Detailed logarithmic timeline
This timeline shows the whole history of the universe, the Earth, and humanity in one table. Each row is defined in years ago, that is, years before the present date, with the earliest times at the top of the chart. In each table cell on the right, references to events or notable people are given, more or less in chronological order within the cell.
Each row corresponds to a change in log (time before present) of about 0.1 (using log base 10), similar to Renard numbers.
Past
13.8 billion years ago to 3.5 billion years ago
Time interval, before the present time. a=annus (year) | Period | Event, invention or historical development |
---|---|---|
13.8 Ga – 11 Ga |
Big Bang, Stars and galaxies, earliest quasars, habitable epoch[1][2][3] NGC 6522 star cluster forms, at least 12 Ga ago. Omega Centauri star cluster forms. | |
11 Ga – 8.7 Ga |
Gliese 876 and its planets form[4] | |
8.7 Ga – 6.9 Ga | ||
6.9 Ga – 5.5 Ga |
Birth of Alpha Centauri | |
5.5 Ga – 4.4 Ga |
Formation of Sun, Solar System, Earth | |
4.4 Ga – 3.5 Ga |
End of Hadean eon, beginning of Archaean eon |
Late Heavy Bombardment. Origin of life. Earliest evidences for life on Earth: unusually high amounts of light isotopes of carbon, a common sign of life, found in mineral deposits aged 4.25 Ga located in the Jack Hills of Western Australia;[5] graphite found to be biogenic in metasedimentary rocks aged 3.7 Ga discovered in Western Greenland.[6] |
3.5 billion years ago to 870 million years ago
Time interval, before the present time. a=annus (year) | Period | Event, invention or historical development |
---|---|---|
3.5 Ga – 2.7 Ga | Archaean eon |
Microbial mat fossils found in sandstone aged 3.48 Ga discovered in Western Australia.[7][8] Stromatolites, Cyanobacteria (photosynthesis).[9] Stabilisation of cratons. Sterane biomarkers possibly indicate first eukaryotes. Possible largest crater on earth near Maniitsoq, Greenland.[10] |
2.7 Ga – 2.2 Ga | End of Archaean, beginning of Paleoproterozoic era |
Oxygen revolution. Beginning of Huronian glaciation. |
2.2 Ga – 1.7 Ga | Paleoproterozoic era |
End of Huronian glaciation. Grypania fossils. First unambiguous Cyanobacteria fossils, in Belcher Islands.[9] Bolide over 10 km in size creates Vredefort crater. Milky Way perturbed by collision.[11] Oxygen levels briefly plummet (possibly).[9] 10-km diameter bolide creates Sudbury Basin. Columbia supercontinent. Traces of 24-isopropylcholestane, possibly from sponges. Fossils of filamentous algae. |
1.7 Ga – 1.4 Ga | End of Paleoproterozoic, beginning of Mesoproterozoic era |
Erosion of granite introduces copper, zinc, and molybdenum into surface waters.[12] |
1.4 Ga – 1.1 Ga | Mesoproterozoic era |
Eukaryotes found in lakes.[13] |
1.1 Ga – 870 Ma | End of Mesoproterozoic, beginning of Neoproterozoic era. Tonian period |
Coming together of Rodinia supercontinent. Appearance of sex (possibly). Sturtian-Varangian or Cryogenian glaciation begins. Traces of sponge-like animals.[14][15] |
870 million years ago to 210 million years ago
Time interval, before the present time. a=annus (year) | Period | Event, invention or historical development |
---|---|---|
870 Ma – 690 Ma | Cryogenian period |
Breakup of Rodinia, Sturtian-Varangian or Cryogenian glaciation, possible Snowball Earth, volcanism on Venus practically stops |
690 Ma – 550 Ma | End of Cryogenian, beginning of Ediacaran period |
Pannotia supercontinent forms, then breaks up into Laurentia, Gondwana, Angaraland and Baltica. First non-microscopic life (Ediacaran biota). Rangeomorphs. First fossils of animals. Cambrian explosion. Fish-like Myllokunmingia, Haikouichthys, & Pikaia. First conodonts. All modern mineralized phyla present.[16] Arthropods dominant until arrival of chambered nautili [17] Earth becomes very hot.[18] |
550 Ma – 430 Ma |
End of Ediacaran. Cambrian period (541–485 Ma) - Ordovician (485–443 Ma)- beginning of Silurian (443–419 Ma) |
