Mesozoic Antarctica, the centre of the supercontinent, shared boundaries with all other Gondwana continents and the fragmentation of Gondwana propagated clockwise around it. The break-up was the result of the eruption of the
Karoo-Ferrar igneous province, one of the Earth's most extensive
large igneous provinces (LIP) , but the oldest
magnetic anomalies between South America, Africa, and Antarctica are found in what is now the southern
Weddell Sea where initial break-up occurred during the Jurassic .
Opening of western Indian Ocean Gondwana began to break up in the early
Jurassic following the extensive and fast emplacement of the
Karoo-Ferrar flood basalts . Before the Karoo plume initiated rifting between
Africa and
Antarctica, it separated a series of smaller continental blocks from Gondwana's southern, Proto-Pacific margin (along what is now the
Transantarctic Mountains): the
Antarctic Peninsula,
Marie Byrd Land,
Zealandia, and
Thurston Island; the
Falkland Islands and
Ellsworth–Whitmore Mountains (in Antarctica) were rotated 90° in opposite directions; and South America south of the
Gastre Fault (often referred to as
Patagonia) was pushed westward. The history of the Africa-Antarctica break-up can be studied in great detail in the fracture zones and magnetic anomalies flanking the
Southwest Indian Ridge. The Madagascar block and the
Mascarene Plateau, stretching from the
Seychelles to
Réunion, were broken off India, causing
Madagascar and
Insular India to be separate
landmasses: elements of this break-up nearly coincide with the
Cretaceous–Paleogene extinction event. The India–Madagascar–Seychelles separations appear to coincide with the eruption of the
Deccan basalts, whose eruption site may survive as the
Réunion hotspot. The Seychelles and the
Maldives are now separated by the
Central Indian Ridge. During the initial break-up in the Early Jurassic, a
marine transgression swept over the
Horn of Africa covering Triassic
planation surfaces with
sandstone,
limestone,
shale,
marls and
evaporites.
Opening of eastern Indian Ocean East Gondwana, comprising Antarctica, Madagascar, India, and Australia, began to separate from Africa. East Gondwana then began to break up when India moved northwest from Australia-Antarctica. The
Indian plate and the
Australian plate are now separated by the
Capricorn plate and its diffuse boundaries. During the opening of the Indian Ocean, the
Kerguelen hotspot first formed the
Kerguelen Plateau on the
Antarctic plate and then the
Ninety East Ridge on the
Indian plate at . The Kerguelen Plateau and the
Broken Ridge, the southern end of the Ninety East Ridge, are now separated by the
Southeast Indian Ridge. Separation between Australia and
East Antarctica began with seafloor spreading occurring . A shallow seaway developed over the
South Tasman Rise during the Early
Cenozoic and as
oceanic crust started to separate the continents during the
Eocene global ocean temperature dropped significantly. A dramatic shift from arc- to rift magmatism separated
Zealandia, including
New Zealand, the
Campbell Plateau,
Chatham Rise,
Lord Howe Rise,
Norfolk Ridge, and
New Caledonia, from
West Antarctica .
Opening of South Atlantic Ocean The
opening of the South Atlantic Ocean divided West Gondwana (South America and Africa), but there is considerable debate over the exact timing of this break-up. Rifting propagated from south to north along Triassic–Early Jurassic lineaments, but intra-continental rifts also began to develop within both continents in Jurassic–Cretaceous sedimentary basins, subdividing each continent into three sub-plates. Rifting began at Falkland latitudes, forcing Patagonia to move relative to the still static remainder of South America and Africa, and this westward movement lasted until the Early Cretaceous . From there rifting propagated northward during the Late Jurassic or Early Cretaceous most likely forcing dextral movements between sub-plates on either side. South of the
Walvis Ridge and
Rio Grande Rise the
Paraná and Etendeka magmatics resulted in further ocean-floor spreading and the development of rifts systems on both continents, including the
Central African Rift System and the
Central African Shear Zone which lasted until . At Brazilian latitudes spreading is more difficult to assess because of the lack of palaeo-magnetic data, but rifting occurred in Nigeria at the
Benue Trough . North of the Equator the rifting began after and continued until . Dinosaur footprints representing identical species assemblages are known from opposite sides of the South Atlantic (Brazil and
Cameroon) dating to around , suggesting that some form of land connection still existed between Africa and South America as recently as the early
Aptian.
Early Andean orogeny The first phases of
Andean orogeny in the
Jurassic and
Early Cretaceous were characterised by
extensional tectonics,
rifting, the development of
back-arc basins and the emplacement of large
batholiths. This development is presumed to have been linked to the subduction of cold
oceanic lithosphere. While subduction direction changed, it remained oblique (and not perpendicular) to the coast of South America, and the direction change affected several
subduction zone-parallel faults including
Atacama,
Domeyko and
Liquiñe-Ofqui. Later, South America was connected to North America via the
Isthmus of Panama, cutting off a circulation of warm water and thereby making the
Arctic colder, as well as allowing the
Great American Interchange. The break-up of Gondwana can be said to continue in eastern Africa at the
Afar triple junction, which separates the
Arabian,
African, and
Somali plates, resulting in rifting in the
Red Sea and
East African Rift.
Australia–Antarctica separation In the Early
Cenozoic, Australia was still connected to Antarctica 35–40° south of its current location and both continents were largely unglaciated. A rift between the two developed but remained an embayment until the Eocene-Oligocene boundary when the Circumpolar Current developed and the glaciation of Antarctica began. Australia was warm and wet during the Paleocene and dominated by rainforests. The opening of the Tasman Gateway at the Eocene-Oligocene boundary () resulted in abrupt cooling but the Oligocene became a period of high rainfall with swamps in southeastern Australia. During the Miocene, a warm and humid climate developed with pockets of rainforests in central Australia, but before the end of the period, colder and drier climate severely reduced this rainforest. A brief period of increased rainfall in the
Pliocene was followed by drier climate which favoured grassland. Since then, the fluctuation between wet interglacial periods and dry glacial periods has developed into the present arid regime. Australia has thus experienced various
climate changes over a 15-million-year period with a gradual decrease in precipitation. The Tasman Gateway between Australia and Antarctica began to open . Palaeontological evidence indicates the
Antarctic Circumpolar Current (ACC) was established in the Late Oligocene with the full opening of the
Drake Passage and the deepening of the Tasman Gateway. The oldest oceanic crust in the Drake Passage, however, is -old which indicates that the spreading between the Antarctic and South American plates began near the Eocene-Oligocene boundary. Deep sea environments in
Tierra del Fuego and the
North Scotia Ridge during the Eocene and Oligocene indicate a "Proto-ACC" opened during this period. Later, , a series of events severally restricted the Proto-ACC: change to shallow marine conditions along the North Scotia Ridge; closure of the Fuegan Seaway, the deep sea that existed in Tierra del Fuego; and uplift of the Patagonian Cordillera. This, together with the reactivated
Iceland plume, contributed to global warming. During the Miocene, the Drake Passage began to widen, and as water flow between South America and the
Antarctic Peninsula increased, the renewed ACC resulted in cooler global climate. Since the Eocene, the northward movement of the Australian Plate has resulted in an
arc-continent collision with the
Philippine and
Caroline plates and the uplift of the
New Guinea Highlands. From the Oligocene to the late Miocene, the climate in Australia, dominated by warm and humid rainforests before this collision, began to alternate between open forest and rainforest before the continent became the arid or semiarid landscape it is today. ==Biogeography==