湖泊相浊积岩的主要特征及其地质意义
CHARACTERISTICS OF LACUSTRINE TURBIDITES AND THEIR TECTONIC SIGNIFICANCE
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摘要: 引言1855年,Forel首先在瑞士康士坦司湖和日内瓦湖中发现由悬浮物引起的高密度流。1939年,Johnson引入浊流的概念,随后,在许多天然湖泊和人工水库中,都观察到了与高密度流有关的沉积现象。不仅混浊河流可以引起高密度流,滑坡作用也是重要的触发机制(Lawson 1919;Daly 1936;Grover and Howard 1938;Johnson1939;Bell 1947;Gould 1953,1960).但是,自从五十年代经过Kuenen等人(1950)的研究,将巨厚复理石的成因与深海浊流联系起来以来,湖泊浊流沉积作用反而被忽视了。Abstract: Turbidites are common in tectnically active lake basins. There are two kinds of turbidites, i. e. episodical and steady turbidites. Several examples are discussed in this paper based on the data from western Sichuan, China and Switzerland. Facts demonstrate that the recognition of the two is possible according to their sedimentary sequence, grain size distribution and their relations with the surrounding facies. The episodical turbidite might be triggered by catastrophic events, e. g. earthquake, volcanism and gravitational slumping. Owing to the small size of the basin in mountainous region,argillaceous breccia or brecciated mudstone occurs at the bottom of the sequence, indicating a slumping on great scale. The thickness of the breccia is rather variable. The content of the breccia is obviously related to the source rock nearby. The occurrence of the breccia is, therefore, a significant feature of the episodical turbidite of a lake basin. The breccia is found in the late Triassic Jiangzhou basin and in the lake Zurich where a catastrophic slumping took place 100 years ago and resulted in a turbidite sequence with argillaceous breccia at the bottom. The episodical lacustrine turbidites occur within the deep-water lacustrine muddy deposits as a result of catastrophic slumping and interrupt the normal facies sequence. The grain size distribution shows very typical characteristics on the log-probability plot coincident with the conclusion reached by Walker ( 1979 ) from the hydrodynamic analysis of the Bouma sequence. All the samples from the beds A and B of the Bouma sequence own a grain size distribution of suspended load, but the bed C is distinct with a traction component which is of log-normal distribution and appears as an independent population. The steady turbidites owe their origin to flood river. Although they have simi- lar profile structure except the lack of slumping-induced breccia, the position of the steady turbidite in the facies sequence is definite, usually they occur at the top part of a regradational sequence, indicating a largest flood stage, so that the existence of steady turbidite might indicate a climatic event prevailing in a wide area. The pattern of grain size distribution of the steady turbidite is basically the same as that of the episodical turbidite. But there are some deposited components in the bed A, which constitute an independent population with better sorting and reversed graded sequence. Lacustrine turbidites are typical members of the sequence of the incipient rift, and are of importance to understanding ancient rifts.
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(2)Forel F. A. 1885 Les ravines sous-lacustres des flew-es glaciarees .cad. Sci.Paris CT Rend nol .101 p.725-728
(3)Hejm A.1933 Bergsturz and Menschenleben Fretz and Wasmuth, Zurich
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(6)Kuenen and Migliorini 1950Turbidity Currents A Cause of Graded Bedding Jour.Gcol.vol.58 p.91-127.
(7)Middleton G.V.and Bouma A.H.(Ed.)1973 Turbidites and Deep Water Sedi-mentation Soc.Econ.Paleont.Mineral.Short Course Notes
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