The origin and formation of the Universe, the Solar System, and the Earth

https://www.youtube.com/watch?v=H-fwl6pMVLA

The origin and formation of the Universe, the Solar System, and the Earth

$\color {White}{\mathbf {-4.5\times 10^{9}}}$

The origin and formation of Earth

https://en.wikipedia.org/wiki/History_of_Earth

Supereon	Eon	Era	Period Template:Efn	Epoch	Age Template:Efn	Major events	Start, million years agoTemplate:Efn
n/aTemplate:Efn	rowspan="102" style="background:Template:Period color"\| Phanerozoic	rowspan="24" style="background:Template:Period color"\| Cenozoic Template:Efn	rowspan="7" style="background:Template:Period color"\| Quaternary	rowspan="3" style="background:Template:Period color"\| Holocene	Meghalayan	4.2 kiloyear event, Little Ice Age, increasing industrial CO₂.	Template:Period start^*
	Northgrippian	8.2 kiloyear event, Holocene climatic optimum. Bronze Age.	Template:Period start^*
	Greenlandian	Current interglacial begins. Sea level flooding of Doggerland and Sundaland. Sahara desert forms. Neolithic agriculture.	Template:Period start^*
	rowspan="4" style="background:Template:Period color"\| Pleistocene	style="background:Template:Period color"\| Late ('Tarantian')	Eemian interglacial, Last glacial period, ending with Younger Dryas. Toba eruption. Megafauna extinction.	style="background:Template:Period color"\| Template:Period start
	style="background:Template:Period color"\| Chibanian	High amplitude 100 ka glacial cycles. Rise of Homo sapiens.	style="background:Template:Period color"\| Template:Period start
	style="background:Template:Period color"\| Calabrian	Further cooling of the climate. Spread of Homo erectus.	style="background:Template:Period color"\| Template:Period start^*
	style="background:Template:Period color"\| Gelasian	Start of Quaternary glaciations. Rise of the Pleistocene megafauna and Homo habilis.	style="background:Template:Period color"\| Template:Period start^*
	rowspan="8" style="background:Template:Period color"\| Neogene	rowspan="2" style="background:Template:Period color"\| Pliocene	style="background:Template:Period color"\| Piacenzian	Greenland ice sheet develops.^[1] Australopithecus common in East Africa.^[2]	style="background:Template:Period color"\| Template:Period start^*
	style="background:Template:Period color"\| Zanclean	Zanclean flooding of the Mediterranean Basin. Cooling climate. Ardipithecus in Africa.^[2]	style="background:Template:Period color"\| Template:Period start^*
	rowspan="6" style="background:Template:Period color"\| Miocene	style="background:Template:Period color"\| Messinian	Messinian Event with hypersaline lakes in empty Mediterranean Basin. Moderate Icehouse climate, punctuated by ice ages and re-establishment of East Antarctic Ice Sheet; Gradual separation of human and chimpanzee ancestors. Sahelanthropus tchadensis in Africa.	style="background:Template:Period color"\| Template:Period start^*
	style="background:Template:Period color"\| Tortonian	style="background:Template:Period color"\| Template:Period start^*
	style="background:Template:Period color"\| Serravallian	Warmer during middle Miocene climate optimum.^[3] Extinctions in middle Miocene disruption.	style="background:Template:Period color"\| Template:Period start^*
	style="background:Template:Period color"\| Langhian		style="background:Template:Period color"\| Template:Period start
	style="background:Template:Period color"\| Burdigalian	Orogeny in Northern Hemisphere. Start of Kaikoura Orogeny forming Southern Alps in New Zealand. Widespread forests slowly draw in massive amounts of CO₂, gradually lowering the level of atmospheric CO₂ from 650 ppmv down to around 100 ppmv during the Miocene.^[4]Template:Efn Modern mammal and bird families become recognizable. Horses and mastodons diverse. Grasses become ubiquitous. Ancestor of apes, including humans.^[5]	style="background:Template:Period color"\| Template:Period start
	style="background:Template:Period color"\| Aquitanian		style="background:Template:Period color"\| Template:Period start^*
	rowspan="9" style="background:Template:Period color"\| Paleogene	rowspan="2" style="background:Template:Period color"\| Oligocene	style="background:Template:Period color"\| Chattian	Grande Coupure extinction. Start of widespread Antarctic glaciation.^[6] Rapid evolution and diversification of fauna, especially mammals. Major evolution and dispersal of modern types of flowering plants	style="background:Template:Period color"\| Template:Period start
	style="background:Template:Period color"\| Rupelian	style="background:Template:Period color"\| Template:Period start^*
