Random and time-persistent depositional processes in turbidite successions: an example from the marine deep-water Aoshima Formation (Neogene, Kyushu Island, southwest Japan)

IF 2 4区 地球科学 Q1 GEOLOGY
Yoshiro Ishihara, Keisuke Kimata, Yuri Onishi
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Abstract

The deposits of flood- and earthquake-derived subaqueous sediment gravity flows represent a significant fraction of lacustrine and deep-sea sedimentary successions, thus providing a valuable record of such natural disasters. The magnitude of these events and the thickness of the associated deposits are considered to follow a lognormal or power-law frequency distribution, whilst that of time intervals between subsequent events appear to be best approximated by a Poisson model, indicative of a random, time-independent phenomenon. However, the debate on whether the sedimentary record of these natural disasters is governed by randomness alone or whether there is some underlying stratigraphic ordering is still unsettled and requires detailed time-series analysis. This study consists of a time-series analysis of mudstone- and sandstone-dominated turbidite successions offshore a fan-delta system in the Neogene Aoshima Formation that belongs to the sedimentary fill of the forearc basin of southwest Japan. The formation consists of a monotonous alternation of very fine- to medium-grained sandstones capped by hemipelagic mudstones and, more rarely, by turbidite mudstones. The results show that the autocorrelation function of the time series suggests quasi-periodic variability in the upper sandstone-dominated part, whereas the lower mudstone-dominated part shows a white-noise-like pattern. Rescaled range analysis shows that the number of events per unit time in the lower part is characterized by a random time series, such as Brownian noise with a Hurst exponent of 0.5. In contrast, the thickness of event beds of the lower part and the thickness and the number of events of the upper part are persistent time series with a Hurst exponent > 0.5. These results suggest that the number of turbidite depositional events in the mudstone-dominated part indicates random timing, whereas its thickness time series and the sandstone-dominant part are not governed by simple stochastic processes but are affected by sea-level changes, sediment transport dynamics, and other factors such as, for example, seafloor topography.
浊积岩演替中的随机和时间持续沉积过程:以海洋深水青岛地层(日本西南部九州岛新近纪)为例
洪水和地震引起的水下沉积重力流沉积物在湖泊和深海沉积演替中占很大比例,因此为此类自然灾害提供了宝贵的记录。这些事件的规模和相关沉积厚度被认为遵循对数正态分布或幂律频率分布,而后续事件之间的时间间隔似乎最接近泊松模型,表明这是一种随机的、与时间无关的现象。然而,关于这些自然灾害的沉积记录是仅受随机性支配,还是存在某种潜在的地层有序性的争论仍悬而未决,需要进行详细的时间序列分析。本研究包括对日本西南部弧前盆地沉积填充物新近纪青岛地层扇三角洲系统近海泥岩和砂岩为主的浊积岩演替的时间序列分析。该地层由细粒至中粒砂岩单调交替组成,上覆半沉积泥岩,更罕见的是浊积泥岩。结果表明,时间序列的自相关函数表明,上部以砂岩为主的部分存在准周期性变化,而下部以泥岩为主的部分则显示出类似白噪声的模式。重标度范围分析表明,下部每单位时间的事件数具有随机时间序列的特征,如赫斯特指数为 0.5 的布朗噪声。相反,下部的事件层厚度和上部的事件层厚度和事件数是持续性时间序列,赫斯特指数大于 0.5。这些结果表明,在泥岩为主的部分,浊积岩沉积事件的数量表明时间是随机的,而其厚度时间序列和砂岩为主的部分则不是由简单的随机过程控制的,而是受海平面变化、沉积物运移动力学以及海底地形等其他因素的影响。
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来源期刊
CiteScore
3.80
自引率
5.00%
发文量
50
审稿时长
3 months
期刊介绍: The journal is broad and international in scope and welcomes contributions that further the fundamental understanding of sedimentary processes, the origin of sedimentary deposits, the workings of sedimentary systems, and the records of earth history contained within sedimentary rocks.
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