End-Botomian mass extinction. First fossils of plants and fungi on land.[19] Great Ordovician Biodiversification Event. Collision of asteroids gives rise to L chondrite group of meteoroids and several craters ca. 470 Ma ago (Ordovician meteor event).[20] First starfish, sea urchins, oysters, scallops, placoderms, cartilaginous fish (such as sharks) and bony fish. First clear evidence of land arthropods (scorpions).[19] Andean-Saharan glaciation. Ordovician-Silurian extinction events. |
430 Ma – 340 Ma |
End of Silurian - Devonian (416-359 Ma) - Carboniferous (359-299 Ma) |
First Labyrinthodontia, the group that now includes reptiles and mammals. Tiktaalik (lungfish) walks on land. Ichthyostega. First amphibians, archaeopteris (tree ferns), seeds, coelacanths. Late Devonian extinctions, culminating in the Hangenberg event and atmospheric oxygen falling to 13%. Few arthropods left on land.[19] Beginning of Karoo Ice Age. Romer's gap in the tetrapod record. |
340 Ma – 270 Ma |
Carboniferous, Permian (299-252 Ma) |
Karoo Ice Age. Formation of Pangaea supercontinent. Oxygen levels rise and animals colonize the land a second time.[19] First winged insects and reptiliomorphs such as Solenodonsaurus, synapsids (forerunners of mammals), and reptiles. Oxygen in atmosphere peaks, around 30%.[19] Carboniferous Rainforest Collapse. Cycads, seed ferns. Therapsids (forerunners of mammals) such as pelycosaurs and cynodonts. |
270 Ma – 210 Ma | Triassic (252–201 Ma) |
End-Capitanian extinction event.[21] Siberian Traps eruption and Permian-Triassic extinction event. Dinosaur tracks.[22][23] 40 °C sea temperatures during Smithian-Spathian extinction. Turtles. Dominance of archosaurs: crocodile-like Crurotarsi. First pterosaurs, ichthyosaurs. Dinosaurs. Gymnosperms dominant. Dicroidium flora common on land. Manicouagan Crater formed. First lizards. |
210 million years ago to 40 million years ago
Time interval, before the present time. a=annus (year) | Period | Event, invention or historical development |
---|---|---|
210 Ma – 170 Ma |
Triassic, Jurassic (201–145 Ma) |
Central Atlantic eruption and Triassic–Jurassic extinction event. Oxygen in atmosphere hits low of about 12%.[19] Breakup of Pangaea into Gondwana and Laurasia. Mammals. Gymnosperms (especially conifers, Bennettitales, and cycads) and ferns common. Sauropods, carnosaurs, stegosaurs. Toarcian turnover (extinction). Gondwana breaks up. Juramaia sinensis, first known placental mammal. |
170 Ma – 130 Ma | Jurassic, Early Cretaceous (145 – 100 Ma) |
First birds (Archaeopteryx). Flowering plants. |
130 Ma – 100 Ma | Aptian & Albian stages of the Cretaceous |
India breaks from East Gondwana. Ontong Java eruption. First known snakes. Early-Aptian anoxic event. Seas cool by 5 °C during 2 million years.[24] Earliest known monotreme fossils. Sinodelphys, earliest known marsupial. Eomaia, earliest known eutherian. Bees. |
100 Ma – 80 Ma | Late Cretaceous: Cenomanian, Turonian, Coniacian, Santonian |
Mammals diversify into many forms.[25] Cenomanian-Turonian boundary event (oceans anoxic for half a million years).[26] Crocodilia. |
80 Ma – 63 Ma | Campanian & Maastrichtian stages of the Cretaceous |
Dominance of angiosperm rosids. Evidence for grasses in dinosaur dung (coprolites). Madagascar breaks away from India. Bolide creates Chicxulub Crater. Deccan Traps. Possible Shiva crater. Cretaceous-Tertiary Extinction Event. |
63 Ma – 50 Ma |
Mammals dominate. Titanoboa, largest known snake. Eritherium, first known proboscid. Lemurs. Paleocene-Eocene Thermal Maximum. First creodonts. First equid, the Eohippus or Hyracotherium. Andes mountains begin to rise. | |
50 Ma – 40 Ma | Eocene |
Azolla event. India collides with Asia, giving rise to the Himalayas. First cetaceans (whales) and simians, first elephant-like animal, the Moeritherium. |
40 million years ago to 10 million years ago
Time interval, before the present time. a=annus (year) | Period | Event, invention or historical development |
---|---|---|