	rowspan="4" style="background:Template:Period color"\| Eocene	style="background:Template:Period color"\| Priabonian	Moderate, cooling climate. Archaic mammals (e.g. Creodonts, "Condylarths", Uintatheres, etc.) flourish and continue to develop during the epoch. Appearance of several "modern" mammal families. Primitive whales diversify. Reglaciation of Antarctica and formation of its ice cap; End of Laramide and Sevier Orogenies of the Rocky Mountains in North America. Orogeny of the Alps in Europe begins. Hellenic Orogeny begins in Greece and Aegean Sea.	style="background:Template:Period color"\| Template:Period start
	style="background:Template:Period color"\| Bartonian	style="background:Template:Period color"\| Template:Period start
	style="background:Template:Period color"\| Lutetian	style="background:Template:Period color"\| Template:Period start^*
	style="background:Template:Period color"\| Ypresian	Two transient events of global warming (PETM and ETM-2) and warming climate until the Eocene Climatic Optimum. The Azolla event decreased CO₂ levels from 3500 ppm to 650 ppm, setting the stage for a long period of cooling.^[4]Template:Efn Indian Subcontinent collides with Asia and starts Himalayan Orogeny.	style="background:Template:Period color"\| Template:Period start^*
	rowspan="3" style="background:Template:Period color"\| Paleocene	style="background:Template:Period color"\| Thanetian	Starts with Chicxulub impact and the K-Pg extinction event. Climate tropical. Modern plants appear; Mammals diversify into a number of lineages following the extinction of the non-avian dinosaurs. First large mammals (up to bear or small hippo size). Alpine orogeny in Europe and Asia begins.	style="background:Template:Period color"\| Template:Period start^*
	style="background:Template:Period color"\| Selandian	style="background:Template:Period color"\| Template:Period start^*
	style="background:Template:Period color"\| Danian	style="background:Template:Period color"\| Template:Period start^*
	rowspan="30" style="background:Template:Period color"\| Mesozoic	rowspan="12" style="background:Template:Period color" \| Cretaceous	rowspan="6" style="background:Template:Period color"\| Late	style="background:Template:Period color"\| Maastrichtian	Flowering plants proliferate, along with new types of insects. More modern teleost fish begin to appear. Ammonoidea, belemnites, rudist bivalves, echinoids and sponges all common. Many new types of dinosaurs (e.g. Tyrannosaurs, Titanosaurs, Hadrosaurs, and Ceratopsids) evolve on land, as do Eusuchia (modern crocodilians); and mosasaurs and modern sharks appear in the sea. Birds toothed and toothless coexist with pterosaurs. Monotremes, marsupials and placental mammals appear. Break up of Gondwana. Beginning of Laramide and Sevier Orogenies of the Rocky Mountains. atmospheric CO₂ close to present-day levels.	style="background:Template:Period color"\| Template:Period start ± 0.2^*
	style="background:Template:Period color"\| Campanian	style="background:Template:Period color"\| Template:Period start ± 0.2
	style="background:Template:Period color"\| Santonian	style="background:Template:Period color"\| Template:Period start ± 0.5^*
	style="background:Template:Period color"\| Coniacian	style="background:Template:Period color"\| Template:Period start ± 0.3
	style="background:Template:Period color"\| Turonian	style="background:Template:Period color"\| Template:Period start^*
	style="background:Template:Period color"\| Cenomanian	style="background:Template:Period color"\| Template:Period start^*
	rowspan="6" style="background:Template:Period color"\| Early	style="background:Template:Period color"\| Albian	style="background:Template:Period color"\| ~Template:Period start
	style="background:Template:Period color"\| Aptian	style="background:Template:Period color"\| ~Template:Period start
	style="background:Template:Period color"\| Barremian	style="background:Template:Period color"\| ~Template:Period start
	style="background:Template:Period color"\| Hauterivian	style="background:Template:Period color"\| ~Template:Period start
	style="background:Template:Period color"\| Valanginian	style="background:Template:Period color"\| ~Template:Period start
	style="background:Template:Period color"\| Berriasian	style="background:Template:Period color"\| ~Template:Period start
