The Hercynian massifs
The physical structure of France is dominated by a group of ancient mountains in the shape of a gigantic V, the sides of which form the two branches of Hercynian folding that took place between 345 and 225 million years ago. The eastern branch comprises the Ardennes, the Vosges, and the eastern part of the Massif Central, while the Hercynian massifs to the west comprise the western part of the Massif Central and the Massif Armoricain.
These highlands are composed of resistant metamorphic, crystalline, and sedimentary rocks from the Paleozoic Era (about 540 to 250 million years ago), the last including coal deposits. They share the common characteristic of repeated planation, or flattening. Some variety is provided by subsequent deformation and faulting, such as in the ridge-and-valley areas of the Massif Armoricain, where upland surfaces are deeply carved by valleys in dramatic fashion. The Ardennes
The Ardennes massif is an extension, from Belgium into France, of the great Rhine Uplands, characterized by rocks of slate and quartz from the Paleozoic Era. Differential erosion of Paleozoic rocks has produced long ridges alternating with open valleys crossed by the Sambre and Meuse rivers. The Vosges
The Alpine earth movements produced a great upswelling along the line of the present upper Rhine, leaving the Vosges with steep eastern slopes that descend to a rift valley containing the plains of Alsace and Baden; on the west the upland descends rather gently into the scarplands of Lorraine. The Vosges reaches its maximum elevation in the south, near the Alps, where crystalline rocks are exposed; the highest summits are called ballons, and the highest is the Ballon de Guebwiller (Mount Guebwiller), with an elevation of 4,669 feet (1,423 metres). To the north the Vosges massif dips beneath a cover of forested sandstone from the Triassic Period (about 250 to 200 million years ago). The Massif Central
The vast plateau of the Massif Central covers about 33,000 square miles (86,000 square km), or some one-sixth of the area of the country. The Massif Central borders the Rhône-Saône valley on the east, the Languedoc lowlands on the south, the Aquitaine Basin on the southwest, and the Paris Basin on the north. The planation that occurred following the creation of the Hercynian belt removed the ancient mountain chains, but the block was uplifted under the impact of the Alpine mountain-building movements, with a steep descent on the east and southeast, nearest the Alps, and a gentle decline under the later sediments of the Aquitaine Basin to the west and the Paris Basin to the north. Much of the western massif, notably Limousin, consists of monotonous erosion surfaces. The centre and eastern parts of the massif were much fractured in the course of the Alpine movements, leaving behind upthrust blocks, of which the most conspicuous is the Morvan, the forested bastion of the northeastern corner of the massif. Downfaulted basins filled with sediments from Paleogene and Neogene times (i.e., about 65 to 2.6 million years ago), such as the Limagne near the city of Clermont-Ferrand in south-central France, were also formed. Faulting was associated with volcanic activity, which in the central part of the region formed the vast and complex structures of the massifs of Cantal and Monts Dore, where the Sancy Hill (Puy de Sancy), at 6,184 feet (1,885 metres), is the highest summit of the Massif Central. Farther west, on the fringe of the Limagne, is the extraordinary Chaîne des Puys, whose numerous cinder cones were formed only about 10,000 years ago and still retain the newness of their craters, lava flows, and other volcanic features. Numerous mineral springs, such as those at Vichy in the central Auvergne region, are a relic of volcanic activity.
Cinder cones of the Chaîne des Puys in the Massif Central, France.Christian Kempf from TSW—CLICK/Chicago
The eastern and southern portions of the massif, from the Morvan through the Cévennes to the final southwestern termination of the massif in the Noire Mountains (Montagne Noire), are marked by a series of hill masses that overlook the lowlands of the Rhône-Saône river valley and the région of Languedoc-Roussillon; at least one of these uplands, Beaujolais, has become famous for the grapevines grown at its foot. Between the hill masses lie infolded coal deposits at locations such as Alès, Decazeville, Saint-Étienne, and Blanzy (Le Creusot) that are of more historical than contemporary importance. To the southwest the rocks of the massif are overlain by a great thickness of limestones (causses) from the Jurassic Period (about 200 to 145 million years ago). Lacking in surface water and little populated, this portion of the massif is crossed by rivers that trench dramatic gorges, notably that of the Tarn. Extensive cave systems bear remains of prehistoric art, such as that of Pêche-Merle in the Lot valley and the Lascaux Grotto in the Vézère valley. The Massif Armoricain
The Massif Armoricain is contained mostly within the région of Brittany (Bretagne), a peninsula washed by the Bay of Biscay on the south and the English Channel on the north. The massif continues beyond Brittany eastward and across the Loire to the south. It is much lower than the other Hercynian massif; its highest point, the Mont des Avaloirs, on the eastern edge of the massif, attains an elevation of 1,368 feet (417 metres). Alternating bands of Paleozoic sediments and granitic rocks give the massif a generally east-west grain, particularly expressed in the headlands and bays of its rugged coast. The great lowlands The Paris Basin
Between the Ardennes, the Vosges, the Massif Central, and the Massif Armoricain lie the sedimentary beds that make up the Paris Basin. Alternating beds of limestones, sands, and clays dip toward the central Paris Basin, their outcrops forming concentric patterns. Especially to the east, erosion has left the more resistant rocks, usually limestones, with a steep, outward-facing scarp edge and a gentler slope toward the centre of the basin. The central Paris Basin is filled by rocks from the Paleogene and Neogene periods, mostly limestones, that form the level plateaus of regions such as Beauce, Brie, Île-de-France, Valois, and Soissonnais. This area is mostly covered with windblown limon, which is the basis of an excellent loamy soil. The limestone levels overlap in sandwich formation. Eroded remnants of higher formations have been left behind as isolated hills called buttes, perhaps the most famous of which is in Paris—the Butte de Montmartre, on which is one of the city’s most famous districts. Sandy areas adjoining the limestone formations bear forests, such as the Forest of Fontainebleau, southwest of Paris. In the east, in the regions of Lorraine and Burgundy, are Triassic and Jurassic rocks; among the scarps the Moselle Hills are noted for their minette, low-grade iron ore. In the extreme southeast the Jurassic limestone Plateau de Langres forms the watershed between the Seine and Rhône-Saône river systems; it is crossed by major routes linking Paris with the south. The eastern basin includes the chalk country of Champagne and the Argonne massif. In the western part of the Paris Basin, scarps in the Jurassic and Cretaceous rocks of Normandy are not prominent. The chalk plateau is trenched by the lower Seine in a course marked by spectacular meanders and river cliffs. The plateau surfaces are frequently mantled by clay-with-flints and other residual deposits, producing heavy soils with much forest, grassland, and orchard cultivation. Farther north the wide chalk plateaus of Picardy and Artois are generally covered with limon, which provides for a rich agriculture; many stretches of magnificent white chalk cliffs line the English Channel coast. The Flanders Plain