeozoic rocks over Cenozoic sediments at the basin margin associated with the rapid mountain uplift may have occurred at the end of Early Pleistocene, suggesting a tectonic inversion. The Mesozoic–Cenozoic Tianshan uplift and deformation were likely induced by the collision/accretion along the southern margin of Eurasia. Both the northward propagation of the Parmir syntaxis to the SW Tianshan and the oblique dextral faulting of the Talas–Fergana fault have likely played an important role on the formation and deformation of the Cenozoic basins in the SW Tianshan.