North of the Alps, four crustal "levels" of surface and underground rocks in Germany are traditionally distinguished by age and structural characteristics (from deep to shallow): the basement, the transition level, the Mesozoic
platform and the Cenozoic platform. The latter three are also summarised under the generic term "platform", in contrast to the basement.
Basement slates near Züschen in the
Rothaar Mountains (Rhenish Massif)
granite pluton on
Wurmberg in the
Upper Harz Mountains, parts of which are of
early Permian (
Asselian) age, one of the youngest rock bodies of the Variscan basement The basement (
German: ) consists of folded rocks, some of which are
metamorphic rocks, mostly of marine-sedimentary and
submarine-volcanic origin,
intruded by
granitoid plutons. Most of these rocks are of
late Carboniferous age or older. Folding and
metamorphism of these sedimentary and volcanic rocks, and the emplacement of the granitoids, occurred mainly in two Paleozoic orogenies: the
Caledonian Orogeny in the Late
Ordovician and the
Variscan Orogeny in the
early Carboniferous. In the oldest folded Variscan rocks, evidence exists of an older orogeny, the
Cadomian Orogeny, which occurred before the accretion of the crustal blocks of Proto-Europe (Baltica) (
German: ). The folded basement rocks originated in the
Proterozoic, but even older relics of
continental crust are found in a
paragneiss of the Bavarian Forest, the
protolith of which was probably deposited after the Cadomian Orogeny. A sample of this paragneiss contains a
detrital zircon grain, whose core crystallised from a
magma about 3.84 billion years ago during the
Archaean eon. Whereas the Caledonian folded basement lies a few thousand metres below the surface of the Central European Depression, the Variscan basement or Variscides (
German: ) outcrops in the Central European Blocks area, occurring extensively in several large highland areas and also sparsely in some lowland areas in the form of basement uplifts. A distinction is made here between rock complexes, commonly referred to as "slate belts" (
German: ) made of unmetamorphosed or weakly metamorphosed rocks (
slate,
chert,
sandstone,
limestone, altered
basalt,
phyllite and
quartzite) which are intruded only to a small extent by granitoids, and rock complexes commonly referred to as
crystalline, comprising weakly to highly metamorphosed rocks (phyllite, quartzite,
marble,
amphibolite,
serpentinite,
schist,
gneiss,
granulite and
eclogite) which are extensively intruded by granitoids. The slate belt rock units were folded at a shallow depth at relatively low temperatures, whereas the metamorphic crystalline areas sank much deeper during the Variscan Orogeny, and were subjected to high pressures and, in some places, very high temperatures which caused
partial melting of the rocks. The
geochemical signature of the Variscan granitoids suggests that their magma was produced by the partial melting of deeply-buried sedimentary rocks. Outcropping slate belts are found mainly in the Rhenish Massif, the Harz and the Thuringian-Franconian-Vogtland Slate Mountains. Outcropping crystalline areas are found mainly in the Black Forest, the western Odenwald,
Vorspessart, as well as the German periphery of the Bohemian Massif (
Upper Lusatia, the Ore Mountains, the Fichtel Mountains, the Palatinate Forest and the Bavarian Forest).
Transition The transition level (
German: ) includes all unfolded sedimentary and
volcanic rocks of late Carboniferous (Stephanian) to mid-Permian (
Guadalupian) age. "Transition level" refers, in part, to the stratigraphic position of these rocks: they are younger than the folded Variscides but older than the layers of the Mesozoic platform. In addition, they stem from a geological transition phase, which is characterised by the flattening of the Variscan mountains and by post-Variscan
volcanism, which was accompanied by crustal extension in the Variscan Orogen. The rocks of the transition level differ from the younger platform sediments in that they are often relatively coarse-grained (
conglomeratic) Molasse sedimentary rocks and
acidic to
intermediate volcanic rocks (especially
rhyolite), whereas the Mesozoic platform has few conglomerates and no volcanic rocks. The transition level is divided
lithostratigraphically into Stephanian and Permian (
Rotliegend) sequences. Rocks of the transition level are found today mainly in the
Saar-Nahe Basin, the Halle-Leipzig area (e.g. Halle
Porphyry Complex), the
Ore Mountain Basin and the Thuringian Forest.
