摩洛哥北部热流密度测量

Journal of African Earth Sciences (1983) Pub Date : 1987-01-01 DOI:10.1016/0899-5362(87)90041-8

A. Rimi, F. Lucazeau

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引用次数: 33

摘要

利用两组数据估算摩洛哥热流密度:平衡条件下浅层钻孔(100-500 m) 36次，石油勘探钻孔(1000-5000 m) 44次。这两组数据具有明显的一致性，并用于确定摩洛哥北部热流的总体特征。位于西非克拉通边界的反阿特拉斯受低热流(40±5 m Wm−2)影响，接近于该克拉通的平均值(37±8 m Wm−2);Mesetas由古生代和中生代基底形成，其特征是“正常”热流密度(约60 m Wm−2);摩洛哥东北部(东部裂谷、中部阿特拉斯和霍斯特链)受较高的热流密度影响，范围在80 m Wm−2至110 m Wm−2之间。认为该异常与近代第四纪火山活动有直接联系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Heat flow density measurements in northern Morocco

Two sets of data are used to estimate heat flow density in Morocco: 36 determinations were made in shallow boreholes (100–500 m) in equilibrium conditions and 44 determinations in oil exploration boreholes (1000–5000 m).

These two sets of data are apparently consistent and are used to define the gross feature of heat flow in northern Morocco: Anti-Atlas, located at the West African craton boundary, is affected by a low heat flow (40 ± 5 m Wm⁻²) close to the average value obtained in this craton (37 ±8 m Wm⁻²); Mesetas, formed by a paleozoic and mesozoic basement, are characterized by a “normal” heat flow density (around 60 m Wm⁻²); northeastern part of Morocco (Eastern Rif, Middle Atlas and Horst chain) is affected by a higher heat flow density ranging from 80 m Wm⁻² to 110 m Wm⁻². It is suggested that this anomaly is directly connected with the recent quaternary volcanic activity.

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