40 Ma – 32 Ma | Eocene, beginning of Oligocene (34 – 23 Ma) |
Grasses common. 100-km Popigai crater in Siberia. 2-mile (3.2 km) diameter bolide creates 90-km Chesapeake Bay impact crater in North America. Tasmanian Seaway and Drake Passage open, allowing creation of the Antarctic Circumpolar Current. Baleen whales appear. |
32 Ma – 25 Ma | Oligocene |
Gould Belt of stars created.[27] Alps begin to rise. First indricotheria, "hornless rhinoceros" about 6 metres high. Primates cross Atlantic to South America and become New World monkeys. Explosive eruption of La Garita Caldera in Colorado. |
25 Ma – 20 Ma | Miocene, Aquitanian age |
Pelagornis sandersi, largest known flying bird with a wingspan of 6 or 7 metres. Puijila darwini, early pinniped. Dawn bear - ancestor of bears. Daeodon shoshonensis (a "terminator pig"). |
20 Ma – 16 Ma | Miocene, Burdigalian age |
First Megatherium americanum, a giant sloth. First deinotheres, similar to an elephant but with tusks on lower jaw. |
16 Ma – 12.6 Ma | Miocene, Langhian age, Serravallian age |
Antarctica becomes mostly ice-covered. Africa/Arabia collides with Eurasia, end of Tethys Sea. Columbia River basalts. Nördlinger Ries impact crater. Mid-Miocene Climatic Optimum, Middle Miocene disruption. Hominidae split from gibbons. |
12.6 Ma – 10 Ma | Miocene, Serravallian age, Tortonian age |
Last of the adapiforms. Anoiapithecus, one of the first hominids, in Spain. |
10 million years ago to 2.5 million years ago
Time interval, before the present time. a=annus (year) | Period | Event, invention or historical development |
---|---|---|
10 Ma – 8 Ma | Miocene, Tortonian age |
First Gigantopithecus, an ape almost 10 feet (3.0 m) tall. |
8 Ma – 6.3 Ma | Miocene, Tortonian age, Messinian age |
C4 grasses become common. Crocodiles cross the Atlantic to America.[28] "Toumaï", of species Sahelanthropus tchadensis, shows some human traits. First Thylacosmilus, sabre-toothed marsupial of South America. |
6.3 Ma – 5 Ma | Miocene, Messinian age |
Mediterranean Sea dries up (Messinian Event). 52-km Karakul crater in Tajikistan. Orrorin tugenensis, possible hominin. |
5 Ma – 4 Ma | Pliocene |
Ardipithecus ramidus, Australopithecus anamensis. Divergence of polar bears and brown bears. |
4 Ma – 3.2 Ma | Pliocene |
Human bipedalism. First Australopithecus afarensis. Hominid fossil footprints in Laetoli, Tanzania. Evidence of use of stone tools by A. afarensis.[29][30] Human line loses fur (possibly).[31] |
3.2 Ma – 2.5 Ma | Pliocene |
Isthmus of Panama connects South and Central America, giving rise to the Great American Interchange. Lucy, member of the species Australopithecus afarensis. Oldowan tools used near Gona, Ethiopia |
2.5 million years ago to 630,000 years ago
Time interval, before the present time. a=annus (year) | Period | Event, invention or historical development |
---|---|---|
2.5 Ma – 2 Ma | Paleolithic begins, Lower Paleolithic |
Beginning of the current ice age, known as the Quaternary glaciation. Homo habilis appears. Island Park Caldera in Wyoming and Idaho. |
2 Ma – 1.6 Ma | Beginning of Pleistocene |
Homo erectus appears. Human-like Australopithecus sediba. Homo ergaster in Africa. First signs of Acheulian culture, in Kenya. Dmanisi Man (Homo erectus georgicus) in Dmanisi, Georgia and in Xiaochangliang, China. First true hand-axes. Last known terror birds. |
1.6 Ma – 1.26 Ma |
Homo erectus found in Europe. Giant megalodon shark goes extinct. Henry's Fork Caldera in Idaho erupts. | |
1.26 Ma – 1 Ma |
Stone artifacts on Flores, made by hominins.[32] This required crossing seas at least 19 km wide.[33] | |
1 Ma – 800 ka |
14-km Zhamanshin Crater formed in Kazakhstan. Hominin footprints and tools in England. | |
800 ka – 630 ka | Günz glaciation |
Evidence of use of fire (Daughters of Jacob Bridge, Palestine).[34] Brunhes–Matuyama geomagnetic reversal. Yellowstone Caldera supervolcano spreads ash over North America. Homo antecessor in Spain. |
630,000 years ago to 126,000 years ago