	rowspan="11" style="background:Template:Period color"\| Jurassic	rowspan="3" style="background:Template:Period color"\| Late	style="background:Template:Period color"\| Tithonian	Gymnosperms (especially conifers, Bennettitales and cycads) and ferns common. Many types of dinosaurs, such as sauropods, carnosaurs, and stegosaurs. Mammals common but small. First birds and lizards. Ichthyosaurs and plesiosaurs diverse. Bivalves, Ammonites and belemnites abundant. Sea urchins very common, along with crinoids, starfish, sponges, and terebratulid and rhynchonellid brachiopods. Breakup of Pangaea into Gondwana and Laurasia. Nevadan orogeny in North America. Rangitata and Cimmerian orogenies taper off. Atmospheric CO₂ levels 3–4 times the present day levels (1200–1500 ppmv, compared to today's 400 ppmv^[4]Template:Efn).	style="background:Template:Period color"\| Template:Period start ± 0.9
	style="background:Template:Period color"\| Kimmeridgian	style="background:Template:Period color"\| Template:Period start ± 1.0
	style="background:Template:Period color"\| Oxfordian	style="background:Template:Period color"\| Template:Period start ± 1.0
	rowspan="4" style="background:Template:Period color"\| Middle	style="background:Template:Period color"\| Callovian	style="background:Template:Period color"\| Template:Period start ± 1.2
	style="background:Template:Period color"\| Bathonian	style="background:Template:Period color"\| Template:Period start ± 1.3^*
	style="background:Template:Period color"\| Bajocian	style="background:Template:Period color"\| Template:Period start ± 1.4^*
	style="background:Template:Period color"\| Aalenian	style="background:Template:Period color"\| Template:Period start ± 1.0^*
	rowspan="4" style="background:Template:Period color"\| Early	style="background:Template:Period color"\| Toarcian	style="background:Template:Period color"\| Template:Period start ± 0.7^*
	style="background:Template:Period color"\| Pliensbachian	style="background:Template:Period color"\| Template:Period start ± 1.0^*
	style="background:Template:Period color"\| Sinemurian	style="background:Template:Period color"\| Template:Period start ± 0.3^*
	style="background:Template:Period color"\| Hettangian	style="background:Template:Period color"\| Template:Period start ± 0.2^*
	rowspan="7" style="background:Template:Period color"\| Triassic	rowspan="3" style="background:Template:Period color"\| Late	style="background:Template:Period color"\| Rhaetian	Archosaurs dominant on land as dinosaurs and in the air as pterosaurs. Ichthyosaurs and nothosaurs dominate large marine fauna. Cynodonts become smaller and more mammal-like, while first mammals and crocodilia appear. Dicroidiumflora common on land. Many large aquatic temnospondyl amphibians. Ceratitic ammonoids extremely common. Modern corals and teleost fish appear, as do many modern insect clades. Andean Orogeny in South America. Cimmerian Orogeny in Asia. Rangitata Orogeny begins in New Zealand. Hunter-Bowen Orogeny in Northern Australia, Queensland and New South Wales ends, (c. 260–225 Ma)	style="background:Template:Period color"\| ~Template:Period start
	style="background:Template:Period color"\| Norian	style="background:Template:Period color"\| ~Template:Period start
	style="background:Template:Period color"\| Carnian	style="background:Template:Period color"\| ~Template:Period start^*
	rowspan="2" style="background:Template:Period color"\| Middle	style="background:Template:Period color"\| Ladinian	style="background:Template:Period color"\| ~Template:Period start^*
	style="background:Template:Period color"\| Anisian	style="background:Template:Period color"\| Template:Period start
	rowspan="2" style="background:Template:Period color"\| Early	style="background:Template:Period color"\| Olenekian	style="background:Template:Period color"\| Template:Period start
	style="background:Template:Period color"\| Induan	style="background:Template:Period color"\| Template:Period start ± 0.06^*
	rowspan="48" style="background:Template:Period color"\| Paleozoic	rowspan="9" style="background:Template:Period color"\| Permian	rowspan="2" style="background:Template:Period color"\| Lopingian	style="background:Template:Period color"\| Changhsingian	Landmasses unite into supercontinent Pangaea, creating the Appalachians. End of Permo-Carboniferous glaciation. Synapsids including (pelycosaurs and therapsids) become plentiful, while parareptiles and temnospondyl amphibians remain common. In the mid-Permian, coal-age flora are replaced by cone-bearing gymnosperms (the first true seed plants) and by the first true mosses. Beetles and flies evolve. Marine life flourishes in warm shallow reefs; productid and spiriferid brachiopods, bivalves, forams, and ammonoids all abundant. Permian-Triassic extinction event occurs 251 Ma: 95% of life on Earth becomes extinct, including all trilobites, graptolites, and blastoids. Ouachita and Innuitian orogenies in North America. Uralian orogeny in Europe/Asia tapers off. Altaid orogeny in Asia. Hunter-Bowen Orogeny on Australian continent begins (c. 260–225 Ma), forming the MacDonnell Ranges.	style="background:Template:Period color"\| Template:Period start ± 0.07^*
