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豫西焦作地区上石炭统浅海碳酸盐岩中的风暴沉积
引用本文:吴贤涛,胡斌,王观忠,张国成.豫西焦作地区上石炭统浅海碳酸盐岩中的风暴沉积[J].沉积学报,1987,5(4):1-13.
作者姓名:吴贤涛  胡斌  王观忠  张国成
作者单位:焦作矿业学院痕迹学中心研究室
摘    要:焦作太原组灰岩存在至少四种类型的风暴沉积。类型A由下亚段正粒序分壳滞积层和上亚段生物扰动层组成,形成于风暴浪基面附近或之下;类型B由正粒序介壳滞积层、纹理层和痕迹层组成,形成于正常天气浪基面与风暴浪基面之间的下部环境;类型C由下亚段正粒序介壳滞积层和上亚段含少量痕迹化石的粒泥状灰岩组成,类型D仅由下部介壳滞积层和上部粒泥状灰岩组成,偶见痕迹化石,故类型C和D分别形成于正常天气浪基面之下和附近。

关 键 词:风暴沉积    生物扰动    痕迹化石    太原组    基底滞积层
收稿时间:1985-11-30

STORM DEPOSITS IN UPPER CARBONIFEROUS SHALLOW MARINE CARBONATES OF JIAOZUO,HENAN
Institution:Laboratory of Ichnology, Palaeontology and Palaeoenvironments, Jiaozuo Mining College
Abstract:Storm deposits or tempestites have been recognized in Upper Carboniferious Series(Taiyuan Formation) shallow marine carbonate rocks around Jiaozuo Mines, Western Henan, in which the thickness of individual beds is generally 10-30cm, occasionally up to 50cm, and it shows a characteristic sedimentary sequence. From bottom to top they are:( 1 ) Erosional basement, which was truncated or undulated at the underlying sediments by storm induced wave and current, may show irregular variations. The wave length of the undulatory sole is about 16-40cm with 2-9cm in amplitude. In a few cases, some gutter casts-like structures would be found in the sole.( 2 ) Basal lag with normal grading limestone. The lag deposites are mainly composed of Brachiopoda, Anthozoa and Crinoidea debris with a few of whole Fusulinida, Anthozoa, Articulata, Crinoidea, Ostracoda, Estheria, Bryozoa body fossils and algae as well.( 3 ) Middle laminated unit. One or two of the sedimentary structures such as parallel lamination, wave ripple cross-lamination or hummocky cross-bedding may be recorded in the sections but varied in different depositional types. In addition, some vertical traces which are similar to escape structures may also occur within the laminated unit.( 4 ) Wackestone or Mudstone with trace fossils usually constitute the top unit of a whole storm bed. Zoophycos is the typical trace in these units and can be clearly distinguished as Z. simple form, Z. pelleted form and Z. fat form. They commonly associated with . The bioturbated bed may be subdivided into four grades depending on the bioturbation:(a) sporadic bioturbation, it only contains a few numbers of trace fossils and isolated unrecognized traces;(b) weakly bioturbated, i. e. the distinguishable and unrecognized traces are more than that of(a) in quantity;(c) medium bioturbated, in which the distinguishable traces are abundant with parts of mottled structures:(d) strongly bioturbated, chiefly consists of mottled structures which are good indicators of animal intensive activties. Apart from trace fossils, the top unit usually contains numerous body fossils such as Quasifusulina, Schwagerina, Pseudoschwagerina, Caninia, Lophophyllum, Syringopora, Dictyoclostus Choristitcs, Chonetes, Phricodothysis, Stenoscima, Magini-fera and Eomaginifera,etc. In terms of the sequence features, sedimentary and biogenic structures, four storm-generated depositional types in the limestone from Taiyuan Formation of Jiaozuo Mines are described as follows: Type A generally consists of basement lag and graded limestone in its lower subunit and the thickness is usually 2-6cm, the upper subunit is mainly wackestone(about 22cm thick) and associated with intensive bioturbation(commonly 6cm thick). The depositional water depth of this type was probably near storm wave base. Type B is composed of lower subunit recorded by basement lag and graded limestone with about 3-8cm thick, and the middle subunit(2-25cm thick) shows well developed hummocky cross-bedding or parallel laminations and the upper subunit(about 12cm thick) characterized by wackestone or mudstone and medium bioturbation as well as abundant Zoophycos. They are presumably deposited in an area near the middle-lower part between tair weather wave base and storm wave base. Type C has lower subunit(about 5cm thick) of basement lag and normal graded limestone and has upper subunit of wackestone, in which they are both lack of the laminated and bioturbated zone and it indicats that the deposited water depth was progressively shallowing and might be accumulated in the middle-upper position between fair wave base and storm wave base. Finally, type D(about 25cm thick) only includes lower normal graded coquinoid lage and upper wackestone. The trace fossils are rare or even absent, reflecting the water-depth got shallowed further, probably near the fair weather wave base in where the traces of living animal might be easily destroyed by wave or current at this environmental setting.
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