Pleistocene Colorado River terraces in the canyonlands region (Utah, USA) record unsteady, transient incision and growth of the Cataract Canyon knickzone by salt tectonics

Geology Pub Date : 2023-11-20 DOI:10.1130/g51599.1
Natalie Tanski, J. Pederson, T. Rittenour, A. Hidy
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Abstract

Colorado River terraces in the canyonlands region of southeastern Utah can be dated and analyzed to address the controls of incision and nature of the Colorado Plateau's largest channel-steepness anomaly, Cataract Canyon. Field correlations supported by luminescence and cosmogenic-nuclide ages on strath terraces along Meander Canyon, upstream of Cataract Canyon, reveal a complex record of unsteady incision over the past ∼340 k.y. at an average rate of ∼0.4 mm/yr. Both an upstream progression of rapid incision and a unique sigmoidal long-profile pattern of terraces indicate incision in response to episodic baselevel fall. Also, terraces converge downstream with the anomalously low-gradient modern channel above Cataract Canyon. We interpret these results as indicating that growth of the Cataract Canyon knickzone is due to an erosion-salt tectonics feedback since at least the Mid Pleistocene, which has imparted unsteady, and currently elevated, local baselevel. More broadly, the canyonlands region is marked by rapid and unsteady incision that is complicated by local geologic controls even while being absent of any regional or mantle-driven uplift.
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峡谷地带(美国犹他州)更新世科罗拉多河阶地记录了盐构造对卡特拉克峡谷节理带不稳定、短暂的侵蚀和增长
通过对犹他州东南部峡谷地带的科罗拉多河阶地进行年代测定和分析,可以了解科罗拉多高原最大的河道陡度异常点--卡塔拉克峡谷的侵蚀控制和性质。卡塔拉克特峡谷上游沿蜿蜒峡谷的地层阶地上的发光和宇宙成因核素年龄的实地相关性显示了过去 340 千年以来以平均每年 0.4 毫米的速度不稳定侵蚀的复杂记录。上游的快速侵蚀过程和独特的梯田长剖面图都表明,梯田的侵蚀是对偶发性基底下降的反应。此外,阶地在下游与卡特拉克峡谷上方异常低坡度的现代河道汇合。我们对这些结果的解释是,卡塔拉克峡谷节理带的增长是由于至少自中新世以来的侵蚀-盐构造反馈作用造成的,这种反馈作用使当地的基面不稳定,目前基面升高。更广泛地说,峡谷地区域的特点是快速而不稳定的侵蚀,即使没有任何区域性或地幔驱动的隆起,当地的地质控制也使之复杂化。
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