喀麦隆杜阿拉盆地东缘基底-沉积过渡带的大地电磁测深

Journal of African Earth Sciences (and the Middle East) Pub Date : 1993-11-01 DOI:10.1016/0899-5362(93)90006-C

E. Manguelle-Dicoum, R. Nouayou, A.S. Bokosah, T.E. Kwende-Mbanwi

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引用次数: 12

摘要

在喀麦隆南部杜阿拉盆地东缘一条变质基底-沉积过渡带的两条剖面上进行了大地电磁测深。两个剖面的测深曲线和拟剖面表明存在两个不同岩性的区块。此外，对AMT数据的解释表明，在大地线的两个方向上，在两个剖面上都有明显的电导率不连续。这种不连续标志着变质基底-沉积接触。在一个剖面上，一些监测站相互之间的相关性很好，但与其中一个监测站的相关性却不高，因为其中一个监测站呈现出单一的特征。在整个沉积剖面(5欧姆)有导电层存在的证据。厚度约100米的M -电阻率)及其深度的变异性可以帮助我们评价沉积矿床的倾角。对过渡带的仔细检查表明垂直构造运动有几百米。以假定的基底砂岩层底部为参考层位，估计沉积向斜倾角为5%;砂岩层顶部有3%的倾角;基底砂岩的厚度在500 ~ 850 m之间变化，计算出沉积矿床的总厚度约为1100 m。沉积剖面的高导电性要求在深部MT勘探工作所需的较低频率范围(10 - 2至10 Hz)进行进一步的测深。

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Audiomagnetotelluric soundings on the basement-sedimentary transition zone around the eastern margin of the Douala Basin in Cameroon

Audiomagnetotelluric (AMT) soundings were made on two profiles traversing a metamorphic basement-sedimentary transition zone on the eastern margin of the Douala basin in southern Cameroon.

The sounding curves and pseudosections of both profiles suggest the existence of two blocks of different lithologies.

Also the interpretation of the AMT data reveals a distinct electrical conductivity discontinuity on both profiles for each of the two orientations of the telluric line. This discontinuity marks the metamorphic basement-sedimentary contact.

On one profile, some stations correlate well with each other, but not with one of them which presents singular characteristics.

There is evidence of a conducting layer in the entire sedimentary section (5 Ohm.m resistivity) of thickness about 100 metres and the variability of its depth can help us to evaluate the dip of the sedimentary deposits.

A close examination of the transition zone suggests vertical tectonic movements of several hundred metres.

Using the base of the supposed basal sandstone layer as a reference horizon, we have estimated: the dip of the sedimentary syncline to be 5%; the top of sandstone layer to have a dip of 3%; the thickness of the basal sandstone to vary between 500 to 850 m and calculated the total thickness of the sedimentary deposits to be about 1100 m.

The high electrical conductivity in the sedimentary section demands further soundings in the lower frequency range (10⁻² to 10 Hz) required in deep MT exploration work.

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Journal of African Earth Sciences (and the Middle East)

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