Timeline of paleontology
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- 6th century B.C. — The pre-Socratic Greek philosopher Xenophanes of Colophon argues that fossils of marine organisms show that dry land was once under water.
- 1027 — The Persian naturalist, Avicenna, explains the stoniness of fossils in The Book of Healing by proposing the theory of petrifying fluids (succus lapidificatus).
- 1031-1095 — The Chinese naturalist, Shen Kuo, uses evidence of marine fossils found in the Taihang Mountains to infer geological processes caused shifting of seashores over time, and uses petrified bamboos found underground in Yan'an, to argue for gradual climate change.
- 1320-1390 — Avicenna's theory of petrifying fluids (succus lapidificatus) was elaborated on by Albert of Saxony.
- 1665 — In his book Micrographia Robert Hooke compares petrified wood to wood, concludes that petrified wood formed from wood soaked in mineral-rich water, and argues fossils like Ammonite shells, were produced the same way, sparking debate over the organic origin of fossils and the possibility of extinction.
- 1669 — Nicholas Steno writes that some kinds of rock formed from layers of sediment deposited in water, and that fossils were organic remains buried in the process.
- 1770 — The fossilised bones of a huge animal are found in a quarry near Maastricht in the Netherlands. In 1808 Georges Cuvier identified it as an extinct marine reptile and in 1822 William Conybeare named it Mosasaur.
- 1789 — The skeleton of a large animal is unearthed in Argentina. In 1796 Cuvier reports that it had an affinity to modern tree sloths and names it Megatherium.
- 1796 — Cuvier presents a paper on living and fossil elephants that shows that mammoths were a different species from any living elephant. He argues that this proved the reality of extinction, which he attributes to a geological catastrophe.
- 1800 — Cuvier writes that a drawing of a fossil found in Bavaria shows a flying reptile; in 1809 he names it Pterodactyl.
- 1808 — Cuvier and Alexandre Brongniart publish preliminary results of their survey of the geology of the Paris Basin that uses the fossils found in different strata to reconstruct the geologic history of the region.
- 1811 — Mary Anning and her brother Joseph discover the fossilised remains of an ichthyosaur at Lyme Regis.
- 1815 — William Smith published The Map that Changed the World, the first geologic map of England, Wales, and southern Scotland, using fossils to correlate rock strata.
- 1821 — William Buckland analyzes Kirkdale Cave in Yorkshire, containing the bones of lions, elephants and rhinoceros, and concludes it was a prehistoric hyena den.
- 1821-1822 — Mary Anning discovers the world's first Plesiosaur skeleton at Lyme Regis.
- 1822 — Gideon Mantell discovers fossil teeth of the dinosaur Iguanodon.
- 1822 — The editor of the French journal Journal de Phisique, Henri Marie Ducrotay de Blanville, invents the word "paleontologie" for the reconstruction of ancient animals and plants from fossils.
- 1823 — Buckland finds a human skeleton with mammoth remains at Paviland Cave on the Gower Peninsula, but at the time it is not accepted that this showed they coexisted.
- 1824 — Buckland finds lower jaw of the carnivorous dinosaur Megalosaurus.
- 1829 — Buckland publishes paper on work he and Mary Anning had done identifying and analyzing fossilized feces found at Lyme Regis and elsewhere. Buckland coins the term coprolite for them, and uses them to analyze ancient food chains.
- 1831 — Mantell publishes an influential paper entitled "The Age of Reptiles" summarizing evidence of an extended period during which large reptiles had been the dominant animals.
- 1832 — Mantell finds partial skeleton of the dinosaur Hylaeosaurus.
- 1836 — Edward Hitchcock describes footprints (Eubrontes and Otozoum) of giant birds from Jurassic formations in Connecticut. Later they would be recognized as dinosaur tracks.
- 1841 — Anatomist Richard Owen creates a new order of reptiles, dinosauria, for animals: Iguanodon, Megalosaurus, and Hylaeosaurus, found by Mantell and Buckland.
- 1841 — The first global geologic timescale is defined by John Phillips based on the type of fossils found in different rock layers. He coins the term Mesozoic for what Mantell had called the age of reptiles.
- 1856 — Fossils are found in the Neander Valley in Germany that Johann Carl Fuhlrott and Hermann Schaaffhausen recognize as a human different from modern people. A few years later William King names Homo neanderthalensis.
- 1858 — The first dinosaur skeleton found in the United States, Hadrosaurus, is excavated and described by Joseph Leidy.
- 1859 — Charles Darwin publishes On The Origin of Species.
- 1861 — The first Archaeopteryx, skeleton is found in Bavaria, Germany, and recognized as a transitional form between reptiles and birds.
- 1869 — Joseph Lockyer starts the scientific journal Nature
- 1871 — Othniel Charles Marsh discovers the first American pterosaur fossils.
- 1874-77 — Marsh finds a series of Equid fossils in the American West that shed light on the Evolution of the horse.
- 1877 — The first Diplodocus skeleton is found near Cañon City, Colorado.
- 1891 — Eugene Dubois discovers fossils of Java Man (Homo erectus) in Indonesia.
- 1901 — Petroleum geologist W.W. Orcutt recovers first fossils from the La Brea Tar Pits in Southern California, a rich source of ice age mammal remains.
- 1905 — Tyrannosaurus rex is described and named by Henry Fairfield Osborn.
- 1909 — Cambrian fossils in the Burgess Shale are discovered by Charles Walcott.
