Gondwana

Cambrian paleogeographyDistribution of landmasses, mountainous regions, shallow seas, and deep ocean basins during the Late Cambrian. Included in the paleogeographic reconstruction are cold and warm ocean currents. The present-day coastlines and tectonic boundaries of the configured continents are shown in the inset at the lower right. Map B provides a “backside” view of the reconstruction shown in Map A.

Gondwana, ancient supercontinent that incorporated present-day South America, Africa, Arabia, Madagascar, India, Australia, and Antarctica. It was fully assembled by Late Precambrian time, some 600 million years ago, and the first stage of its breakup began in the Early Jurassic Period, about 180 million years ago. The name Gondwanaland was coined by the Austrian geologist Eduard Suess in reference to Upper Paleozoic and Mesozoic formations in the Gondwana region of central India, which are similar to formations of the same age on Southern Hemisphere continents.

The matching shapes of the coastlines of western Africa and eastern South America were first noted by Francis Bacon in 1620 as maps of Africa and the New World first became available. The concept that all of the continents of the Southern Hemisphere were once joined together was set forth in detail by Alfred Wegener, a German meteorologist, in 1912. He envisioned a single great landmass, Pangaea (or Pangea). Gondwana comprised the southern half of this supercontinent.

The concept of Gondwana was expanded upon by Alexander Du Toit, a South African geologist, in his 1937 book Our Wandering Continents. Du Toit carefully documented the numerous geologic and paleontological lines of evidence that linked the southern continents. This evidence included the occurrence of glacial deposits—tillites—of Permo-Carboniferous age (approximately 290 million years old) and similar floras and faunas that are not found in the Northern Hemisphere. The widely distributed seed fern Glossopteris is particularly cited in this regard. The rock strata that contain this evidence are called the Karoo (Karroo) System in South Africa, the Gondwana System in India, and the Santa Catharina System in South America. It also occurs in the Maitland Group of eastern Australia as well as in the Whiteout conglomerate and Polarstar formations of Antarctica. Though the concept of Gondwana was widely accepted by scientists from the Southern Hemisphere, scientists in the Northern Hemisphere continued to resist the idea of continental mobility until the 1960s, when the theory of plate tectonics demonstrated that the ocean basins are not permanent global features and vindicated Wegener’s hypothesis of continental drift.

According to plate tectonic evidence, Gondwana was assembled by continental collisions in the Late Precambrian (about 1 billion to 542 million years ago). Gondwana then collided with North America, Europe, and Siberia to form the supercontinent of Pangea. The breakup of Gondwana occurred in stages. Some 180 million years ago, in the Jurassic Period, the western half of Gondwana (Africa and South America) separated from the eastern half (Madagascar, India, Australia, and Antarctica). The South Atlantic Ocean opened about 140 million years ago as Africa separated from South America. At about the same time, India, which was still attached to Madagascar, separated from Antarctica and Australia, opening the central Indian Ocean. During the Late Cretaceous Period, India broke away from Madagascar, and Australia slowly rifted away from Antarctica. India eventually collided with Eurasia some 50 million years ago, forming the Himalayan mountains, while the northward-moving Australian plate had just begun its collision along the southern margin of Southeast Asia—a collision that is still under way today.

This article was most recently revised and updated by Richard Pallardy.