Time interval, before the present time. a=annus (year) | Period | Event, invention or historical development |
---|---|---|
630 ka – 500 ka | Günz-Mindel interglacial |
Cut marks on human bones indicate cannibalism.[35] Stone points (possibly for spears) used by Homo heidelbergensis in South Africa. |
500 ka – 400 ka | Günz-Mindel interglacial Mindel glaciation |
Etching on shell at Trinil in East Java, done by Homo erectus.[36] Homo heidelbergensis in Germany, France, and Greece. Oldest known spear, Clacton-on-Sea.[37] |
400 ka – 320 ka | Mindel glaciation |
Homo heidelbergensis footprints in Italy (Ciampate del Diavolo). Venus of Tan-Tan (300 to 500 ka ago) and Venus of B'rekhat Ram (233 to 800 ka ago). First appearance of proto-Neanderthal traits. Estimated time of Y-chromosomal Adam.[38] |
320 ka – 250 ka | Yarmouthian Stage |
Geminga supernova may have begun the creation of the Local Bubble. |
250 ka – 200 ka | Yarmouthian Stage |
Strait of Dover formed. Apparent date of stone tools at the Hueyatlaco site in Mexico. |
200 ka – 160 ka | Illinoian Stage (Riß glaciation) |
First traces of Homo sapiens (Omo remains). Use of ochre, fine stone blades, and seafood at Pinnacle Point, SA (164±12ka ago).[40] Evidence for use of fire to pre-treat stone for making blades.[41] |
160 ka – 126 ka | Ca. 158,000 – ca. 124,000 BCE Illinoian Stage (Riß glaciation) |
Appearance of full-blown Neanderthal traits. Stone tools in Crete (40 km from nearest neighboring land). |
126,000 years ago to 25,000 years ago
Time interval, before the present time. a=annus (year) | Period | Event, invention or historical development |
---|---|---|
126 ka – 100 ka | Ca. 124,000 – ca. 98,000 BCE Eemian interglacial |
Estimated time of Mitochondrial Eve. Temperatures generally higher than today during the Eemian interglacial. Late Eemian Aridity Pulse. Shells with holes, probably used as beads, at the Es Skhul cave on Mount Carmel. Abbassia Pluvial. Paint made at Blombos Cave.[42] |
100 ka – 80 ka | Ca. 98,000 – ca. 78,000 BCE Beginning of Würm glaciation |
First evidence of metre-high Flores Man on the island of Flores (Indonesia). Human burial at Qafzeh in Israel. Remains of string in France.[43] Shell beads in Taforalt Caves, Morocco. |
80 ka – 63 ka | Ca. 78,000 – ca. 61,000 BCE |
Tools made in Kota Tampan, Malaysia, probably by Homo sapiens. Abstract designs engraved on ochre, and pressure flaking, at Blombos Cave in South Africa. Use of glue, arrowhead-like projectile points, and insecticidal Cape Laurel for bedding at Sibudu Cave in South Africa. Supervolcano Toba in Indonesia erupts, covering India and Pakistan with ash and starting a 1,000-year ice age. Humans begin to use clothing. Humans on Luzon, Philippines.[44] |
63 ka – 50 ka | Ca. 61,000 – ca. 48,000 BCE |
Sewing needle-like implement used at Sibudu Cave, South Africa. Engraved ostrich eggs at Diepkloof Rock Shelter. Humans enter Tibetan plateau. Mousterian culture. Last evidence of Homo erectus[45] |
50 ka – 40 ka | Ca. 48,000 – ca. 38,000 BCE |
Neandertal Divje Babe flute - prehistoric music. Mining of hematite at the Lion Cave in Swaziland. Mungo Man in Australia. Deep sea fishing.[46] Brief geomagnetic Laschamp Excursion. 50-metre diameter asteroid creates 1.2-km Meteor Crater in Arizona. Homo sapiens in Peștera cu Oase, Romania and in Tianyuan Cave, China. Oldest dated cave decoration (red ochre dot, in Caves of Monte Castillo, Spain). Neanderthals disappear. |
40 ka – 32 ka | Ca. 38,000 – ca. 30,000 BCE Beginning of Upper Paleolithic |
Needles and sewing. Shoes. Beginnings of Aurignacian culture. Paleolithic flutes and Venus of Hohler Fels, First Cro Magnon people. Human presence in Japan. Oldest known skull of a dog (Siberia), with wolf-like teeth.[47] Lion man ivory sculpture. |
32 ka – 25 ka | Ca. 30,000 – ca. 23,000 BCE |
