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引用次数: 0
摘要
本文通过对阿根廷巴塔哥尼亚(Río Pinturas)约250米起伏阶地序列的地理空间分析,探讨了均衡抬升与流量作为第四纪河流切口驱动因素的争论。Cañadon Caracoles河段的地貌背景允许评估流量作为阶地切口的驱动因素,因为更新世冰川时期的前进冰阻塞了太平洋的排水,并将融化的水从扩大的~104平方公里的集水区通过研究区域的旱地草原输送到大西洋。确定了22个阶地层,其中一些被指定为先前定年的冰缘[海洋同位素阶段(MIS) 32-36, MIS 16, MIS 8和MIS 2]。800 ka以来的平均净切口(~0.34 m ka−1)超过了区域隆升速率。MIS 2梯田在梯田形成的时间上受队列前和队列后年龄的限制,表明在过渡性变暖气候下,梯田切割是幕式的,而且速度更快。~18 ka冰川退缩和前冰湖形成导致了~11.7 m ka−1的快速切割。在MIS 1期间,河流捕获和~15.0 ka可忽略的流量导致了谷底扇坝湖的形成和垂直稳定性。平图拉阶地表现出在流量和泥沙动力作用下的快速切割。
Rapid terrace incision and Quaternary landscape evolution in central Patagonia
The debate over isostatic uplift versus discharge as drivers of Quaternary river incision is explored here through geospatial analysis of a ~250-m-relief terrace sequence from the Río Pinturas (Argentine Patagonia). The geomorphic setting of the Cañadon Caracoles reach allows evaluation of discharge as a driver of terrace incision because advancing ice during Pleistocene glaciations blocked Pacific drainage and routed meltwater from an expanded ~104-km2 catchment to the Atlantic through the dryland steppe of the study area. Twenty-two terrace levels, some assigned to previously dated ice margins [Marine Isotope Stage (MIS) 32–36, MIS 16, MIS 8 and MIS 2], were identified. Average net incision since 800 ka (~0.34 m ka−1) exceeded regional uplift rates. The MIS 2 terraces, with ante quem and post quem age constraint on the timing of terrace formation, show that terrace incision was episodic and faster still during a transitional warming climate. Glacier recession and proglacial lake formation at ~18 ka led to rapid incision of ~11.7 m ka−1 over a few millennia. River capture and negligible flow from ~15.0 ka caused fan-dammed lake formation on the valley floor and vertical stability during MIS 1. The Pinturas terraces demonstrate rapid incision can be driven by discharge and sediment dynamics.
期刊介绍:
The Journal of Quaternary Science publishes original papers on any field of Quaternary research, and aims to promote a wider appreciation and deeper understanding of the earth''s history during the last 2.58 million years. Papers from a wide range of disciplines appear in JQS including, for example, Archaeology, Botany, Climatology, Geochemistry, Geochronology, Geology, Geomorphology, Geophysics, Glaciology, Limnology, Oceanography, Palaeoceanography, Palaeoclimatology, Palaeoecology, Palaeontology, Soil Science and Zoology. The journal particularly welcomes papers reporting the results of interdisciplinary or multidisciplinary research which are of wide international interest to Quaternary scientists. Short communications and correspondence relating to views and information contained in JQS may also be considered for publication.
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