Ethiopia Mountain

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Ethiopia and its Geology

3 Comments · Topography

The basement upon which all younger formations were deposited contains the oldest rocks in the country, the Precambrian, with ages of over 600 million years.

They are exposed in areas where the younger cover rocks have been eroded away; namely, in parts of Harerge, Sidamo, Bale, Ilubabor, Gojam, Welega, Gonder, and Tigray Administrative Regions.

The Precambrian contains a wide variety of sedimentary, volcanic and intrusive rocks which have been metamorphosed to varying degrees.

The basement in the south and west of the country, where granitic rocks and gneisses predominate, has been more strongly metamorphosed than Preecambrian sequences in the north.

Though in many cases strongly folded and foliated, the rocks in the north, which include the youngest formations yet known in the Precambrina, have generally undergone only weak metamorphism, reflecting the relatively low temperatures to which they have been subjected since their deposition.

The Precambrian or basement rocks contain most of the presently known metallic deposits of Ethiopia. In particular, the gold deposits of the northern, western and southern regions all occur in these rocks, where they are associated with fractured quartz reefs or sulphides.

Under favourable conditions, these deposits have given rise to major placer deposits along river beds, as in the Kibre Mengist (Adola) area.

Copper, zinc and lead sulphides have been found in the weakly metamorphosed volcanic facies (greenschists) of these old rocks. Similarly occurrences of potentially exploitable talc and nickel deposits are associated with ultrabasic bodies, and it is in a layered body of this type that platinum mineralisation occurs at Yubdo in Welega Administrative Region.

There are considerable possibilities of finding other economically exploitable deposits of these minerals in the Precambrian series, while major intrusions and dykes contain good potential for other minerals.

Most of these Precambrian rocks are relatively impermeable, and have been subjected to several orogenic episodes since their formation.

These processes, combined with the rifting associated with the development of the Red Sea and the East African-Ethiopian Rift Valley, have resulted in considerable fracturing and shattering. Major water resources are associated with these fracture zones.

At the end of Precambrian times uplift occurred; this being followed by a long period of erosion. Any sediments which were deposited during Palaeozoic interval, which lasted some 375 million years, have been largely removed by erosion.

Some, shales and deposits of glacial origin, were laid down in northern Ethiopia during this period.

Subsidence occurred in the Mesozoic which began some 225 million years ago, and a shallow sea spread initially over the Ogaden and then extended further north and west as the land continued to subside.

New sandstone was deposited on the old land surface. Deposition of mudstone and limestone followed as the depth of water increased. The subdivision of the Mesozoic sequence and younger sediments on the map into approximate age categories is largely based on palaeontological evidence.

In the west of the country, sedimentation ended with the deposition of clay, silt, sand, and conglomerate brought in from the land as the sea receded due to uplift of the land mass. In the southeast, gypsum and anhydrite were precipitated on inter-tidal flats.

In the Ogaden there was a fresh invasion of the sea in late Mesozoic times during which the sequence of sedimentation was repeated, ending again with the precipitation of gypsum and anhydrite.

The same cycle of sedimentation was reported yet again in the Ogaden during the Teritary period. It ended with the deposition of conglomerates.

Mesozoic rocks are considered to have the greatest potential for oil and gas deposits. The presence of such deposits is dependent on the original existence of organic materials mostly of marine origin in sediments which were buried to form the so-called source beds.

In these beds, which may now be represented by shales or stromatoloid reef limestones, the organic material was altered by the pressure of the overlaying sediments and a build-up of heat into oil and gas which migrated into nearby permeable (reservoir) rocks.

The Mesozoic of southern Ethiopia contains few favourable structures for oil, beign only weakly folded; nevertheless, there remains a reasonable possibility of the occurrence of stratigraphic traps.

Outcrops of the Mesozoic in the north and west are considered as less favourable, due to the possible terrestrial nature of the rocks in the north and the probable thinness of the rocks in the west.

The mp emphasizes the necessity for additional studies in these areas.
Metallic minerals have not be discovered to date in the Mesozoic rocks but the occurrences of limestones and saline deposits shown on the map point to the need to prospect these formations further for lead, zinc and silver ores.

Rocks of this age also represent major reserves of glass sands, cement limestones and other industrial minerals.

Extensive fracturing occurred in the early Cenozoic (this interval started 65 million years ago), although major displacement along the fault systems of the Red Sea, Gulf of Aden and East African Rifts did not occur until later in the Teritary.

Faulting was accompanied by widespread volcanic activity which led to the formation of vast quantities of basalt lava over the western half of the country.

This was accompanied by, and alternated with, the eruption of large amounts of ash and coarser fragmental material, forming the Trap Series. Several shield volcanoes, also consisting of alkali basalts and fragmental material, then developed around the eastern edge of the Lake Tana depression and southwest of Goba.

More recent volcanism is associated with the development of the Rift Valley, activity being concentrated within this structure and along the edges of the adjoining plateaux.
Volcanism has persisted to the present in the Afar region conglomerate, sand, clay, and reef limestone which accumulated in the Afar Depression and at the northern which accumulated in the Afar Depression and at the northern and of the main Rift Valley.

Sediments which accumulated in former lakes occur at the south end of the Afar, in the main Rift Valley and in the Omo valley. Undifferentiated Quaternary sediments and superficial deposits occur intermittently along the Sudanese and Kenyan borders.

Oil and gas deposits may be present in some of the Teritary deposits but in general the rocks of Cenozoic age in Ethiopia are of potential economic importance because of their extremely large salt deposits.

These include not only the common rock salt traditionally worked in the Afar region but also deposits of potassium and magnesium salts.

Furthermore, the geothermal activity associated with the many Cenozoic deposits has given rise to metallic mineral occurrences-copper and manganese in particular, concentrated as a result of leaching of the rocks by saline solutions.

Iron ores, and possibly even aluminium ores (bauxite), developed on the volcanics as a result of intense weathering and may prove to be of economic interest
The underground water resources of the Cenozoic are of great importance.

The often lenticular nature of the beds necessitates detailed investigation but, given suitable recharge areas, the deposits can be considered as highly favourable for water exploitation.

(Source: National Atlas of Ethiopia)

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3 Comments so far ↓

  • Robel

    This is an encouraging job. I’m currently a campus student. Inorder to perform our project we need some info. over the internet. But mostly there couldn’t be found one about the contents needed implying Ethiopia. This site was a great help in identifying the geology of Ethiopia. Plz keep up the good work.

  • hamid sadeghipour

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  • hamid sadeghipour

    please, see my site on the earthquake causes.
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