	style="background:Template:Period color"\| Wuchiapingian	style="background:Template:Period color"\| Template:Period start ± 0.4^*
	rowspan="3" style="background:Template:Period color"\| Guadalupian	style="background:Template:Period color"\| Capitanian	style="background:Template:Period color"\| Template:Period start ± 0.4^*
	style="background:Template:Period color"\| Wordian	style="background:Template:Period color"\| Template:Period start ± 0.5^*
	style="background:Template:Period color"\| Roadian	style="background:Template:Period color"\| Template:Period start ± 0.5^*
	rowspan="4" style="background:Template:Period color"\| Cisuralian	style="background:Template:Period color"\| Kungurian	style="background:Template:Period color"\| Template:Period start ± 0.6
	style="background:Template:Period color"\| Artinskian	style="background:Template:Period color"\| Template:Period start ± 0.26
	style="background:Template:Period color"\| Sakmarian	style="background:Template:Period color"\| Template:Period start ± 0.18
	style="background:Template:Period color"\| Asselian	style="background:Template:Period color"\| Template:Period start ± 0.15^*
	rowspan="7" style="background:Template:Period color"\| Carbon- iferous Template:Efn	rowspan="4" style="background:Template:Period color"\| Pennsylvanian	style="background:Template:Period color"\| Gzhelian	Winged insects radiate suddenly; some (esp. Protodonata and Palaeodictyoptera) are quite large. Amphibians common and diverse. First reptiles and coal forests (scale trees, ferns, club trees, giant horsetails, Cordaites, etc.). Highest-ever atmospheric oxygen levels. Goniatites, brachiopods, bryozoa, bivalves, and corals plentiful in the seas and oceans. Testate forams proliferate. Uralian orogeny in Europe and Asia. Variscan orogeny occurs towards middle and late Mississippian Periods.	style="background:Template:Period color"\| Template:Period start ± 0.1
style="background:Template:Period color"\| Kasimovian	style="background:Template:Period color"\| Template:Period start ± 0.1
style="background:Template:Period color"\| Moscovian	style="background:Template:Period color"\| Template:Period start ± 0.2
style="background:Template:Period color"\| Bashkirian	style="background:Template:Period color"\| Template:Period start ± 0.4^*
rowspan="3" style="background:Template:Period color"\|Mississippian	style="background:Template:Period color"\| Serpukhovian	Large primitive trees, first land vertebrates, and amphibious sea-scorpions live amid coal-forming coastal swamps. Lobe-finned rhizodonts are dominant big fresh-water predators. In the oceans, early sharks are common and quite diverse; echinoderms (especially crinoids and blastoids) abundant. Corals, bryozoa, goniatites and brachiopods (Productida, Spiriferida, etc.) very common, but trilobites and nautiloids decline. Glaciation in East Gondwana. Tuhua Orogeny in New Zealand tapers off.	style="background:Template:Period color"\| Template:Period start ± 0.2
style="background:Template:Period color"\| Viséan	style="background:Template:Period color"\| Template:Period start ± 0.4^*
style="background:Template:Period color"\| Tournaisian	style="background:Template:Period color"\| Template:Period start ± 0.4^*
rowspan="7" style="background:Template:Period color"\| Devonian	rowspan="2" style="background:Template:Period color"\| Late	style="background:Template:Period color"\| Famennian	First clubmosses, horsetails and ferns appear, as do the first seed-bearing plants (progymnosperms), first trees (the progymnosperm Archaeopteris), and first (wingless) insects. Strophomenid and atrypid brachiopods, rugose and tabulate corals, and crinoids are all abundant in the oceans. Goniatite ammonoids are plentiful, while squid-like coleoids arise. Trilobites and armoured agnaths decline, while jawed fishes (placoderms, lobe-finned and ray-finned fish, and early sharks) rule the seas. First tetrapods still aquatic. "Old Red Continent" of Euramerica. Beginning of Acadian Orogeny for Anti-Atlas Mountains of North Africa, and Appalachian Mountains of North America, also the Antler, Variscan, and Tuhua Orogeny in New Zealand.	style="background:Template:Period color"\| Template:Period start ± 1.6^*
style="background:Template:Period color"\| Frasnian	style="background:Template:Period color"\| Template:Period start ± 1.6^*