Stone mortar and pestle used to grind fern and cattail tubers.[48][49] Chauvet Cave paintings. Impression of rope on fired clay.[50] Avian figurine in ivory and stone phallus of Hohler Fels.[51] Venus of Dolní Věstonice (first known ceramic). End of Aurignacian culture, beginning of Gravettian. Imprint of woven cloth in clay (Czech Republic). Venus of Lespugue (ivory sculpture). First known spear thrower or atlatl. Oruanui eruption in New Zealand. |
25,000 years ago to 6,300 years ago
Time interval, before the present time. a=annus (year) | Period | Event, invention or historical development |
---|---|---|
25 ka – 20 ka | Ca. 23,000 – ca. 18,000 BCE |
Venus of Brassempouy (carving of face). Lapedo child with mixture of Neanderthal and sapiens features at Lagar Velho Portugal. End of Gravettian culture, beginning of Solutrean. Ishango Bone, thought by some to be a tally stick which may show a prime number sequence. 1.9-km Tenoumer crater in Mauritania. Claimed presence of Australian aborigine-type people in Brazil.[52][53] |
20 ka – 16 ka | Ca. 18,000 – ca. 14,000 BCE |
First clear evidence of building (homes),[54] remains of mud huts at Ohalo, by Sea of Galilee. Pottery sherds at Xianren Cave. Reported date of artefacts found on Cactus Hill in Virginia.[55] Disappearance of Solutrean. Beginning of Magdalenian culture. Clay figurines of animals.[56] Lascaux cave paintings and 7mm-diameter rope. |
16 ka – 12.6 ka | Ca. 14,000 – ca. 10,600 BCE |
Red Deer Cave people, a possible separate species of Homo in China. Stone tools at the Buttermilk Creek Complex in Texas. Evidence of massacre at Cemetery 117. Older Dryas cold spell. Most recent glaciation gradually ends. Sea level rises 30 metres in a few hundred years (Meltwater pulse 1A). Clovis culture in Americas. Beginning of Natufian culture in Levant. Outburst of water from Lake Agassiz or Younger Dryas impact event bring about the Younger Dryas cold spell. Extinction of many species of large animals. |
12.6 ka – 10 ka | Ca. 10,600 – ca. 8,000 BCE. End of Pleistocene, beginning of Holocene. Transition from Mesolithic to Neolithic. |
Natufian Shaman burial[57] and earliest known banquet.[58] Vela Supernova only 800 ly away. Island of Spartel flooded (possible site of Atlantis). Arrow-shaft straighteners used by Natufian culture in the Levant. Neolithic revolution (agriculture begins, domestication of animals). Göbekli Tepe (temple-like monuments and art). Lime. Earliest layers of Jericho – first known monumental building (stone tower 8 m high). Copper pendant in Iraq. Toothpicks and birch-bark chewing gum. Sea rises about 20 m in 9th millennium BCE. Possible lunar time reckoner at Warren Field in Aberdeenshire.[59] |
10 ka – 8 ka | Pre-Pottery Neolithic B in Mideast, 8th millennium BCE, 7th millennium BCE |
Kennewick Man in Washington, whose skull was different from modern Native Americans. Oldest cloth yet found (Çayönü). Oldest evidence of alcoholic beverage, in China. Dentistry. Trepanation. Lake Agassiz largely empties into the Hudson Bay. Finse event, a 300-year cold spell. Storegga tsunami. Mount Etna causes tsunami, possibly ending Atlit Yam settlement. Smelted lead, pottery & finger rings at Çatal Höyük. Opium |
8 ka – 6.3 ka | Ubaid period. 6th millennium BCE, 5th millennium BCE |
Wine and beer. Cheesemaking (Poland). Sea rises 15–20 m in 6th millennium BCE, flooding Doggerland and cutting off Britain. Holocene thermal maximum brings temperatures warmer than today. Older Peron "transgression" (high sea level). Sahara region not a desert (Neolithic Subpluvial). Megaliths. Domestication of the horse. Pottery revolutionized by the potter's wheel. Earliest known smelting of copper (Serbia). Oldest wrought gold known, in Varna necropolis. Last mastodons. |
6,300 years ago to 1,600 years ago
1,600 years ago to 320 years ago
320 years ago to 80 years ago
80 years ago to 16 years ago
16 years ago to 4 years ago
4 years ago to present
Future
A logarithmic timeline can also be devised for events which should occur in the future, barring unforeseen circumstances and assuming that we can extrapolate into the future based on our science.
