地中海西部狮子湾海平面快速上升期间反复出现的流体喷射

IF 2.6 3区地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY

Bulletin de la Societe Geologique de France Pub Date : 2017-07-01 DOI:10.1051/BSGF/2017190

T. Cavailhes, D. Grauls, B. Marsset, T. Marsset

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引用次数: 8

摘要

基于2004-2005年在Lion湾获得的高分辨率三维地震块，我们研究了地中海西北部由陆架到深盆地的浊流和重力流形成的埃罗峡谷和布尔卡特峡谷之间的夹层顶部的流体管道和凹痕。将潜在流体管道的几何形状与周围沉积物的诱导变形相结合，可以区分潜在流体来源(根源与源)，并更好地估计触发机制(异源与自源原因)。我们将一组派生属性(如Chaos和RMS振幅)链接到流体可能沿其迁移的管道的3D描述中。如前所述，在其他盆地中，由于流体管道在近地表松散沉积物中传播，可能会产生诱发变形，形成锥中锥或v形结构。锥形结构顶部的水平是历时的。这意味着这个表面的地层水平在迁移结束时发生了变形。它们坍塌形成凹痕。这些管道是反复循环的流体排出的结果，可能与海平面的快速上升有关，而不是与沉积物的负荷有关。最近的事件(MIS 2.2阶段)在现代海底形成了一个凹痕。它已被用作计算海平面快速上升对流体排出的影响的参考。由于所有物理和几何参数都受到限制，我们能够确定，海平面上升+ 34米可能是自末次冰期以来海底以下9米处非常浅的粉砂质层中流体排出的原因。这一数值与此期间海平面上升约102米相一致。研究表明，在海平面上升过程中，流体释放的偶然性是由于高压状态和主地应力之间的相互作用造成的。

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Repeated fluid expulsions during events of rapid sea-level rise in the Gulf of Lion, western Mediterranean Sea

Based on a High-Resolution 3D seismic block acquired in the Gulf of Lion in 2004–2005 we investigated fluid pipes and pockmarks on the top of the interfluve between the Herault canyon and the Bourcart canyon both created by turbidity currents and gravity flows from the shelf to the deep basin in the north-western Mediterranean Sea. Combining the geometry of the potential fluid pipes with the induced deformation of surrounding sediments leads then to the ability to differentiate between potential fluid sources (root vs source) and to better estimate the triggering mechanisms (allochtonous vs. autochtonous cause). We linked together a set of derived attributes, such as Chaos and RMS amplitude, to a 3D description of pipes along which fluids may migrate. As previously shown in other basins, the induced deformation, creating cone in cone or V-shaped structures, may develop in response to the fluid pipe propagation in unconsolidated sediments in the near surface. The level at the top of a cone structure is diachronous. It means that stratigraphic levels over this surface are deformed at the end of the migration. They collapse forming a depression called a pockmark. These pipes are the result of repeated cycles of fluid expulsion that might be correlated with rapid sea-level rise instead of sediment loading. The most recent event (MIS 2.2 stage) has led to the formation of a pockmark on the modern seafloor. It has been used as a reference for calculating the effect of a rapid sea-level rise on fluid expulsion. As all physical and geometrical parameters are constrained, we were able to define that a + 34 m of sea level rise may account for triggering fluid expulsion from a very shallow silty-sandy layer at 9 m below seafloor since the last glacial stage. This value is consistent with a sea level rise of about 102 m during this period. This study shows that the episodic nature of fluid release resulted from hydromechanical processes during sea-level rise due to the interactivity between high pressure regimes and principal in situ stresses.

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来源期刊

Bulletin de la Societe Geologique de France 地学-地球科学综合

CiteScore

5.80

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： BSGF - Earth Sciences Bulletin publie plusieurs types de contributions : 1. des articles originaux, couvrant tous les champs disciplinaires des Géosciences, à vocation fondamentale mais également à vocation plus appliquée (risques, ressources); 2. des articles de synthèse, faisant le point sur les avancées dans un domaine spécifique des Géosciences, qu''elles soient méthodologiques ou régionales ; 3. des monographies sur la géologie d’une région donnée, assorties d’informations supplémentaires, cartes, coupes, logs, profils sismiques … publiées en ligne en annexe de l’article ; 4. des articles courts de type « express letter » ; 5. des livrets-guides d’excursion (qui suivront le même processus d’examen éditorial que les articles plus classiques) ; 6. des comptes rendus de campagnes à la mer ; 7. des articles de données géodésiques, géophysiques ou géochimiques, pouvant devenir des articles de référence pouvant conduire à des interprétations ultérieures. BSGF - Earth Sciences Bulletin constitue également un forum pour les discussions entre spécialistes des Sciences de la Terre, de type comment-reply ou autre. Tous les articles publiés, quelle que soit leur forme, seront accessibles sans frais (articles en Open Access) sur le site de la SGF et sur celui de Geosciences World dans la mesure où les auteurs se seront acquittés d’une contribution de (Article Processing Charges – APC) de 300€ pour les membres de la SGF et 500€ pour les non-membres.