rowspan="2" style="background:Template:Period color"\| Middle	style="background:Template:Period color"\| Givetian	style="background:Template:Period color"\| Template:Period start ± 0.8^*
style="background:Template:Period color"\| Eifelian	style="background:Template:Period color"\| Template:Period start ± 1.2^*
rowspan="3" style="background:Template:Period color"\| Early	style="background:Template:Period color"\| Emsian	style="background:Template:Period color"\| Template:Period start ± 2.6^*
style="background:Template:Period color"\| Pragian	style="background:Template:Period color"\| Template:Period start ± 2.8^*
style="background:Template:Period color"\| Lochkovian	style="background:Template:Period color"\| Template:Period start ± 3.2^*
rowspan="8" style="background:Template:Period color"\| Silurian	colspan="2" style="background:Template:Period color"\| Pridoli	First vascular plants (the rhyniophytes and their relatives), first millipedes and arthropleurids on land. First jawed fishes, as well as many armoured jawless fish, populate the seas. Sea-scorpions reach large size. Tabulate and rugose corals, brachiopods (Pentamerida, Rhynchonellida, etc.), and crinoids all abundant. Trilobites and mollusks diverse; graptolites not as varied. Beginning of Caledonian Orogeny for hills in England, Ireland, Wales, Scotland, and the Scandinavian Mountains. Also continued into Devonian period as the Acadian Orogeny, above. Taconic Orogeny tapers off. Lachlan Orogeny on Australian continent tapers off.	style="background:Template:Period color"\| Template:Period start ± 2.3^*
rowspan="2" style="background:Template:Period color"\| Ludlow	style="background:Template:Period color"\| Ludfordian		style="background:Template:Period color"\| Template:Period start ± 0.9^*
style="background:Template:Period color"\| Gorstian	style="background:Template:Period color"\| Template:Period start ± 0.5^*
rowspan="2" style="background:Template:Period color"\| Wenlock	style="background:Template:Period color"\| Homerian		style="background:Template:Period color"\| Template:Period start ± 0.7^*
style="background:Template:Period color"\| Sheinwoodian	style="background:Template:Period color"\| Template:Period start ± 0.8^*
rowspan="3" style="background:Template:Period color"\| Llandovery	style="background:Template:Period color"\| Telychian		style="background:Template:Period color"\| Template:Period start ± 1.1^*
style="background:Template:Period color"\| Aeronian	style="background:Template:Period color"\| Template:Period start ± 1.2^*
style="background:Template:Period color"\| Rhuddanian	style="background:Template:Period color"\| Template:Period start ± 1.5^*
rowspan="7" style="background:Template:Period color"\| Ordovician	rowspan="3" style="background:Template:Period color"\| Late	style="background:Template:Period color"\| Hirnantian	Invertebrates diversify into many new types (e.g., long straight-shelled cephalopods). Early corals, articulate brachiopods (Orthida, Strophomenida, etc.), bivalves, nautiloids, trilobites, ostracods, bryozoa, many types of echinoderms (crinoids, cystoids, starfish, etc.), branched graptolites, and other taxa all common. Conodonts (early planktonic vertebrates) appear. First green plants and fungi on land. Ice age at end of period.	style="background:Template:Period color"\| Template:Period start ± 1.4^*
style="background:Template:Period color"\| Katian	style="background:Template:Period color"\| Template:Period start ± 0.7^*
style="background:Template:Period color"\| Sandbian	style="background:Template:Period color"\| Template:Period start ± 0.9^*
rowspan="2" style="background:Template:Period color"\| Middle	style="background:Template:Period color"\| Darriwilian	style="background:Template:Period color"\| Template:Period start ± 1.1^*
style="background:Template:Period color"\| Dapingian	style="background:Template:Period color"\| Template:Period start ± 1.4^*
rowspan="2" style="background:Template:Period color"\| Early	style="background:Template:Period color"\| Floian (formerly Arenig)	style="background:Template:Period color"\| Template:Period start ± 1.4^*
style="background:Template:Period color"\| Tremadocian	style="background:Template:Period color"\| Template:Period start ± 1.9^*