Mesozoic platform s of
White Jurassic limestone at the edge of the
landslide at Hirschkopf near
Mössingen (
Swabian Jura) , Upper Cretaceous sandstones in the
Elbe Sandstone Mountains near
Bad Schandau The Mesozoic platform (
German: ) includes all virtually unfolded sedimentary rocks of the Mesozoic (
Triassic,
Jurassic and
Cretaceous), but also includes some Paleozoic deposits of the
Lopingian epoch of the late Permian. In northern Germany, in principle, even the relatively unfolded or weakly folded post-Caledonian/pre-Permian sediments (including the
Ruhr Carboniferous and its western continuation in the Aachen area) are included with the Mesozoic platform. The outcropping Mesozoic platform at the surface comprises
Zechstein (Middle/Upper Permian) marine
gypsum rocks and limestones,
Buntsandstein (Lower Triassic)
siliciclastic rocks,
Muschelkalk (Middle Triassic) marine limestones,
Keuper (Middle and Upper Triassic) mixed
evaporite-
carbonate-siliciclastic deposits,
Lower Jurassic (Lias/
Schwarzjura) marine black shales, Dogger/
Braunjura (
Middle Jurassic) marine, often iron-bearing, siliciclastic rocks,
White Jurassic/
Malm (
Upper Jurassic) marine limestones,
Lower Cretaceous (Wealden) continental siliciclastic rocks and
Upper Cretaceous marine limestones, sandstones and gaizes. Outcropping Zechstein rocks are limited to the edges of basement uplifts. Triassic rocks cover the largest area. In the South German Block, extensively outcropping Mesozoic rocks dip towards the south-east. Due to the alternating layering of weathering/erosion-prone shales and more resistant sandstones and limestones, a
cuesta landscape has formed there in the past several million years. The most conspicuous of these cuestas is the White Jura of
Franconia and the
Swabian Jura. Uplands formed by relatively weathering/erosion-resistant sandstones of the early/middle Buntsandstein are the Palatinate Forest, the Odenwald, the Spessart, the Südrhön and the
Burgwald. Ridges of Muschelkalk limestone are found mainly in the Thuringian Basin. Probably the most well-known occurrence of Cretaceous sandstones is the
Elbe Sandstone Mountains. In northern Germany, individual blocks have been forced up by
salt domes, and have been eroded down to the older layers of the Mesozoic platform. Erosion-resistant bedrock on these blocks forms small isolated ridges, especially in the northern Harz
foreland region. These include the
Elm hills (Muschelkalk), the
Asse hills (Buntsandstein and Muschelkalk) and the
Grosser Fallstein (Muschelkalk) as well as the island of
Heligoland (Buntsandstein). Cretaceous
chalk can be found, partly covered by thin Quaternary deposits, only in northern Germany, including in Münsterland Cretaceous Basin, where the Cretaceous deposits directly rest on the
Ruhr Carboniferous and continue westward into the
Aachen Formation, as well as in the Hanover and Salzgitter area. Probably the most well-known Cretaceous limestones of Germany are those on the island of
Rügen, on Germany's north coast.
Cenozoic platform The Cenozoic platform (
German: ) comprises
Tertiary and Quaternary rocks. It is also known as the "unconsolidated rock" level (
German: ) because, due to their young age, the Cenozoic sedimentary rocks have often not experienced intensive
diagenesis and are therefore often not
cemented. Because the youngest deposits in an uplifted area are removed first, the Cenozoic platform deposits occur extensively only in young Cenozoic subsidence areas in the Central European Blocks region where the largest outcrops are the Upper Rhine Graben, the
Mainz Basin and the Molasse Basin (Alpine foreland trough). Special "subsidence areas" are the
Nördlinger Ries and the
Steinheim crater, both originating through a
meteorite impact event. The Cenozoic deposits in the Central European Blocks region consist of both siliciclastic rocks and limestones and both marine and continental sediments. The Cenozoic in Germany is also represented by volcanic rocks. In contrast to the mostly acidic (
SiO2-rich) volcanic rocks of the transition level, the Cenozoic formations are mostly intermediate to very SiO2-poor (
trachyte, basalt,
phonolite,
tephrite,
nephelinite and
basanite). The largest Cenozoic volcanic areas in Germany are the
Vogelsberg Mountains, the
Westerwald, the
Rhön Mountains and the
Eifel. In northern Germany, almost the entire surface geology is made of Cenozoic sediments (mostly Pleistocene and
Holocene glacial or
fluvioglacial deposits).
Moraines and
urstromtals determine the
relief . Thus the Southern Ridge (
German: ) is a moraine of the
Saale glaciation and the Northern Ridge (
German: ) is a moraine of the
Weichselian glaciation. The material of these sediments was picked up by the
ice sheet on its way from Scandinavia to Central Europe and was deposited during the melting there. The route that the ice took can be reconstructed with the aid of rocks, the
cobbles in the moraine sediments, because these can be matched with certain regions in Scandinavia . In southern Germany, with the exception of the Alpine foreland and the Upper Rhine Graben, there are rather thin Quaternary deposits and formations, geographically confined mostly to lower slopes and valleys where they occur as
scree and
stone runs or as fluvial
gravels and
sands. In the foothills of the Alps, there are also Pleistocene moraines. There, however, the cobbles originate from the Alps and a different nomenclature than in Northern Germany is used for the
glacial periods in which the ice from the mountains in the south pushed into the foothills: The Saale glaciation corresponds there to the
Riss glaciation; the Weichselian glaciation corresponds to the
Würm glaciation. == German Alps ==