Soft‐sediment deformation structures and Neptunian dykes across a carbonate system: Evidence for an earthquake‐related origin (Norian, Dolomia Principale, Southern Alps, Italy)

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-11-09 DOI:10.1111/sed.13154
Fabrizio Berra
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Abstract

ABSTRACT Identification of the processes producing soft‐sediment deformation structures, common in siliciclastic deposits and less abundant in carbonate successions, is complex, because different processes may produce similar structures. Thus, interpreting the origin of these structures may be challenging: it requires both a detailed sedimentological study and the knowledge of the depositional environment and stratigraphic evolution, in order to provide hints to identify the processes affecting sediments after deposition. Among the potential causes of the formation of soft‐sediment deformation structures, seismic shock is one of the possibilities, but their origin could be also related to other triggering mechanisms, such as volcanic activity, sediment loading, salt tectonics, fluid expulsion, meteorite impacts and mass movements. Although it is a plausible option, the interpretation of these structures as ‘seismites’ is not obvious: it must be supported by different lines of evidence, considering that the correct interpretation of soft‐sediment deformation structures as a consequence of seismic shocks acquires important implications in palaeoseismology studies. The occurrence of diverse soft‐sediment deformation structures in a fault‐controlled basin (i.e. in a geological setting characterized by syndepositional tectonics) preserved in different subenvironments of a Norian carbonate system in the Southern Alps of Italy provides the chance to characterize different types of soft‐sediment deformation structures along a platform‐to‐basin depositional profile. Presence of pseudonodules in basinal resedimented limestone, sedimentary dykes and clinostratified breccias with unlithified clasts in slope settings and liquefaction of inner platform facies at the platform top testify to an origin compatible with multiple seismic shocks, repetitively affecting the same stratigraphic intervals. The diverse types of soft‐sediment deformation structures in the studied carbonate system provide a rich catalogue of structures related to seismic shocks, representing a possible reference for other similar settings.
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碳酸盐岩体系中的软沉积变形结构和海王星堤防:地震成因的证据(意大利南阿尔卑斯山Dolomia Principale, Norian)
软沉积变形构造在硅质沉积层中很常见,但在碳酸盐层序中较少出现。由于不同的过程可能产生相似的构造,因此确定软沉积变形构造的过程是复杂的。因此,解释这些构造的起源可能具有挑战性:它既需要详细的沉积学研究,也需要对沉积环境和地层演化的了解,以便为确定沉积后影响沉积物的过程提供线索。在软沉积物变形构造形成的潜在原因中,地震冲击是一种可能性,但它们的起源也可能与其他触发机制有关,如火山活动、沉积物负荷、盐构造、流体排出、陨石撞击和块体运动。虽然这是一个合理的选择,但将这些结构解释为“震生岩”并不明显:它必须得到不同证据的支持,因为考虑到地震冲击导致的软沉积物变形结构的正确解释在古地震学研究中具有重要意义。在意大利南阿尔卑斯山诺里亚碳酸盐岩体系的不同亚环境中,断层控制的盆地(即以同沉积构造为特征的地质环境)中出现了多种软沉积变形构造,这为沿地盆沉积剖面表征不同类型的软沉积变形构造提供了机会。盆地再沉积灰岩中的假结核、斜坡环境中沉积岩脉和斜层角砾岩中未岩化碎屑的存在,以及台地顶部内台地相的液化,证明了一个与多次地震冲击相容的起源,这些地震冲击反复影响同一层序。研究的碳酸盐岩体系中不同类型的软沉积变形构造提供了丰富的与地震冲击相关的构造目录,为其他类似环境提供了可能的参考。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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