The Use of Soft-Sediment Deformation Structures As Proxies For Paleoseismic Activity And Shaking: A Review

Zhong, Ning; Jiang, Hanchao; Li, Haibing; Dechen, Su; Xu, Hongyan; Liang, Lifeng; Fan, Jiawei

doi:10.21203/rs.3.rs-671827/v1

Cited by 2 publications

(1 citation statement)

References 97 publications

(166 reference statements)

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“…3C). The observed overlying whitish micritic dolostones on the light gray thrombolitic (coarser) dolostones are a driving force system related to a gravitational instability (Zhong, et al, 2017). The uniqueness seems that the less dense sediments sank into the underlying denser-grained sediments.…”

Section: Load Structuresmentioning

confidence: 94%

Soft-sediment deformation structures or microbially induced sedimentary structures: the description and possible origin of the "loopites" in the Mesoproterozoic Wumishan Formation, North China

Lu,

Bao,

2024

Carbonates Evaporites

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Within the lower Wumishan Formation at the eastern edge of the Tai-hang Mountains in North China, a ~ 10 m stratigraphic interval contains of alternately "bright and dark" laminites, with enigmatic, crosssectional preserved loop structures (2.5 ~ 27.5 cm in length and 0.6 ~ 12 cm in height), named as "loopites" by this study. Based on the different morphologies and formations, the loopites, composed of the cores and annulate laminations, can be divided into three different types which are type , and . Despite the loopites are similar to the loop beddings of soft-sediment deformation structures, we suggest that they are previously undescribed microbial mat structures (MMS). The formation of type is interpreted as the initial microbial mat, grows on the micro-highland of carbonate deposits, are wrapped by the subsequent microbial mats. The core is the initial microbial mat, but the micro-highland, which are formed by increased carbonate sedimentation rate, are not wrapped together. In contrast, the formation of type and is interpreted that the micro-highlands, which also can be treated as the cores and may be formed by the thrombolites, rock debris and the fragments of microbial mats lie on the at microbial mats, are wrapped by the top-covered and underlaid microbial mats. In consequence, differing from the earthquake-induced loop beddings, the formation of loopites is due to the growth, wrapping and deposition of the microbial mats. Furthermore, the discovery and the possible formation of the loopites may provide a new type of MMS and indicate a stable, anoxic and carbonate supersaturated environment with a relatively weak hydrodynamics for microbial mats to form the annulate structures which is controlled by illumination, microtopography and hydrodynamics.

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Section: Load Structuresmentioning

confidence: 94%

Soft-sediment deformation structures or microbially induced sedimentary structures: the description and possible origin of the "loopites" in the Mesoproterozoic Wumishan Formation, North China

Lu,

Bao,

2024

Carbonates Evaporites

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show abstract

Soft-sediment deformation structures or microbial mat structures: The description and possible origin of the “loopites” in the Mesoproterozoic Wumishan Formation, North China

Kai

Bao

Jin

2023

Preprint

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Within the lower Wumishan Formation at the eastern edge of the Tai-hang Mountains in North China, a ~ 10 m stratigraphic interval contains of alternately “bright and dark” laminites, with enigmatic, cross-sectional preserved loop structures (2.5 ~ 27.5 cm in length and 0.6 ~ 12 cm in height), named as “loopites” by this study. Based on the different morphologies and formations, the loopites, composed of the cores and annulate laminations, can be divided into three different types which are type Ⅰ, Ⅱ and Ⅲ. Despite the loopites are similar to the loop beddings of soft-sediment deformation structures, we suggest that they are previously undescribed microbial mat structures (MMS). The formation of type Ⅰ is interpreted as the initial microbial mat, grows on the micro-highland of carbonate deposits, are wrapped by the subsequent microbial mats. The core is the initial microbial mat, but the micro-highland, which are formed by increased carbonate sedimentation rate, are not wrapped together. In contrast, the formation of type Ⅱ and Ⅲ is interpreted that the micro-highlands, which also can be treated as the cores and may be formed by the thrombolites, rock debris and the fragments of microbial mats lie on the flat microbial mats, are wrapped by the top-covered and underlaid microbial mats. In consequence, differing from the earthquake-induced loop beddings, the formation of loopites is due to the growth, wrapping and deposition of the microbial mats. Furthermore, the discovery and the possible formation of the loopites may provide a new type of MMS and indicate a stable, anoxic and carbonate supersaturated environment with a relatively weak hydrodynamics for microbial mats to form the annulate structures which is controlled by illumination, microtopography and hydrodynamics.

show abstract

The Use of Soft-Sediment Deformation Structures As Proxies For Paleoseismic Activity And Shaking: A Review

Cited by 2 publications

References 97 publications

Soft-sediment deformation structures or microbially induced sedimentary structures: the description and possible origin of the "loopites" in the Mesoproterozoic Wumishan Formation, North China

Soft-sediment deformation structures or microbially induced sedimentary structures: the description and possible origin of the "loopites" in the Mesoproterozoic Wumishan Formation, North China

Soft-sediment deformation structures or microbial mat structures: The description and possible origin of the “loopites” in the Mesoproterozoic Wumishan Formation, North China

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