rowspan="10" style="background:Template:Period color"\| Cambrian	rowspan="3" style="background:Template:Period color"\| Furongian	style="background:Template:Period color"\| Stage 10	Major diversification of life in the Cambrian Explosion. Numerous fossils; most modern animal phyla appear. First chordates appear, along with a number of extinct, problematic phyla. Reef-building Archaeocyatha abundant; then vanish. Trilobites, priapulid worms, sponges, inarticulate brachiopods (unhinged lampshells), and numerous other animals. Anomalocarids are giant predators, while many Ediacaran fauna die out. Prokaryotes, protists (e.g., forams), fungi and algae continue to present day. Gondwana emerges. Petermann Orogeny on the Australian continent tapers off (550–535 Ma). Ross Orogeny in Antarctica. Delamerian Orogeny (c. 514–490 Ma) and Lachlan Orogeny (c. 540–440 Ma) on Australian continent. Atmospheric CO₂ content roughly 15 times present-day (Holocene) levels (6000 ppmv compared to today's 400 ppmv)^[4]Template:Efn	style="background:Template:Period color"\| ~489.5
style="background:Template:Period color"\| Jiangshanian	style="background:Template:Period color"\| ~494^*
style="background:Template:Period color"\| Paibian	style="background:Template:Period color"\| ~Template:Period start^*
rowspan="3" style="background:Template:Period color"\| Miaolingian	style="background:Template:Period color"\| Guzhangian	style="background:Template:Period color"\| ~Template:Period start^*
style="background:Template:Period color"\| Drumian	style="background:Template:Period color"\| ~Template:Period start^*
style="background:Template:Period color"\| Wuliuan	style="background:Template:Period color"\| ~Template:Period start
rowspan="2" style="background:Template:Period color"\| Series 2	style="background:Template:Period color"\| Stage 4	style="background:Template:Period color"\| ~Template:Period start
style="background:Template:Period color"\| Stage 3	style="background:Template:Period color"\| ~Template:Period start
rowspan="2" style="background:Template:Period color"\| Terreneuvian	style="background:Template:Period color"\| Stage 2	style="background:Template:Period color"\| ~Template:Period start
style="background:Template:Period color"\| Fortunian	style="background:Template:Period color"\| ~Template:Period start ± 1.0^*
rowspan="18" style="background:Template:Period color"\| Precambrian Template:Efn	rowspan="10" style="background:Template:Period color"\| Proterozoic Template:Efn	rowspan="3" style="background:Template:Period color"\| Neoproterozoic Template:Efn	style="background:Template:Period color"\| Ediacaran	Good fossils of the first multi-celled animals. Ediacaran biota flourish worldwide in seas. Simple trace fossils of possible worm-like Trichophycus, etc. First sponges and trilobitomorphs. Enigmatic forms include many soft-jellied creatures shaped like bags, disks, or quilts (like Dickinsonia). Taconic Orogeny in North America. Aravalli Range orogeny in Indian Subcontinent. Beginning of Petermann Orogeny on Australian continent. Beardmore Orogeny in Antarctica, 633–620 Ma.			style="background:Template:Period color"\| ~Template:Period start^*
style="background:Template:Period color"\| Cryogenian	Possible "Snowball Earth" period. Fossils still rare. Rodinia landmass begins to break up. Late Ruker / Nimrod Orogeny in Antarctica tapers off.			style="background:Template:Period color"\| ~Template:Period start Template:Efn
style="background:Template:Period color"\| Tonian	Rodinia supercontinent persists. Sveconorwegian orogeny ends. Trace fossils of simple multi-celled eukaryotes. First radiation of dinoflagellate-like acritarchs. Grenville Orogeny tapers off in North America. Pan-African orogeny in Africa. Lake Ruker / Nimrod Orogeny in Antarctica, 1,000 ± 150 Ma. Edmundian Orogeny (c. 920 – 850 Ma), Gascoyne Complex, Western Australia. Deposition of Adelaide Superbasin and Centralian Superbasin begins on Australian continent.			style="background:Template:Period color"\| Template:Period start Template:Efn
rowspan="3" style="background:Template:Period color"\| Mesoproterozoic Template:Efn	style="background:Template:Period color"\| Stenian	Narrow highly metamorphic belts due to orogeny as Rodinia forms. Sveconorwegian orogeny starts. Late Ruker / Nimrod Orogeny in Antarctica possibly begins. Musgrave Orogeny (c. 1,080 Ma), Musgrave Block, Central Australia.			style="background:Template:Period color"\| Template:Period start Template:Efn
style="background:Template:Period color"\| Ectasian	Platform covers continue to expand. Green algae colonies in the seas. Grenville Orogeny in North America.			style="background:Template:Period color"\| Template:Period start Template:Efn
style="background:Template:Period color"\| Calymmian	Platform covers expand. Barramundi Orogeny, McArthur Basin, Northern Australia, and Isan Orogeny, c.1,600 Ma, Mount Isa Block, Queensland			style="background:Template:Period color"\| Template:Period start Template:Efn
