重建高原西部边界(南纬 18.5°-19°)的冰川:过去冰川移动潜在驱动因素的奇异性与启示

IF 2.9 Q2 GEOGRAPHY, PHYSICAL
Matias Gallardo , Jan-Christoph Otto , Eugenia M. Gayo , Luca Sitzia
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引用次数: 0

摘要

如今,西部阿尔蒂普拉诺的冰川非常稀少,甚至在海拔超过 6000 米的山峰上也没有冰川。然而,在这片大部分没有冰的地貌中,冰碛和其他冰川沉积物被普遍发现,证明了过去有利于冰川前进的截然不同的气候条件。虽然阿尔蒂普拉诺的其他地区在古气候重建中已被普遍考虑,但阿尔蒂普拉诺西部却经常被忽视。在这里,我们展示了一幅详细的冰川地貌图,以及南纬18.5°和19°之间阿尔蒂普拉诺西部试验区的古冰川重建。我们重建了几个冰碛阶段的区域平衡线高度(ELA),代表了该地区过去冰川的广泛推进。在一个突出的、无处不在的 "主冰碛(PM)"阶段,来自大多数山峰和所有方向的冰川都推进到了海拔 4000 米的高度。沿 90 条山谷重建的主碛 ELA 在海拔 4400 米至 5000 米之间。ELA的分布显示,在阿尔蒂普拉诺西部边界有很强的地势依赖性,西向冰川的ELA比东向冰川低300米。这种陡峭的坡度与突出的西北-东南山脊相吻合,说明地形控制了降水,从而控制了冰川沿阿尔蒂普拉诺西部边界的前进。在东部,高耸于阿尔蒂普拉诺的山峰所产生的 ELA 值与阿尔蒂普拉诺西部边界东向冰川所产生的 ELA 值相当,但几乎没有显示出长宽相关性。由于这些模式不能完全用亚马孙流域增加的水汽平流来解释,我们怀疑与冷锋和断流事件频率增加有关的西源水汽在该纬度的冰川动力学中发挥了重要作用。不过,要评估两种降水机制对最西端阿尔蒂普拉诺冰川动力学的相对作用,还需要进一步的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Reconstruction of glaciers in the western boundary of the Altiplano (18.5°-19°S): Singularities and insights on potential drivers of past advances

Reconstruction of glaciers in the western boundary of the Altiplano (18.5°-19°S): Singularities and insights on potential drivers of past advances

Today, glaciers in the western Altiplano are very scarce, even on peaks exceeding 6000 m. In this mostly ice-free landscape, however, moraines and other glacial deposits are commonly found attesting to quite different climate conditions that favored the advance of glaciers in the past. Although other areas of the Altiplano have been commonly accounted for regarding paleoclimate reconstructions, western Altiplano has been often overlooked. Here we present a detailed map of glacial landforms and a paleoglacier reconstruction from a test area in the western Altiplano between 18.5° and 19°S. We reconstructed regional equilibrium line altitudes (ELA) for several moraine stages, representing extensive past glacier advances in the region. During a prominent and ubiquitous ‘Principal Moraine (PM)’ stage glaciers from most peaks and all orientations advanced to altitudes of up to 4000 m asl. Reconstructed PM ELAs along 90 valleys range from 4400 to 5000 m asl. ELA distribution reveals a strong aspect-dependency at the western boundary of the Altiplano, with ELAs 300 m lower on west-facing glaciers than east-facing glaciers. The coincidence of such steep gradient with a prominent NW-SE ridge accounts for topographic control on the precipitation and thus in the advance of glaciers along the western boundary of the Altiplano. To the east, ELAs from the peaks towering the Altiplano are comparable to ELAs from east-facing glaciers at the western Altiplano boundary but show little to no aspect-dependency. Since these patterns cannot be solely explained by increased moisture advection from the Amazon basin, we suspect that western-sourced moisture associated with increased frequency of cold fronts and cut-off events played an important role in the glacier dynamics at this latitude. Nevertheless, further investigations are required to evaluate the relative role of both precipitation regimes on the glacier dynamics from the westernmost Altiplano.

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来源期刊
Quaternary Science Advances
Quaternary Science Advances Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
4.00
自引率
13.30%
发文量
16
审稿时长
61 days
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