作为冰川侵蚀证据的火星北部中纬度地区漩涡状凹地

IF 2.8 2区 地球科学 Q2 GEOGRAPHY, PHYSICAL
An Li, Michelle Koutnik, Stephen Brough, Matteo Spagnolo, Iestyn Barr
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引用次数: 0

摘要

摘要。虽然火星中纬度地区以粘流地貌形式存在的冰川遗迹被认为是以冷为基础的,但越来越多的地貌证据表明,至少有些粘流地貌以前是以湿为基础的,或者在其演化过程中具有混合热状态(多热)。据观察,许多被称为冰川状的粘性流地貌都是从凹洞中出现的,这些凹洞看起来与地球上的盘旋地貌相似。陆地上的凹涡通常具有凹陷的盆地和陡峭的后壁相连的特征。预计凹地是由山坡上的凹陷形成的,这些凹陷充满了冰雪,随着时间的推移,活跃的冰川通过湿基冰川侵蚀作用加深了凹陷。为了评估火星上哪些凹地最 "像凹地",我们在火星中纬度地区的Deuteronilus Mensae绘制了约2000个凹地。根据视觉特征和形态计量学,我们将数据集细化为 386 个 "盘旋状凹地",是该地区冰川状凹地数量的五倍,并以此评估火星过去冰川作用的范围和类型。通过使用高分辨率图像,我们发现了与 "类盘旋凹地 "相关的冰川侵蚀地貌证据,包括裂缝地貌、地表线形、多边形地形和冰碛脊。我们认为,具有类似于地球上岩石冰川的冰雪残留物的盘旋凹地代表了冰川形态演化的晚期阶段。我们还概括了盘旋凹地的演化阶段,将盘旋凹地的早期阶段与沟谷活动联系起来。在整个群体范围内,盘旋状凹地的地势倾向于南向和东南向,这可能表明融化的发生需要更多的日照,并与火星上的沟壑有关。虽然凹地与其他地貌(如滑坡疤痕和露天剧场式山谷)也有相似之处,但盘旋状凹地具有独特的形态和形态计量学特征,可以区分其起源。假设以暖流为基础的侵蚀速率为依据,盘旋状凹地的时间尺度与类似冰川的形态和其他粘性流地貌(如裂片状碎屑围岩)一致,而以冷流为基础的侵蚀速率则只能使裂片状碎屑围岩的时间尺度更长。我们认为,根据地貌特征和南向剖面来看,圈状凹槽的形成更符合暖基性冰川作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cirque-like alcoves in the northern mid-latitudes of Mars as evidence of glacial erosion
Abstract. While glacial remnants in the form of viscous flow features in the mid-latitudes of Mars are considered to be cold-based in the present-day, an increasing amount of geomorphic evidence suggests that at least some flow features were previously wet-based or had a mixed thermal state (polythermal) at during their evolution. Many of the viscous flow features known as glacier-like forms have been observed to emerge from alcoves that appear similar to cirques on Earth. Terrestrial cirques are typically characterized by a concave basin connected to a steep backwall. Cirques are expected to form from depressions in mountainsides that fill with snow/ice and over time support active glaciers that deepen the depressions by wet-based glacial erosion. To assess which alcoves on Mars are most “cirque-like”, we mapped a population of ~2000 alcoves in Deuteronilus Mensae, a region in the mid-latitudes of Mars characterized by mesas encompassed by glacial remnants. Based on visual characteristics and morphometrics, we refined our dataset to 386 “cirque-like alcoves”, which is five times the amount of glacier-like forms in the region, and used this to assess the past extent and style of glaciation on Mars. Using high resolution imagery, we find geomorphic evidence for glacial occupation associated with the cirque-like alcoves, including crevasse-like features, surface lineations, polygonal terrain, and moraine-like ridges. We propose that the cirque-like alcoves with icy remnants similar to rock glaciers on Earth represent a late stage of glacier-like form evolution. We also outline stages of cirque-like alcove evolution, linking a potential early stage of cirque-like alcoves to gully activity. On a population-wide scale, the cirque-like alcoves have a south to southeastward aspect bias, which may indicate a requirement for increased insolation for melting to occur and a connection to gullies on Mars. While the alcoves also have similarities to other features such as landslide scarps and amphitheater-headed valleys, the cirque-like alcoves have unique morphologies and morphometrics that differentiate their origin. Assuming warm-based erosion rates, the cirque-like alcoves have timescales consistent with both glacier-like forms and other viscous flow features like lobate debris aprons, whereas cold-based erosion rates would only allow the older timescales of lobate debris aprons. We propose that based on the geomorphic features and southward aspect, cirque-like alcove formation is more consistent with warm-based glaciation.
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来源期刊
Earth Surface Dynamics
Earth Surface Dynamics GEOGRAPHY, PHYSICALGEOSCIENCES, MULTIDISCI-GEOSCIENCES, MULTIDISCIPLINARY
CiteScore
5.40
自引率
5.90%
发文量
56
审稿时长
20 weeks
期刊介绍: Earth Surface Dynamics (ESurf) is an international scientific journal dedicated to the publication and discussion of high-quality research on the physical, chemical, and biological processes shaping Earth''s surface and their interactions on all scales.
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