rowspan="4" style="background:Template:Period color"\| Paleoproterozoic Template:Efn	style="background:Template:Period color"\| Statherian	First complex single-celled life: protists with nuclei, Francevillian biota. Columbia is the primordial supercontinent. Kimban Orogeny in Australian continent ends. Yapungku Orogeny on Yilgarn craton, in Western Australia. Mangaroon Orogeny, 1,680–1,620 Ma, on the Gascoyne Complex in Western Australia. Kararan Orogeny (1,650 Ma), Gawler Craton, South Australia.			style="background:Template:Period color"\| Template:Period start Template:Efn
style="background:Template:Period color"\| Orosirian	The atmosphere becomes oxygenic. Vredefort and Sudbury Basin asteroid impacts. Much orogeny. Penokean and Trans-Hudsonian Orogenies in North America. Early Ruker Orogeny in Antarctica, 2,000–1,700 Ma. Glenburgh Orogeny, Glenburgh Terrane, Australian continent c. 2,005–1,920 Ma. Kimban Orogeny, Gawler craton in Australian continent begins.			style="background:Template:Period color"\| Template:Period start Template:Efn
style="background:Template:Period color"\| Rhyacian	Bushveld Igneous Complex forms. Huronian glaciation.			style="background:Template:Period color"\| Template:Period start Template:Efn
style="background:Template:Period color"\| Siderian	Oxygen catastrophe: banded iron formations forms. Sleaford Orogeny on Australian continent, Gawler Craton 2,440–2,420 Ma.			style="background:Template:Period color"\| Template:Period start Template:Efn
rowspan="4" style="background:Template:Period color"\| Archean Template:Efn	style="background:Template:Period color"\| Neoarchean Template:Efn	Stabilization of most modern cratons; possible mantle overturn event. Insell Orogeny, 2,650 ± 150 Ma. Abitibi greenstone belt in present-day Ontario and Quebec begins to form, stabilizes by 2,600 Ma.				style="background:Template:Period color"\| Template:Period start Template:Efn
style="background:Template:Period color"\| Mesoarchean Template:Efn	First stromatolites (probably colonial cyanobacteria). Oldest macrofossils. Humboldt Orogeny in Antarctica. Blake River Megacaldera Complex begins to form in present-day Ontario and Quebec, ends by roughly 2,696 Ma.				style="background:Template:Period color"\| Template:Period start Template:Efn
style="background:Template:Period color"\| Paleoarchean Template:Efn	First known oxygen-producing bacteria. Oldest definitive microfossils. Oldest cratons on Earth (such as the Canadian Shield and the Pilbara Craton) may have formed during this period.Template:Efn Rayner Orogeny in Antarctica.				style="background:Template:Period color"\| Template:Period start Template:Efn
style="background:Template:Period color"\| Eoarchean Template:Efn	Simple single-celled life (probably bacteria and archaea). Oldest probable microfossils. The first life forms and self-replicating RNA molecules evolve around 4,000 Ma, after the Late Heavy Bombardment ends on Earth. Napier Orogeny in Antarctica, 4,000 ± 200 Ma.				style="background:Template:Period color"\| ~Template:Period start
rowspan="4" style="background:Template:Period color"\| Hadean Template:Efn Template:Efn	style="background:Template:Period color"\| Early Imbrian (Neohadean) (unofficial)Template:Efn Template:Efn	Indirect photosynthetic evidence (e.g., kerogen) of primordial life. This era overlaps the beginning of the Late Heavy Bombardment of the Inner Solar System, produced possibly by the planetary migration of Neptune into the Kuiper belt as a result of orbital resonances between Jupiter and Saturn. Oldest known rock (4,031 to 3,580 Ma).^[7]				style="background:Template:Period color"\| 4130^[8]
style="background:Template:Period color"\| Nectarian (Mesohadean) (unofficial)Template:Efn Template:Efn	Possible first appearance of plate tectonics. This unit gets its name from the lunar geologic timescale when the Nectaris Basin and other greater lunar basins form by big impact events. Earliest evidence for life based on unusually high amounts of light isotopes of carbon, a common sign of life.				style="background:Template:Period color"\| 4280^[8]
style="background:Template:Period color"\| Basin Groups (Paleohadean) (unofficial)Template:Efn Template:Efn	End of the Early Bombardment Phase. Oldest known mineral (Zircon, 4,404 ± 8 Ma).^[9] Asteroids and comets bring water to Earth.^[10]				style="background:Template:Period color"\| 4533^[8]
style="background:Template:Period color"\| Cryptic (Eohadean) (unofficial)Template:Efn Template:Efn	Formation of Moon (4,533 to 4,527 Ma), probably from giant impact, since the end of this era. Formation of Earth (4,570 to 4,567.17 Ma), Early Bombardment Phase begins. Formation of Sun (4,680 to 4,630 Ma) .				style="background:Template:Period color"\| Template:Period start

