V. Holliday, Matthew T. Cuba, Way-Yuan Lee, Jason D. Windingstad, Brendan Fenerty, D. Bustos
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引用次数: 2
摘要
白沙沙丘场是世界上最大的石膏沙丘系统,起源于古奥特罗湖沉积物的收缩。了解最初沙丘形成的时间,以及湖泊收缩的时间,对于理解区域景观演变(包括湖泊干旱化的历史)至关重要。目前估计沙丘形成的开始时间为~8000 ~ 6500 cal yr BP,但数值年龄控制有限。这里报告的考古证据表明有两个更古老的石膏沙丘建造阶段。在主沙丘体以南的抛物状沙丘上,有一个考古遗址,其中的文物可以追溯到距今12200万年,这为地貌提供了一个年龄上限。另一个埋在主要沙丘区遗迹中的地点产生了六个统计上相同的放射性碳年代,平均为~8770 calyr BP。更新世末缩蚀和抛物面沙丘形成的初始阶段可能是局部的,但与一段区域干旱时期有关。在全新世早期,由于当地地下水盐度升高,以及可能由于干旱导致的大量石膏暴露,形成了Barchans和新月形脊状的主要沙丘体。
Onset of dune construction based on archaeological evidence, White Sands, New Mexico
Abstract The White Sands dune field is the largest gypsum dune system in the world, derived from deflation of paleo-Lake Otero deposits. Understanding the timing of initial dune construction, and therefore lake deflation, is critical for understanding regional landscape evolution, including the history of lake desiccation. The onset of dune construction is currently estimated at ~8000 to 6500 cal yr BP, but numerical age control is limited. Archaeological evidence reported here indicates two older phases of gypsum dune construction. An archaeological site draped over a parabolic dune south of the main dune body contains artifacts dating to >12,200 cal yr BP, providing an upper age limit for the landform. Another site buried within a remnant of the main dune field yielded six statistically identical radiocarbon dates averaging ~8770 cal yr BP. The initial phase of terminal Pleistocene deflation and parabolic dune construction was perhaps localized but correlates with a period of regional aridity. Barchans and crescentic ridges comprising the main dune body developed in the Early Holocene in response to elevated salinity in local ground water and extensive exposures of gypsum available for deflation, likely due to aridity.
期刊介绍:
Quaternary Research is an international journal devoted to the advancement of the interdisciplinary understanding of the Quaternary Period. We aim to publish articles of broad interest with relevance to more than one discipline, and that constitute a significant new contribution to Quaternary science. The journal’s scope is global, building on its nearly 50-year history in advancing the understanding of earth and human history through interdisciplinary study of the last 2.6 million years.