Time interval | Event |
---|---|
1 – 10 years (2015–2025) | |
10 – 100 years (2025–2115) | Global warming |
100 – 1000 years (2115-3015) | |
1000 – 10 ka (3015-12 015 CE) | Summer and winter constellations switch, north celestial pole moves far from present North Star |
10 ka – 100 ka (12 015 - 102 015CE) | Presently used Computus will give Paschal Full Moon at new moon.
Present constellations become unrecognizable. Hebrew Calendar out of sync with seasons. |
100 ka – 1 Ma | Gregorian Calendar out of sync with seasons.
Several supervolcanoes erupt. Strait of Gibraltar closes, Mediterranean Sea dries up. |
1 Ma – 10 Ma | Technetium-99 produced today ceases to be dangerous
Several kilometre-size asteroids or comets on collision course with Earth. Gliese 710 comes within about a lightyear of the sun. The Afar Depression and the East African Rift become a new sea, splitting Africa. |
10 Ma – 100 Ma | Mediterranean basin closes.
Iodine-129 and Neptunium-237 in nuclear waste decay. |
100 Ma – 1 Ga | Different continents from today due to splitting and coalescence. |
1 Ga – 10 Ga | Hotter sun makes land too hot for life.
Oceans evaporate. Possible Andromeda–Milky Way collision. |
10 Ga – 100 Ga |
Sun becomes a white dwarf Uranium decays away. Rhenium-187 decays away. |
100 Ga – 1 Ta | White dwarf Sun fades away.
Local Group coalesces. Thorium decays away. |
1 Ta – 10 Ta |
Galaxies outside Local Supercluster no longer visible (if dark energy prevails). Proxima Centauri ceases to be a main-sequence star. |
10 Ta – 100 Ta | Star formation ends, so does the Stelliferous Era. The Degenerate Era starts. |
100 Ta – 1 Pa | Nuclear fusion ceases (if not sooner).
Sun becomes black dwarf. |
1 Pa – 10 Pa | Planets fall or are flung away from their stars. |
10 Pa – 100 Pa | |
100 Pa – 1 exaannus | |
1 Ea – 10 Ea | |
10 Ea – 100 Ea | Bismuth decays into lead and mercury. |
100 Ea – 1 zettaannus |
See also
References
- ↑ Loeb, Abraham (October 2014). "The Habitable Epoch of the Early Universe". International Journal of Astrobiology 13 (04): 337–339. arXiv:1312.0613. Bibcode:2014IJAsB..13..337L. doi:10.1017/S1473550414000196. Retrieved 15 December 2014.
- ↑ Loeb, Abraham (2 December 2013). "The Habitable Epoch of the Early Universe" (PDF). Arxiv. arXiv:1312.0613v3. Retrieved 15 December 2014.
- ↑ Dreifus, Claudia (2 December 2014). "Much-Discussed Views That Go Way Back - Avi Loeb Ponders the Early Universe, Nature and Life". New York Times. Retrieved 3 December 2014.
- ↑ Saffe, C.; Gómez, M.; Chavero, C. (November 2005). "On the Ages of Exoplanet Host Stars". Astronomy and Astrophysics 443 (2): 609–626. arXiv:astro-ph/0510092. Bibcode:2005A&A...443..609S. doi:10.1051/0004-6361:20053452.