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The origin and formation of the Solar System

https://en.wikipedia.org/wiki/Formation_and_evolution_of_the_Solar_System

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The big bang

The big bang

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The big bang

↑ Template:Cite journal
↑ ^2.0 ^2.1 Tyson, Peter (October 2009). "NOVA, Aliens from Earth: Who's who in human evolution". PBS. Retrieved 2009-10-08.
↑ https://digitalcommons.bryant.edu/cgi/viewcontent.cgi?article=1010&context=honors_science
↑ ^4.0 ^4.1 ^4.2 ^4.3 Template:Cite journal
↑ "Here's What the Last Common Ancestor of Apes and Humans Looked Like".
↑ Template:Cite journal
↑ Template:Cite journal The oldest rock on Earth is the Acasta Gneiss, and it dates to 4.03 Ga, located in the Northwest Territories of Canada.
↑ ^8.0 ^8.1 ^8.2 Cite error: Invalid <ref> tag; no text was provided for refs named goldblatt2010
↑ Template:Cite journal
↑ "Geology.wisc.edu" (PDF).

[1] Template:Cite journal

[auto-2] 2.0 ^2.1 Tyson, Peter (October 2009). "NOVA, Aliens from Earth: Who's who in human evolution". PBS. Retrieved 2009-10-08.

[3] ttps://digitalcommons.bryant.edu/cgi/viewcontent.cgi?article=1010&context=honors_science

[Royer-4] 4.0 ^4.1 ^4.2 ^4.3 Template:Cite journal

[5] "Here's What the Last Common Ancestor of Apes and Humans Looked Like".

[6] Template:Cite journal

[Oldest-rock-7] Template:Cite journal The oldest rock on Earth is the Acasta Gneiss, and it dates to 4.03 Ga, located in the Northwest Territories of Canada.

[goldblatt2010-8] 8.0 ^8.1 ^8.2 Cite error: Invalid <ref> tag; no text was provided for refs named goldblatt2010

[9] Template:Cite journal

[geology-wisc-edu-10] "Geology.wisc.edu" (PDF).

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The origin and formation of the Universe, the Solar System, and the Earth

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