Paleogeography
The Early Carboniferous (Mississippian) world is characterized by Laurussia, a series of small cratonic blocks that occupied the Northern Hemisphere, and Gondwana, an enormous landmass made up of present-day South America, Africa, Antarctica, Australia, and the Indian subcontinent in the Southern Hemisphere. Lithospheric plate movement brought the continents close together on one side of the globe. The orogenies (mountain-building events) taking place during the Devonian Period had formed the “Old Red Sandstone” continent. The principal landmass of Laurussia was made up of present-day North America, western Europe through the Urals, and Balto-Scandinavia. Much of Laurussia lay near the paleoequator, whereas the cratons of Siberia, Kazakhstania, and most of China existed as separate continents occupying positions at high latitudes. During this time, the Tethys Sea separated the southern margin of the Old Red Sandstone continent completely from Gondwana.
By Late Carboniferous (Pennsylvanian) times, plate movements had brought most of Laurussia into contact with Gondwana and closed the Tethys. Laurussia and Gondwana became fused by the Appalachian-Hercynian orogeny (mountain-building event), which continued into the Permian Period. The position of the landmass that would become the eastern United States and northern Europe remained equatorial, while the China and Siberia cratons continued to reside at high latitudes in the Northern Hemisphere.
The distribution of land and sea followed fairly predictable limits. The continental interiors were terrestrial, and no major marine embayments apparently existed. Upland areas of the continental interiors underwent substantial erosion during the Carboniferous. Shallow seas occupied the continental shelf margins surrounding the continents. Fringe areas of Carboniferous continents may very well have become the continental interiors of the present day. Deeper troughs (geosynclines) lay seaward of the continental masses, and their sedimentary record is now characterized by mountains.
The Early Carboniferous (Mississippian) world is characterized by Laurussia, a series of small cratonic blocks that occupied the Northern Hemisphere, and Gondwana, an enormous landmass made up of present-day South America, Africa, Antarctica, Australia, and the Indian subcontinent in the Southern Hemisphere. Lithospheric plate movement brought the continents close together on one side of the globe. The orogenies (mountain-building events) taking place during the Devonian Period had formed the “Old Red Sandstone” continent. The principal landmass of Laurussia was made up of present-day North America, western Europe through the Urals, and Balto-Scandinavia. Much of Laurussia lay near the paleoequator, whereas the cratons of Siberia, Kazakhstania, and most of China existed as separate continents occupying positions at high latitudes. During this time, the Tethys Sea separated the southern margin of the Old Red Sandstone continent completely from Gondwana.
By Late Carboniferous (Pennsylvanian) times, plate movements had brought most of Laurussia into contact with Gondwana and closed the Tethys. Laurussia and Gondwana became fused by the Appalachian-Hercynian orogeny (mountain-building event), which continued into the Permian Period. The position of the landmass that would become the eastern United States and northern Europe remained equatorial, while the China and Siberia cratons continued to reside at high latitudes in the Northern Hemisphere.
The distribution of land and sea followed fairly predictable limits. The continental interiors were terrestrial, and no major marine embayments apparently existed. Upland areas of the continental interiors underwent substantial erosion during the Carboniferous. Shallow seas occupied the continental shelf margins surrounding the continents. Fringe areas of Carboniferous continents may very well have become the continental interiors of the present day. Deeper troughs (geosynclines) lay seaward of the continental masses, and their sedimentary record is now characterized by mountains.
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