- ↑ Courtland, Rachel (July 2, 2008). "Did newborn Earth harbour life?". New Scientist. Retrieved April 13, 2014.
- ↑ Yoko Ohtomo, Takeshi Kakegawa, Akizumi Ishida, Toshiro Nagase, Minik T. Rosing (8 December 2013). "Evidence for biogenic graphite in early Archaean Isua metasedimentary rocks". Nature Geoscience. doi:10.1038/ngeo2025. Retrieved 9 Dec 2013.
- ↑ Borenstein, Seth (13 November 2013). "Oldest fossil found: Meet your microbial mom". AP News. Retrieved 15 November 2013.
- ↑ Noffke, Nora; Christian, Daniel; Wacey, David; Hazen, Robert M. (8 November 2013). "Microbially Induced Sedimentary Structures Recording an Ancient Ecosystem in the ca. 3.48 Billion-Year-Old Dresser Formation, Pilbara, Western Australia". Astrobiology (journal) 13 (12): 1103–24. Bibcode:2013AsBio..13.1103N. doi:10.1089/ast.2013.1030. PMC 3870916. PMID 24205812. Retrieved 15 November 2013.
- 1 2 3 "First breath: Earth's billion-year struggle for oxygen" by Nick Lane, New Scientist, 6 Feb. 2010, pp.36-9. See accompanying graph as well. A recent article though claims oxygen levels were very low until 800 Ma ago: Noah Planavsky; et al. (31 October 2014). "Low Mid-Proterozoic atmospheric oxygen levels and the delayed rise of animals". Science. Bibcode:2014Sci...346..635P. doi:10.1126/science.1258410.
- ↑ "Earth's oldest impact crater found in Greenland" by Andy Coghlan, New Scientist, 29 June 2012.
- ↑ "Milky Way still reeling from ancient smash", New Scientist, Feb. 21, 2009.
- ↑ "Sex born from hard rock and heavy metal" by Will Ferguson, New Scientist, 23 June 2012, pp. 10-11.
- ↑ "Ancient lakes show when eukaryotic life left the sea" by Colin Barras, New Scientist, April 16, 2011, p. 20. "Earth’s earliest non-marine eukaryotes" by Paul Strother et al., Nature, 13 April 2011.
- ↑ "Earliest animal traces solve timegap mystery", New Scientist, 11 May 2009, p. 12.
- ↑ "Dawn of the animals: Solving Darwin's dilemma" by Douglas Fox and Michael Le Page, New Scientist, 8 July 2009, pp. 38-41
- ↑ Landing, E.; English, A.; Keppie, J. D. (2010). "Cambrian origin of all skeletalized metazoan phyla--Discovery of Earth's oldest bryozoans (Upper Cambrian, southern Mexico)". Geology 38 (6): 547. Bibcode:2010Geo....38..547L. doi:10.1130/G30870.1.
- ↑ "Nautilus: Chambers of secret life" by Peter Ward, New Scientist, 5 April 2008.
- ↑ Catherine Brahic (Jan 18, 2014). "Volcanic mayhem drove major burst of evolution". New Scientist: 6–7.
- 1 2 3 4 5 6 Peter Ward (April 28, 2007). "Oxygen – the breath of life". New Scientist: 38–41. See also accompanying graph.
- ↑ "Mystery fossil rock may be chip off life-inspiring block". New Scientist: 15. Jul 5, 2014.
- ↑ Jeff Hecht (Oct 25, 2014). "'Missing' disaster led to all-time worst extinction". New Scientist: 6–7.
- ↑ "Meet the oldest dino ancestor yet", New Scientist, 6 Oct. 2010.
- ↑ "Footprints pull origin and diversification of dinosaur stem lineage deep into Early Triassic" by Stephen L. Brusatte1, Grzegorz Niedźwiedzki and Richard J. Butler, Proc. Roy. Soc. B, 2010.
- ↑ McAnena, A.; et al. (June 16, 2013). "Atlantic cooling associated with a marine biotic crisis during the mid-Cretaceous period". Nature Geoscience. Bibcode:2013NatGe...6..558M. doi:10.1038/ngeo1850.
- ↑ http://www.newscientist.com/channel/life/mg19325975.100-mammals-not-such-late-developers-after-all.html
- ↑ http://environment.newscientist.com/channel/earth/mg19926655.300-submarine-eruption-bled-earths-oceans-of-oxygen.html
- ↑ "Orion's dark secret: Violence shaped the night sky", New Scientist, 21 Nov. 2009, pp. 42-5.
