Timeline of evolution
542 Ma - present
The Phanerozoic eon, literally the "period of well-displayed life", marks the appearance in the fossil record of abundant, shell-forming and/or trace-making organisms. It is subdivided into three eras, the Paleozoic, Mesozoic and Cenozoic, which are divided by major mass extinctions.
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Paleozoic era
542 Ma - 251.0 Ma
| Date | Event |
|---|---|
| 530 Ma | The first known footprints on land date to 530 Ma, indicating that early animal explorations may have predated the development of terrestrial plants.[5] |
| 475 Ma | The first primitive plants move onto land,[6][citation needed] having evolved from green algae living along the edges of lakes.[7] They are accompanied by fungi, which may have aided the colonisation of land through symbiosis. |
| 363 Ma | By the start of the Carboniferous period, the Earth begins to be recognisable. Insects roamed the land and would soon take to the skies; sharks predated the oceans,[8] and vegetation covered the land, with seed-bearing plants and forests soon to flourish.
Four-limbed tetrapods gradually gain adaptations which will help them occupy a terrestrial life-habit. |
| 251.4Ma | The Permian-Triassic extinction event eliminates over 95% of species. This "clearing of the slate" may have led to an ensuing diversification. |
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Mesozoic era
| Date | Event |
|---|---|
| From 251.4 Ma | The Mesozoic Marine Revolution begins: increasingly well-adapted and diverse predators pressurise sessile marine groups; the "balance of power" in the oceans shifts dramatically as some groups of prey adapt more rapidly and effectively than others. |
| 220 Ma |
 Gymnosperm forests dominate the land; herbivores grow to huge sizes in order to accommodate the large guts necessary to digest the nutrient-poor plants.[citation needed] |
| 200 Ma | The first accepted evidence for viruses (at least, the group Geminiviridae) exists.[9] Viruses are still poorly understood and may have arisen before "life" itself, or may be a more recent phenomenon. |
| 130 Ma | The rise of the Angiosperms: These flowering plants boast structures that attract insects and other animals to spread pollen. This innovation causes a major burst of animal evolution through co-evolution. |
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Cenozoic era
65.5 Ma - present
| Date | Event |
|---|---|
| 65.5 Ma |
 The Cretaceous–Tertiary extinction event eradicates about half of all animal species, including all non-avian dinosaurs. |
| 35 Ma | Grasses evolve from among the angiosperms; grassland dominates many terrestrial ecosystems. |
| 14,000 years ago | The term Anthropocene has been used to describe the period of time during which humans have had a major impact on the planet and its diversity of life. Its beginning is marked by the megafaunal extinction in the Americas which signify the onset of the Holocene extinction event. Fierce debate rages about the influence of man in the initiation of this extinction. |
| Present day | With a human population approaching 6.67 billion,[10] the impact of humanity is felt in all corners of the globe. Overfishing, anthropogenic climate change, industrialisation, intensive agriculture, clearance of rain forests and other activities contribute to a dramatically rising extinction rate.[11] If current rates continue, humanity will have seen the eradication of one-half of Earth's biodiversity over the next hundred years.[12] |
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See also
- Evolutionary history of plants
- Extinction events
- Geologic time scale
- History of Earth
- Natural history
- Sociocultural evolution
- Timeline of human evolution
- Timeline of plant evolution
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Further reading
- The Ancestor's Tale by Richard Dawkins, for a list of ancestors common to humans and other living species
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References
- ^ Planetary Science Institute page on the Giant Impact Hypothesis. Hartmann and Davis belonged to the PSI. This page also contains several paintings of the impact by Hartmann himself.
- ^ "However, once the Earth cooled sufficiently, sometime in the first 700 million years of its existence, clouds began to form in the atmosphere, and the Earth entered a new phase of development." How the Oceans Formed (URL accessed on January 9, 2005)
- ^ " Between about 3.8 billion and 4.5 billion years ago, no place in the solar system was safe from the huge arsenal of asteroids and comets left over from the formation of the planets. Sleep and Zahnle calculate that Earth was probably hit repeatedly by objects up to 500 kilometers across" Geophysicist Sleep: Martian underground may have harbored early life (URL accessed on January 9, 2005)
- ^ "'Experiments with sex have been very hard to conduct,' Goddard said. 'In an experiment, one needs to hold all else constant, apart from the aspect of interest. This means that no higher organisms can be used, since they have to have sex to reproduce and therefore provide no asexual control.'
Goddard and colleagues instead turned to a single-celled organism, yeast, to test the idea that sex allows populations to adapt to new conditions more rapidly than asexual populations." Sex Speeds Up Evolution, Study Finds (URL accessed on January 9, 2005) - ^ "The oldest fossils of footprints ever found on land hint that animals may have beaten plants out of the primordial seas. Lobster-sized, centipede-like or slug like animals such as Protichnites and Climactichnites made the prints wading out of the ocean and scuttling over sand dunes about 530 million years ago. Previous fossils indicated that animals didn't take this step until 40 million years later." Oldest fossil footprints on land
- ^ "The oldest fossils reveal evolution of non-vascular plants by the middle to late Ordovician Period (~450-440 m.y.a.) on the basis of fossil spores" Transition of plants to land
- ^ "The land plants evolved from the algae, more specifically green algae, as suggested by certain common biochemical traits" The first land plants
- ^ "The ancestry of sharks dates back more than 200 million years before the earliest known dinosaur. Introduction to shark evolution, geologic time and age determination
- ^ "Viruses of nearly all the major classes of organisms—animals, plants, fungi and bacteria/archaea—probably evolved with their hosts in the seas, given that most of the evolution of life on this planet has occurred there. This means that viruses also probably emerged from the waters with their different hosts, during the successive waves of colonisation of the terrestrial environment." Origins of Viruses (URL accessed on January 9, 2005)
- ^ An United States Census Bureau estimate of the number of people alive on Earth at any given moment. United States census bureau
- ^ The American Museum of Natural History National Survey Reveals Biodiversity Crisis (URL accessed on February 23, 2006)
- ^ E. O. Wilson, Harvard University, The Future of Life (2002)
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External links
- History of the Earth from EvoWiki
- Berkeley Evolution
- Tree of Life Web Project - explore complete phylogenetic tree interactively
- A more compact timeline
- Palaeos - The Trace of Life on Earth
- University of Waikato - Sequence of Plant Evolution
- University of Waikato - Sequence of Animal Evolution
- Graphical Timeline of evolution
- EvoWiki's geologic timescale and timeline of evolution.
- History of Life on Earth
- Exploring Time from Planck Time to the lifespan of the universe
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