Regional piedmont incision during base-level rise in the northeastern Sonoran Desert, Arizona, USA

IF 1.1 4区 地球科学 Q4 ENVIRONMENTAL SCIENCES
Christian González, M. Kelley, M. Marvin, Norma López-Castañeda, R. Dorn, M. Schmeeckle
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引用次数: 2

Abstract

ABSTRACT Ephemeral channels incise into the piedmonts (both alluvial fans and pediments) of the northeastern Sonoran Desert, USA. Located around metropolitan Phoenix, this tectonically quiescent region experienced only aggradation in endorheic structural basins throughout the Pliocene. A wave of aggradation then followed Salt and Gila river integration at the start of the Pleistocene. Aggradation of piedmont base levels continued throughout the rest of the Quaternary. This paper explores two hypotheses to explain piedmont incision despite rising base levels. The classic explanation is that incision is part of the evolution of desert mountain ranges as they decrease in size. A new alternative we propose here involves a lateral shift in base level from Pliocene endorheic basin playas to positions kilometers closer to range fronts in response to river integration. We present a thought exercise of modeling a pediment longitudinal profile as a 1D diffusive system, and we also analyze incision into alluvial fans of the Sierra Estrella range. While our 1D modeling results for pediments are consistent with both explanations for range-front incision, Sierra Estrella bajada incision is best explained by the sudden relocation of the base level to the toe of desert piedmonts.
美国亚利桑那州索诺兰沙漠东北部基准面上升期间的区域山前切口
摘要短暂河道切入美国索诺兰沙漠东北部的山前地带(冲积扇和山麓)。该构造静止区位于凤凰城周围,在整个上新世,仅经历了内陆构造盆地的加积。更新世初期,盐河和吉拉河整合后出现了一波沉积。在整个第四纪的剩余时间里,山前基准面的不断增加。本文探讨了两个假设来解释尽管基准面上升,山前切口。经典的解释是,切口是沙漠山脉随着规模缩小而演变的一部分。我们在这里提出的一个新的替代方案涉及基准面从上新世-内陆海盆地向距离山脉前缘近公里的位置的横向移动,以应对河流整合。我们提出了一个将三角洲纵剖面建模为1D扩散系统的思想练习,我们还分析了Sierra Estrella山脉冲积扇的切口。虽然我们对山麓的1D建模结果与对范围前沿切口的两种解释一致,但Sierra Estrella bajada切口最好通过基准面突然迁移到沙漠山前坡脚来解释。
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来源期刊
Physical Geography
Physical Geography 地学-地球科学综合
CiteScore
3.60
自引率
0.00%
发文量
18
审稿时长
6 months
期刊介绍: Physical Geography disseminates significant research in the environmental sciences, including research that integrates environmental processes and human activities. It publishes original papers devoted to research in climatology, geomorphology, hydrology, biogeography, soil science, human-environment interactions, and research methods in physical geography, and welcomes original contributions on topics at the intersection of two or more of these categories.
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