- 1912 — Continental Drift is proposed by Alfred Wegener, leading to plate tectonics, which explained many patterns of ancient biogeography revealed by the fossil record.
- 1912 — Charles Dawson announces discovery of Piltdown Man in England, a hoax that would confuse paleoanthropology until the fossils were revealed as forgeries in 1953.
- 1912-15 — Spinosaurus is found in North Africa and is speculated to be the largest terrestrial predator that ever lived.
- 1920 — Andrew Douglass proposes dendrochronology (tree-ring dating).
- 1924 — Raymond Dart examines fossils of Taung Child, found by quarrymen in South Africa, and names Australopithecus africanus.
- 1944 — The publication of Tempo and Mode in Evolution by George Gaylord Simpson integrates paleontology into the modern evolutionary synthesis.
- 1946 — Reginald Sprigg discovers fossils of the Ediacaran biota in Australia. In the 1960s Martin Glaessner would show that they were pre-Cambrian.
- 1947 — Willard Libby introduces carbon-14 dating.
- 1953 — Stanley A. Tyler discovers microfossils in the gunflint chert formation of cyanobacteria that created pre-Cambrian stromatolites approximately 2 billion years ago.
- 1967 — Paul S. Martin proposes the overkill hypothesis, that the extinction of the Pleistocene megafauna in North America resulted from over hunting by Native Americans.
- 1972 — Niles Eldredge and Stephen Jay Gould propose punctuated equilibrium, claiming that the evolutionary history of most species involves long intervals of stasis between relatively short periods of rapid change.
- 1974 — Donald Johanson and Tom Gray discover a 3.5 million-year-old female hominid fossil that is 40% complete and name it "Lucy".
- 1980 — Luis Alvarez, Walter Alvarez, Frank Asaro, and Helen Michel propose the Alvarez hypothesis, that a comet or asteroid struck the Earth 66 million years ago causing the Cretaceous–Paleogene extinction event, including the extinction of the non-avian dinosaurs, and enriching the iridium in the K–T boundary.
- 1982 — Jack Sepkoski and David M. Raup publish a statistical analysis of the fossil record of marine invertebrates that shows a pattern (possibly cyclical) of repeated mass extinctions.
- 1984 — Hou Xianguang discovers the Maotianshan Shales Cambrian fossil site in the Yunnan province of China.
- 1993 — Johannes G.M. Thewissen and Sayed Taseer Hussain discover fossils of the amphibious whale ancestor Ambulocetus in Pakistan.
- 1996 — Li Yumin discovers a fossil of the theropod dinosaur Sinosauropteryx showing evidence of feathers in the Liaoning province of China.
- 2004 — Tiktaalik, a transitional form between lobe-finned fish and tetrapods is discovered in Canada by Ted Daeschler, Neil H. Shubin, and Farish A. Jenkins Jr..
- 2009 — Fossils of Titanoboa, a giant snake, are unearthed in the coal mines of Cerrejón in La Guajira, Colombia, suggesting paleocene equatorial temperatures were higher than today. "
- "Evolution and Paleontology in the Ancient World". University of California Museum of Paleontology. Retrieved 2012-07-05.
- Rudwick, M. J. S. (1985). The Meaning of Fossils: Episodes in the History of Palaeontology. University of Chicago Press. p. 24. ISBN 0-226-73103-0.
- Shen Kuo,Mengxi Bitan (梦溪笔谈; Dream Pool Essays) (1088)
- Needham, Joseph (1986). Science and Civilization in China: Volume 3, Mathematics and the Sciences of the Heavens and the Earth. Caves Books Ltd. p. 614. ISBN 0-253-34547-2.
- Rudwick, M. J. S. (1985). The Meaning of Fossils: Episodes in the History of Palaeontology. University of Chicago Press. pp. 45–68. ISBN 0-226-73103-0.
- Rudwick, Martin, Georges Cuvier: Fossil Bones and Geological Catastrophes (1997), p. 158
- "Mosasaurus hoffmanni - The First Discovery of a Mosasaur?". Oceans of Kansas. Retrieved 2012-07-22.
- Rudwick, Martin, Georges Cuvier: Fossil Bones and Geological Catastrophes (1997), pp. 25-32
- Rudwick, M. J. S. (1985). The Meaning of Fossils: Episodes in the History of Palaeontology. University of Chicago Press. pp. 101–109. ISBN 0-226-73103-0.
- Rudwick, Martin, Georges Cuvier: Fossil Bones and Geological Catastrophes (1997), pp. 127-156
- Rudwick, Martin Worlds Before Adam: The Reconstruction of Geohistory in the Age of Reform (2008) pp. 77-79
- Rudwick, Martin Worlds Before Adam: The Reconstruction of Geohistory in the Age of Reform (2008) pp. 153-155
- Cadbury, Deborah The Dinosaur Hunters (2000) pp. 171-175.
- Lewin, Roger (1987), Bones of Contention, ISBN 0-671-52688-X
- Head, Jason J.; Jonathan I. Bloch; Alexander K. Hastings; Jason R. Bourque; Edwin A. Cadena; Fabiany A. Herrera; P. David Polly; Carlos A. Jaramillo (2009). "Giant boid snake from the paleocene neotropics reveals hotter past equatorial temperatures.". Nature. 457 (7230): 715–718. doi:10.1038/nature07671. PMID 19194448. Retrieved 2009-02-05.