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引用次数: 9
摘要
在冰岛北部Skagi半岛的Tindastoll山,研究了冰岩边坡破坏(parice rock-slope failure, RSF)对冰川景观中cirques挖掘的贡献。我们分析了该古高原第四纪时期发育的8个漩涡和全新世时期发育的13个准冰川RSF空洞。通过对青藏高原前第四纪地表的重建,计算出了全新世环流对环流生长的贡献。通过对整个第四纪的贡献进行外推,我们发现副冰的RSF对旋流的发展是一级贡献。这种贡献是双重的:首先,准冰川的RSF沿着山谷斜坡形成空洞,在随后的冰川期间,环状冰川可以在其中形成;其次,沿已存在的马戏壁的副间隙RSF促进马戏的扩大和深化。研究结果还表明,第四纪冰川/副冰川的侵蚀速率在0.02 ~ 0.17 mm yr -¹之间。我们推断,冰川是(i)滑冰区RSF导致斜坡失稳的有效准备因素,(ii)滑冰区RSF产生沉积物的有效输送器,但(iii)不一定是滑冰区基岩开挖的主要因素。
A paraglacial rock-slope failure origin for cirques: a case study from Northern Iceland
The contribution of paraglacial rock-slope failure (RSF) to the excavation of cirques in glacial landscapes is explored in the Tindastoll Mountain, Skagi peninsula, northern Iceland. We analyze 8 cirques that developed during the Quaternary and 13 paraglacial RSF cavities that developed during the Holocene in this paleo-plateau. From a reconstruction of the pre-Quaternary surface of the plateau, we calculate the excavated volumes of the cirques and RSF cavities and quantify the contribution of Holocene RSF to cirque growth. By extrapolating this contribution to the whole Quaternary, we find that paraglacial RSF is a first-order contributor to the development of cirques. This contribution is twofold: first, paraglacial RSF creates cavities along valley slopes, in which cirque glaciers can develop during subsequent glaciations; second, paraglacial RSF along pre-existing cirque walls promotes cirque widening and deepening. Our results also reveal that Quaternary glacial/paraglacial erosion rates range from 0.02 to 0.17 mm yr‑¹ in the studied cirques. We infer that glaciers are (i) efficient preparatory factors for the destabilization of slopes by paraglacial RSF, (ii) efficient conveyors to evacuate deposits produced by paraglacial RSF in cirques, but (iii) not necessarily predominant agents in the excavation of cirque bedrocks.
期刊介绍:
La revue trimestrielle Géomorphologie : Relief, Processus, Environnement accueille des contributions portant sur la géomorphologie dans l’acception la plus large : formes du relief à toutes les échelles, modelés, processus de toutes natures. Elle publie des articles qui étudient les relations entre la géomorphologie et les disciplines voisines : géographie physique, géographie humaine, archéologie, écologie, sciences de la Terre et des planètes ainsi que celles qui s’intéressent à l’environnement naturel. Les études expérimentales, la modélisation, les exposés méthodologiques reçoivent le même accueil que les analyses naturalistes à partir des observations de terrain. Les mises au point thématiques sont les bienvenues, à condition d''être annoncées comme telles, tout comme les comptes rendus d''ouvrages ou les réunions scientifiques et les « tribunes libres ». Publication francophone, largement bilingue, elle est ouverte à des contributions en anglais.
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