Diana Chourio-Camacho, Jean-Louis Grimaud, Hélène Tissoux, Paul Bessin, Pierre Voinchet, Emmanuel Vartanian, Mark Noble, Pascal Bertran
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This surface is covered by MIS 7 tidal deposits and then by younger, mostly periglacial colluvium (head). Manoir Brésil is therefore considered to be a chronological equivalent of the nearby, well-studied Tourville-la-Rivière outcrop. The deposits are affected by post-MIS 7 cryoturbation processes. Based on the local elevation of MIS 7 tidal deposits and erosional surfaces at Manoir Brésil, a minimum bedrock uplift rate of 25–40 m/Ma and an erosion rate of 125 m/Ma during glacial periods can be proposed. A regional correlation of the MIS 8 erosional surface is increasingly deformed by uplift towards the North, making it difficult to correlate the fluvial deposits along the Seine without precise chronological control. We interpret this regional tilt as the result of isostasy rebound after glaciations, consistent with the distribution of the elevations of MIS 5e and MIS 7 marine deposits along the English Channel.</p>\n </div>","PeriodicalId":16929,"journal":{"name":"Journal of Quaternary Science","volume":"39 6","pages":"872-889"},"PeriodicalIF":1.9000,"publicationDate":"2024-06-24","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Incision and rock uplift along the Lower Seine River since Marine Isotope Stage 8\",\"authors\":\"Diana Chourio-Camacho, Jean-Louis Grimaud, Hélène Tissoux, Paul Bessin, Pierre Voinchet, Emmanuel Vartanian, Mark Noble, Pascal Bertran\",\"doi\":\"10.1002/jqs.3640\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div>\\n \\n <p>The study of alluvial terraces helps in reconstructing the past geometries of rivers and makes it possible to assess the rate and pattern of fluvial incision and bedrock uplift. The fluctuations of river base levels are particularly variable and complex during the Late Quaternary in the lower course of rivers due to the interplay of responses to sea-level fluctuations, tectonics and glacio-isostasy. In this paper, the geometry and chronology of Manoir Brésil, an outcrop of alluvial terraces of the Lower Seine River, northern France, are investigated through a multidisciplinary study. Fluvial incision during MIS 8 in the Lower Seine in relation to sea-level drop is recorded by an erosional surface cut into the chalk bedrock. This surface is covered by MIS 7 tidal deposits and then by younger, mostly periglacial colluvium (head). Manoir Brésil is therefore considered to be a chronological equivalent of the nearby, well-studied Tourville-la-Rivière outcrop. The deposits are affected by post-MIS 7 cryoturbation processes. Based on the local elevation of MIS 7 tidal deposits and erosional surfaces at Manoir Brésil, a minimum bedrock uplift rate of 25–40 m/Ma and an erosion rate of 125 m/Ma during glacial periods can be proposed. A regional correlation of the MIS 8 erosional surface is increasingly deformed by uplift towards the North, making it difficult to correlate the fluvial deposits along the Seine without precise chronological control. 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引用次数: 0
摘要
对冲积阶地的研究有助于重建河流过去的几何形态,并有可能评估河流侵蚀和基岩隆起的速度和模式。在第四纪晚期,由于海平面波动、构造作用和冰川异稳作用的相互作用,河流下游的河底水位波动尤为多变和复杂。本文通过多学科研究,对法国北部塞纳河下游冲积阶地露头 Manoir Brésil 的几何形状和年代学进行了调查。在白垩基岩上切割出的侵蚀表面记录了塞纳河下游 MIS 8 期间与海平面下降有关的冲积侵蚀。该表面被 MIS 7 潮汐沉积物覆盖,然后被较年轻的、主要是冰期冲积物(头部)覆盖。因此,Manoir Brésil 被认为在年代上等同于附近的 Tourville-la-Rivière 岩层。这些沉积物受到后 MIS 7 低温扰动过程的影响。根据 MIS 7 潮汐沉积和 Manoir Brésil 侵蚀面的局部海拔高度,可以推测冰川期的基岩隆起速率至少为 25-40 m/Ma,侵蚀速率为 125 m/Ma。MIS 8 侵蚀面的区域相关性由于向北隆起而日益变形,因此在没有精确年代控制的情况下,很难对塞纳河沿岸的河道沉积物进行相关性分析。我们将这种区域性倾斜解释为冰川期后等压反弹的结果,这与英吉利海峡沿岸 MIS 5e 和 MIS 7 海洋沉积物的高程分布一致。
Incision and rock uplift along the Lower Seine River since Marine Isotope Stage 8
The study of alluvial terraces helps in reconstructing the past geometries of rivers and makes it possible to assess the rate and pattern of fluvial incision and bedrock uplift. The fluctuations of river base levels are particularly variable and complex during the Late Quaternary in the lower course of rivers due to the interplay of responses to sea-level fluctuations, tectonics and glacio-isostasy. In this paper, the geometry and chronology of Manoir Brésil, an outcrop of alluvial terraces of the Lower Seine River, northern France, are investigated through a multidisciplinary study. Fluvial incision during MIS 8 in the Lower Seine in relation to sea-level drop is recorded by an erosional surface cut into the chalk bedrock. This surface is covered by MIS 7 tidal deposits and then by younger, mostly periglacial colluvium (head). Manoir Brésil is therefore considered to be a chronological equivalent of the nearby, well-studied Tourville-la-Rivière outcrop. The deposits are affected by post-MIS 7 cryoturbation processes. Based on the local elevation of MIS 7 tidal deposits and erosional surfaces at Manoir Brésil, a minimum bedrock uplift rate of 25–40 m/Ma and an erosion rate of 125 m/Ma during glacial periods can be proposed. A regional correlation of the MIS 8 erosional surface is increasingly deformed by uplift towards the North, making it difficult to correlate the fluvial deposits along the Seine without precise chronological control. We interpret this regional tilt as the result of isostasy rebound after glaciations, consistent with the distribution of the elevations of MIS 5e and MIS 7 marine deposits along the English Channel.
期刊介绍:
The Journal of Quaternary Science publishes original papers on any field of Quaternary research, and aims to promote a wider appreciation and deeper understanding of the earth''s history during the last 2.58 million years. Papers from a wide range of disciplines appear in JQS including, for example, Archaeology, Botany, Climatology, Geochemistry, Geochronology, Geology, Geomorphology, Geophysics, Glaciology, Limnology, Oceanography, Palaeoceanography, Palaeoclimatology, Palaeoecology, Palaeontology, Soil Science and Zoology. The journal particularly welcomes papers reporting the results of interdisciplinary or multidisciplinary research which are of wide international interest to Quaternary scientists. Short communications and correspondence relating to views and information contained in JQS may also be considered for publication.