This page has been proofread, but needs to be validated.
324
AFRICA
[GEOLOGY

times, and against which earth waves of several geological periods have broken.

The formations older than the mesozoic are remarkably unfossiliferous, so that the determination of their age is frequently a matter of speculation, and in the following table the European equivalents of the pre-Karroo formations in many regions must be regarded as subject to considerable revision.

Rocks of Archean age cover wide areas in the interior, in West and East Africa and across the Sahara. Along the coastal margins they underlie the newer formations and appear in the deep valleys and kloofs wherever denudation has laid them bare. The prevailing types are granites, gneisses and schists. In the central regions the predominant strike of the foliae is north and south. The rocks, for convenience classed as pre-Cambrian, occur as several unconformable groups, chiefly developed in the south where alone their stratigraphy has been determined. They are unfossiliferous, and in the absence of undoubted Cambrian, Ordovician and Silurian strata in Africa they may be regarded as of older date than any of these formations. The general occurrence of jasper-bearing rocks is of interest, as these are always present in the ancient pressure-altered sedimentary formations of America and Europe. Some unfossiliferous conglomerates, sandstones and dolomites in South Africa and on the west coast are considered to belong to the Cambrian, Ordovician and Silurian formations, but merely from their occurrence beneath strata yielding Devonian fossils. In Cape Colony the Silurian age of the Table Mountain Sandstone is based on such evidence.

The Devonian and Carboniferous formations are well represented in the north and south and in northern Angola.

Up to the close of the palaeozoic period the relative positions of the ancient land masses and oceans remain unsolved; but the absence of marine strata of early palaeozoic age from Central Africa points to there being land in this direction. In late Carboniferous times Africa and India were undoubtedly united to form a large continent, called by Suess Gondwana Land. In each country the same succession of the rocks is met with; over both the same specialized orders of reptiles roamed and were entombed.

The interior of the African portion of Gondwana Land was occupied by several large lakes in which an immense thickness—amounting to over 18,000 ft. in South Africa—of sandstones and marls, forming the Karroo system, was laid down. This is par excellence the African formation, and covers immense areas in South Africa and the Congo basin, with detached portions in East Africa. During the whole of the time—Carboniferous to Rhaetic—that this great accumulation of freshwater beds was taking place, the interior of the continent must have been undergoing depression. The commencement of the period was marked by one of the most wonderful episodes in the geological history of Africa. Preserved in the formation known as the Dwyka Conglomerate, are evidences that at this time the greater portion of South Africa was undergoing extreme glaciation, while the same conditions appear to have prevailed in India and Australia. At the close of the Karroo period there was a remarkable manifestation of volcanic activity which again has its parallel in the Deccan traps of India.

Table of Formations
Sedimentary.  

Igneous.

Recent. Alluvium; travertine; coral;
 sand dunes; continental
 dunes. Generally distributed.
  Some volcanic islands;
 rift-valley volcanoes.
Pleistocene. Ancient alluviums and
 gravels; travertine.
 Generally distributed.
A long-continued
 succession in the
 central and northern
 regions and among
 the island groups.
 Doubtfully represented
 south of the Zambezi.
Pliocene. N. Africa; Madagascar.
Miocene. N. Africa.
Oligocene. N. Africa.
Eocene. N. Africa, along east and
 west coasts; Madagascar.
Cretaceous. Extensively developed in
 N. Africa; along coast
 and foot-plateaus in east
 and west; Madagascar.
Diamond pipes of S.
 Africa; Kaptian
 fissure eruptions;
 Ashangi traps of
 Abyssinia.
Jurassic. N. Africa; E. Africa;
 Madagascar; Stormberg
 period (Rhaeric) in S.
 Africa
Chief volcanic period
 in S. Africa.
Trias. Beaufort Series in S.
 Africa; Congo basin;
 Central Africa; Algeria;
 Tunis.

Feebly, if anywhere
 developed.
Permian. Ecca Series in S. Africa.
Carboniferous. N. Africa; Sabaki Shales
 in E. Africa; Dwyka
 and Wittebery Series in
 S. Africa.
Devonian. N. Africa; Angola; Bokkeveld
 Series in S. Africa.
  Not recorded.
Silurian.

Ordovician.

Cambrian.
Table Mountain Sandstone
 in S. Africa, Silurian(?)
 Doubtfully represented
 in N. Africa, French
 Congo, Angola, and by
 Vaal River and Waterberg
 Series in S. Africa.
Klipriversberg and
 Ventersdorp Series
 of the Transvaal (?).
Pre-Cambrian. Quartzites, conglomerates
 phyllites, jasper-bearing
 rocks and schists.
 Generally distributed.
S. Africa and
 generally.
Archeaan. Gneisses and schists of the
 continental platform.
Igneous complex of
 sheared igneous
 rocks;granites.

How far the Karroo formation extended beyond its present confines has not been determined. To the east it reached India. In the south all that can be said is that it extended to the south of Worcester in Cape Colony. The Crystal Mountains of Angola may represent its western boundary; while the absence of mesozoic strata beneath the Cretaceous rocks of the mid-Sahara indicates that the system of Karroo lakeland had here reached its most northerly extension. Towards the close of the Karroo period, possibly about the middle, the southern rim of the great central depression became ridged up to form the folded regions of the Zwaarteberg, Cedarberg and Langeberg mountains in Cape Colony. This folded belt gives Africa its abrupt southern