- ↑ "Crocodiles swam the Atlantic to reach America", by Michael Marshall, New Scientist, May 14, 2011, p. 16.
- ↑ McPherron, Shannon P.; Zeresenay Alemseged; Curtis W. Marean; Jonathan G. Wynn; Denne Reed; Denis Geraads; Rene Bobe; Hamdallah A. Bearat (2010). "Evidence for stone-tool-assisted consumption of animal tissues before 3.39 million years ago at Dikika, Ethiopia". Nature 466 (7308): 857–860. Bibcode:2010Natur.466..857M. doi:10.1038/nature09248. PMID 20703305.
- ↑ Nic Fleming (Aug 11, 2010). "Early humans were butchers 3.4 million years ago". New Scientist.
- ↑ Elaine Morgan (16 Sep 2009). "Why are we the naked ape?". New Scientist.
- ↑ "Hominins on Flores, Indonesia, by one million years ago", Nature 464, pp. 748-752 (1 April 2010), doi:10.1038/nature08844
- ↑ Tim Thwaites (March 14, 1998). "Ancient mariners - Early humans were much smarter than we suspected". New Scientist: 6.
- ↑ "Charred remains may be earliest human fires", New Scientist, April 29, 2004.
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- ↑ http://www.newscientist.com/channel/being-human/mg19626265.200-early-modern-humans-had-a-taste-for-seafood.html
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- ↑ "Oldest artists workshop in the world discovered", by Andy Coghlan, New Scientist, 22 Oct. 2011, p. 20
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- ↑ "Mystery seafaring ancestor found in the Philippines" by Jeff Hecht, New Scientist, 12 June 2010, p. 16.
- ↑ "Gigantic volcano did not decimate humans", New Scientist, 14 July 2007, p. 19
- ↑ "Deep sea fishing for tuna began 42000 years ago" by Wendy Zukerman, New Scientist, 3 Dec. 2011, p. 16
- ↑ Christine Dell'Amore (Aug 19, 2011). "Ancient Dog Skull Shows Early Pet Domestication". National Geographic.
- ↑ "Stone Age humans liked their burgers in a bun", Sonia Van Gilder Cooke, New Scientist, 23 Oct. 2010, p. 18.
- ↑ "Thirty thousand-year-old evidence of plant food processing" by Anna Revedin et al., PNAS, published online Oct. 18, 2010.
- ↑ Small, Meredith F. (April 2002), "String theory: the tradition of spinning raw fibers dates back 28,000 years", Natural History, 111.3: 14(2)
- ↑ Amos, Jonathan (25 July 2005). "Ancient phallus unearthed in cave". BBC News.
- ↑ "First Americans were Australian". BBC. Aug 26, 1999.
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- ↑ Rob Dunn (Aug 23, 2014). "Meet the lodgers: Wildlife in the great indoors". New Scientist: 34–37.
- ↑ "Were the First Americans European?" Scientific American Frontiers on PBS.
- ↑ See picture in Christopher Kemp (Dec 21, 2013). "Kalahari trackers who read ice-age life in footprints". New Scientist: 64–66.
- ↑ "Ancient remains are of earliest known shaman" New Scientist, 8 Nov. 2008, p. 16.
- ↑ "Tortoise banquet: Remains of the oldest feast found" by Michael Marshall, New Scientist, Aug. 30, 2010.
- ↑ Colin Barras (Oct 25, 2014). "Transformers: 10 revolutions that made us human". New Scientist: 32–36.
- ↑ Willcox, Michael (2000). "Soap". In Hilda Butler. Poucher's Perfumes, Cosmetics and Soaps (10th ed.). Dordrecht: Kluwer Academic Publishers. p. 453. ISBN 0-7514-0479-9.
The earliest recorded evidence of the production of soap-like materials dates back to around 2800 BCE in ancient Babylon.
- ↑ "Babylon and the square root of 2" by John Carlos Baez and Richard Elwes.
- ↑ Stuart Clark (Aug 10, 2013). "Solar superflares: A new danger from the sun". New Scientist: 46–49.
- ↑ Colin Barras (Sep 29, 2012). "Earth cracking up under Indian Ocean". New Scientist: 10.