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أ.د. سعد بن مقرن بن عبدالعزيز المقرن

أستاذ

عضو هيئة التدريس

كلية العلوم
كلية العلوم مبنى 4 الدور الارضي معمل الجاذبية المطلقة
المنشورات
مقال فى مجلة
2013

Evidence for an east–west regional gravity trend in northern Tunisia: Insight into the structural evolution of northern Tunisian Atlas

, Chokri Jallouli, Saad Mogren, Kevin Mickus, Mohamed Moncef Turki . 2013

Gravity analysis Crustal structure Plate boundary Convergent continental margin North Africa Tu

The Atlas orogeny in northern Algeria and Tunisia led to the destruction of Tethys oceanic lithosphere and

cumulated in a collision of microplates rifted off the European marginwith the North African continental margin.

The location of the boundary between African plate and Kabylian microplate is expressed in northern Algeria by a

crustal wedge with double vergence of thrust sheets, whereas in northern Tunisia the geologic environment is

more complex and the location of the plate boundary is ambiguous. In this study, we analyzed gravity data to

constrain the crustal structure along the northernmargin of Tunisia. The analysis includes a separation of regional

and residual gravity anomalies and the application of gradient operators to locate density contrast boundaries.

The horizontal gradient magnitude and directional gradient highlight a prominent regional E–Wgravity gradient

in the northern Tunisian Atlas interpreted as a deep fault (active since at least the Early Mesozoic) having a

variable kinematic activity depending on the tectonic regime in the region. The main E–W gravity gradient

separates two blocks having different gravitational and seismic responses. The southern block has numerous

gravity lineaments trending in different directions implying several density variations within the crust, whereas

the northern block shows a long-wavelength negative gravity anomaly with a few lineaments. Taking into

account the geologic context of theWestern Mediterranean region, we consider the E–W prominent feature as

the boundary between African plate and Kabylian microplate in northern Tunisia that rifted off Europe. This

hypothesis fits most previous geological and geophysical studies and has an important impact on the petroleum

and mineral resource prospection as these two blocks were separated by an ocean and they did not belong to the

same margin.

رقم المجلد
603
مجلة/صحيفة
Tectonophysics
الصفحات
149-160
مزيد من المنشورات
publications

The source model for evolution of the Harrat Al-Birk (HAB) is presented by constructing a 2D integrated crustal model using gravity anomalies and the rheological parameters computed from receiver…

بواسطة Saad Mogren, Basab Mukhopadhyay, Manoj Mukhopadhyay, Kasimahanti Durga Venkatesh, Elkhedr Ibrahim, Basem Al-Qadasi
2022
publications

A high-resolution gravimetric geoid model for the Kingdom of Saudi Arabia area was determined. A data set of 459,848 land gravity, 80,632 shipborne marine gravity data, DTU17 altimetry gravity…

بواسطة Ahmed Zaki, Saad Mogren
2022
publications

The Eastern flank of the Red sea represents an uplifted Precambrian basement that is known as the Arabian Shield.

بواسطة Chokri Jallouli, Ali K Abdelfattah, Mahmoud M El-Waheidi, Saleh Alqaysi, Saad Mogren, Hassan Alzahrani
2023