New evidence of glacier advances during Lateglacial Interstadial deciphered from facies evolution in proglacial lacustrine basins of the Maurienne Valley, French Alps

IF 2.9 Q2 GEOGRAPHY, PHYSICAL
Thibault Roattino , Jean-François Buoncristiani , Christian Crouzet , Riccardo Vassallo
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Abstract

Sedimentological analysis of glaciolacustrine deposit in the French Alps provides an opportunity to elucidate poorly understood glacier fluctuations during the Lateglacial Interstadial. This study focuses on two proglacial lacustrine basins in the Maurienne Valley, Le Verney and Lanslebourg, recording sediment deposition during the Lateglacial. Sedimentological and soft sediment deformation analyses were conducted on these glaciolacustrine sedimentary deposits to constrain the dynamic of the Arc glacier. At Le Verney, the sedimentary succession records the deposition of a proglacial subaquatic fan under supercritical conditions, transitioning to a Gilbert delta-type sedimentation, indicating glacier retreat. Fluid overpressure, shear deformations, and compressional stresses found within Gilbert delta-type sediment marks a subsequent glacier advance. In the Lanslebourg basin, sedimentary deposits display supercritical and subcritical conditions, separated by deposition under a hydraulic jump characteristic of ice contact delta. In this area, glacier advance is recorded by a more proximal condition toward the top of the sedimentary succession, along with a transition to a subglacial condition. These findings reveal glacier advances during the Bølling-Allerød Interstadial, providing the first evidence of glacier re-advances in the French northern Alps during this warming period. This result highlights the complex interactions between local climate, glacier dynamics, and topography.
从法国阿尔卑斯山莫里安河谷冰川湖积盆地的岩相演变中解读冰川在间冰期前进的新证据
对法国阿尔卑斯山的冰川湖积沉积物进行沉积学分析,为阐明 "拉特冰期间歇"(Lateglacial Interstadial)期间鲜为人知的冰川波动提供了机会。这项研究的重点是莫里恩河谷(Maurienne Valley)的两个前冰川湖积盆地,即勒韦尔尼(Le Verney)和兰斯勒堡(Lanslebourg),它们记录了拉特冰期的沉积物沉积情况。对这些冰川湖积沉积物进行了沉积学和软质沉积物变形分析,以确定弧形冰川的动态。在勒维尼,沉积演替记录了超临界条件下的冰川下水扇沉积,过渡到吉尔伯特三角洲型沉积,表明冰川正在后退。在吉尔伯特三角洲型沉积物中发现的流体超压、剪切变形和压缩应力标志着随后的冰川推进。在兰斯勒堡盆地,沉积物呈现超临界和亚临界状态,被冰接触三角洲特有的水力跳跃沉积所分隔。在这一地区,沉积演替顶端的冰川推进条件更为接近冰川,并过渡到亚冰川条件。这些发现揭示了博林-阿勒罗德间冰期的冰川推进,首次提供了法国阿尔卑斯山北部在这一变暖时期冰川重新推进的证据。这一结果凸显了当地气候、冰川动力学和地形之间复杂的相互作用。
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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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