Long-runout landslides with associated longitudinal ridges in Iceland as analogues of Martian landslide deposits

IF 2.8 2区 地球科学 Q2 GEOGRAPHY, PHYSICAL Earth Surface Dynamics Pub Date : 2024-05-06 DOI:10.5194/esurf-12-657-2024
Giulia Magnarini, Anya Champagne, Costanza Morino, Calvin Beck, Meven Philippe, Armelle Decaulne, Susan J. Conway
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Abstract

Abstract. Much work has been done to study the behaviour of long-runout landslides and their associated longitudinal ridges, yet the origin of the hypermobility of such landslides and the formation mechanism of longitudinal ridges are poorly understood. As terrestrial long-runout landslides emplaced on glaciers commonly exhibit longitudinal ridges, the presence of these landforms has been used to infer the presence of ice on Mars, where hundreds of well-preserved long-runout landslides with longitudinal ridges are found. However, the presence of the same landforms in regions where extensive glaciations did not occur, for instance, on the Moon and in the Atacama region on Earth, suggests that ice is not the only factor influencing the formation of long-runout landslides with longitudinal ridges. Iceland is a unique region for its high spatial density of well-preserved long-runout landslides with longitudinal ridges. Here, we compiled the first catalogue of Icelandic long-runout landslides with longitudinal ridges, and we compared them with Martian long-runout landslides with longitudinal ridges of similar length. Moreover, we present detailed morphological observations of the Dalvík landslide deposit, in the Tröllaskagi peninsula, Iceland, and compare them with morphological observations of Martian landslides. Our results show that Icelandic long-runout landslides share key features with Martian analogue deposits, including splitting of longitudinal ridges and development of associated en echelon features. Therefore, Icelandic long-runout landslides with longitudinal ridges represent good morphological analogues of Martian long-runout landslides. Moreover, Iceland offers an opportunity to investigate the occurrence of these landforms at a regional scale, as well as their link with deglaciation following the Last Glacial Maximum, which could also provide insights into Martian palaeoclimatic and palaeoenvironmental conditions.
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作为火星滑坡沉积类似物的冰岛长距离滑坡及相关纵脊
摘要人们已经做了大量工作来研究长滑坡及其相关纵脊的行为,但对这类滑坡的超流动性的起源和纵脊的形成机制却知之甚少。由于在冰川上形成的陆地长迳流滑坡通常会出现纵脊,因此这些地貌的存在被用来推断火星上是否存在冰,在火星上发现了数百个保存完好的带有纵脊的长迳流滑坡。然而,在月球和地球上的阿塔卡马地区等未出现大面积冰川的地区也存在同样的地貌,这表明冰并不是影响带有纵脊的长滑坡形成的唯一因素。冰岛是一个独特的地区,因为这里有大量保存完好的带纵脊的长滑坡。在此,我们首次编制了冰岛带纵脊的长滑坡目录,并将其与火星上长度相似的带纵脊的长滑坡进行了比较。此外,我们还对冰岛特勒拉斯卡吉半岛的达尔维克滑坡沉积物进行了详细的形态观测,并将其与火星滑坡的形态观测结果进行了比较。我们的研究结果表明,冰岛的长距离滑坡与火星类似沉积物具有共同的主要特征,包括纵向山脊的分裂和相关梯状特征的发展。因此,带有纵脊的冰岛长滑坡是火星长滑坡的良好形态类似物。此外,冰岛还为研究这些地貌在区域范围内的出现及其与末次冰川极盛期之后的冰川消融之间的联系提供了机会,这也有助于深入了解火星的古气候和古环境条件。
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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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