CIESM Congress 2001, Monaco, article 0014

Rapp. Comm. int. Mer Médit., 36,2001

Introduction

The establishment of the geothermal degree map reveals, for all

region, a cardinal importance in measure that allows the spot of zones

which have a positive geothermics anomalies (high degree until the

average value is about 3°C/100m) (1, 2) and the other which have a

negative geothermics anomalies (degree less than 3°C/100m). The

knowledge of these zones constitutes a good guide for the petroleum

engineering by the following the organic matter maturation, and for

the hot water research.

Tectonic framework

At the surface, the eastern Tunisia is characterized by the ?at light

physiography and sebkhas. In subsurface, the structures of eastern

Tunisia had been detected by many seismic and gravity geophysical

studies (3, 4, 5). These authors highlight the deep structuring by reach-

ing the Triassic horizons affected specially by transfer faults oriented

N90-110 ; N130-140 and 160-170 injected by Mesozoic magmatic

rocks (6). The structure organisation associated to the fault corridors is

marked by (3) (Fig.1) :

- en echelon ?olded structures along E-W and N-S corridors.

- platform structures, located between the tectonic corridors

- grabens structures located in side some fault corridors

- triassic dome structures existing along the faults of the western

domain of the region.

Geothermal degree map

We note that the major area are characterized by a geothermal

degree average higher than 4°C . Only four zones show a lower

degrees with a negative anomaly :

- SW sector of the gulf of Gabes

- N-S Axis band laying out

- NW sector of Hammamet Gulf

- NE-SW bands of the tectonic corridors of Zeramdine-El Jem-

Kerkennah

For these zones, the hydrodynamism is the important factor of

reducing the geothermal degree (1), obviously, these zones correspond

of recharging zones from surface water, so cold, of deep acquifers. At

Jebéniana block, we measure in the side of the fault corridor of

Mahdia-Ksour Essaf geothermal degrees upper than 5°C/1000m (2).

This corridor is injected by Cretaceous basic rocks and constitutes a

drain of the underground heat.

Conclusions

We retain that the distribution of hydro-geothermal degrees on the

eastern margin of Tunisia is double in?uenced by the deep structuring

of transfer fault corridors, the magmatisms of sedimentary basins, and

by the hydrodynamism of aquifers across these basins. We remark a

relationship between the oil field sites of this margin and the distribu-

tion of the geothermal gradient. These results can help to guide

petroleum exploration and hot water research.

References

1- Ben Dhia H., 1987. The geothermal gradient map of Central Tunisia,

Comparison with structural, gravimetric and petroleum data.

Tectonophysics, v.142: 80-99.

2- Chulli Zenati B., 2000. Structuration, Hydrodynamisme et Géothermie

des niveaux réservoirs profonds (Crétacé-Miocène) de la Tunisie orien-

tale : Relation avec les accumulations d’hydrocarbures. Thèse de

Doctorat. Université de Tunis II., 236 p.

3- Bédir M., 1995. Mécanismes géodynamiques des bassins associés aux

couloirs de coulissements de la marge atlasique de la Tunisie Seismo-

stratigraphie, Seismo –tectonique et implications pétrolières. Thèse de

Doctorat Es-sciences. Université de Tunis II. 407 p.

4- Haller P., 1983. Structure profonde du Sahel Tunisien. Interprétation

géodynamique. Thèse de 3ème cycle. Université de Franche Comté 163p.

5-Touati M. A., 1985. Etude géologique et géophysique de la concession

Sidi El Itayem en Tunisie orientale, Sahel de Sfax. Histoire géologique

du bassin et évolution de la fracturation et structures de Crétacé au Plio-

Quaternaire. Thèse de 3ème cycle. Université Paris VI, 226 p.

6- Laaridhi Ouazaa, N., 1994. Etude minéralogique et géochimique des

épisodes magmatiques mésozoiques et miocène de la Tunisie. Thèse

Doct. Es-sciences géologiques. Université de Tunis II. 466 p.

SUBSURFACE HYDRO-GEOTHERMICS GRADIENT DISTRIBUTION ON THE NORTHEASTERN AFRICAN

MEDITERRANEAN MARGIN (TUNISIA)

Chulli Badiaa

*, Bedir Mourad

, Mejri Fathia

et Ben Dhia Hamed

Office national des mines, Charguia, Tunisia

INRST, Hammam Lif, Tunisia - Mourad.Bedir@inrst.rnrt.tn

Tunisian Entreprise of Petroleum Activities, Tunis,Tunisia

National School of Engineers of Sfax, Tunisia

Abstract

The geographical area which concerned by the geothermal map is comprised between the parallels 33° and 37° and the meridians 8° and

12°, it covers the entire Eastern Tunisia domain (on-shore and off-shore). The region corresponds the eastern margin of the Sahel and the

Pelagian sea that is characterized by many sebkhas and a wide plains where appear on the out crops Miocene, Pliocene and Quaternary

deposits. This margin is indeed structured according to deep strike-slip faults corridors, bounding a grabens basins and Mesozoic and

Cenozoic platforms blocks. The values of the geothermal degree map derive from treatment, according to an appropriate methodology,

data’s of temperature taken from oil well which cover the region.

Keywords : Geothermics. Tectonics. Hydrodynamism. Magmatism. Hydrocarbon.

Figure 1.Geothermic gradient map of Eastern Tunisia