Cyclic tidalites and seismites at a submarine hydrothermal system for a 2450 Ma banded iron formation, Hamersley Basin, Western Australia

IF 1.2 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
G. Williams
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引用次数: 0

Abstract

Abstract The Hamersley Group in the Hamersley Basin, Western Australia, contains major deposits of banded iron formation of Neoarchean–Paleoproterozoic age (2629–2449 Ma). The 2450 Ma Weeli Wolli Formation near the top of the group includes banded iron formation with microbands (≤0.05–0.5 mm to rarely 1 mm thick) of chert and iron oxide lamina couplets that display distinctive cycles. Some adjacent, thin microbands have merged with compaction and the diagenetic removal of chert laminae, and maximum counts of cycle period by different studies is preferred, suggesting a period of ∼28 ± 2 microbands. Associated cyclic iron formation shows soft-sediment plastic deformation and brittle fracturing. Rare earth element geochemistry indicates that much of the iron in late Archean–early Paleoproterozoic banded iron formations was derived from submarine hydrothermal systems. Monitoring of hydrothermal vents on mid-ocean ridges and seamounts has identified tidal modulation of the discharge, temperature and dispersal of deep-sea hydrothermal plumes principally by semidiurnal variations in tidal loading and earth tides. Microearthquake swarms are associated with deep-sea hydrothermal systems at the crests of mid-ocean ridges, and tidal triggering of microearthquake activity is indicated for a hydrothermal system on the East Pacific Rise. The microband cycles in the Weeli Wolli Formation are interpreted as tidalites, comprising ∼28 ± 2 semidiurnal microbands per lunar (synodic) fortnightly cycle, related to the tidally modulated activity of a submarine hydrothermal system. The associated plastically deformed and brittle-fractured sediments are viewed as seismites resulting from microearthquakes also related to the hydrothermal system. The Weeli Wolli microband cycles and seismites may represent a rarely identified instance of iron-formation deposition near a submarine hydrothermal system. KEY POINTS Submarine hydrothermal venting was a major source of iron in late Archean–early Paleoproterozoic banded iron formations. Semidiurnal variations in tidal loading and earth tides commonly modulate present-day deep-sea hydrothermal activity, and microearthquake swarms are associated with deep-sea hydrothermal systems. Early Paleoproterozoic banded iron formation from the Hamersley Basin displays cycles with an estimated period of ∼28 ± 2 microbands and associated plastic deformation and brittle fracturing. The microband cycles are interpreted as tidalites comprising ∼28 ± 2 semidiurnal increments grouped in fortnightly cycles at a tidally modulated submarine hydrothermal system, and the deformed sediments as seismites caused by related microearthquake activity.
西澳大利亚哈默斯利盆地2450 Ma带状铁组海底热液系统中的旋回潮岩和震生岩
摘要澳大利亚西部哈默斯利盆地的哈默斯利群主要发育新太古代-古元古代(2629-2449 Ma)条带状铁矿床。靠近该组顶部的2450 Ma Weeli Wolli组包括带状铁地层,其微带(≤0.05-0.5 mm至罕见的1 mm厚)由燧石和氧化铁层联组成,显示出独特的旋回。一些相邻的薄微带与压实作用和燧石层的成岩作用相融合,不同研究的最大循环周期计数更可取,表明周期为~ 28±2个微带。伴生旋回铁地层表现为软沉积塑性变形和脆性压裂。稀土元素地球化学表明,太古宙晚期-古元古代早期带状铁地层中大部分铁来源于海底热液系统。对大洋中脊和海底山热液喷口的监测发现,潮汐对深海热液柱的排放、温度和扩散的调节主要是由潮汐负荷和潮汐的半日变化引起的。微震群与洋中脊顶部的深海热液系统有关,并表明东太平洋隆起的热液系统具有微震活动的潮汐触发作用。Weeli Wolli组的微带周期被解释为潮汐岩,每个月(synodic)两周周期包含~ 28±2个半日微带,与海底热液系统的潮汐调节活动有关。伴生的塑性变形和脆性断裂沉积物被认为是由微地震引起的震积岩,也与热液系统有关。Weeli Wolli微带旋回和震积岩可能代表了海底热液系统附近罕见的铁形成沉积实例。海底热液喷口是太古宙晚期-古元古代早期带状铁地层的主要铁源。潮汐负荷和潮汐的半日变化通常调节当今深海热液活动,微震群与深海热液系统有关。哈默斯利盆地早古元古代带状铁地层显示周期约为~ 28±2个微带的旋回,并伴有塑性变形和脆性压裂。在潮汐调节的海底热液系统中,微带旋回被解释为由~ 28±2个半日增量组成的潮汐岩,以两周为周期,而变形的沉积物被解释为由相关微地震活动引起的震积岩。
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来源期刊
Australian Journal of Earth Sciences
Australian Journal of Earth Sciences 地学-地球科学综合
CiteScore
2.80
自引率
8.30%
发文量
45
审稿时长
6-12 weeks
期刊介绍: Australian Journal of Earth Sciences publishes peer-reviewed research papers as well as significant review articles of general interest to geoscientists. The Journal covers the whole field of earth science including basin studies, regional geophysical studies and metallogeny. There is usually a thematic issue each year featuring a selection of papers on a particular area of earth science. Shorter papers are encouraged and are given priority in publication. Critical discussion of recently published papers is also encouraged.
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