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Background extinction rate

From Wikipedia, the free encyclopedia

Background extinction rate, also known as the normal extinction rate, refers to the standard rate of extinction in Earth's geological and biological history, excluding major extinction events, including the current human-induced Holocene extinction. There have been five mass extinction events throughout Earth's history.

Overview

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Extinctions are a normal part of the evolutionary process, and the background extinction rate is a measurement of "how often" they naturally occur. Normal extinction rates are often used as a comparison to present day extinction rates, to illustrate the higher frequency of extinction today than in all periods of non-extinction events before it.[1]

Background extinction rates have not remained constant, although changes are measured over geological time, covering millions of years.[2][3][4]

Measurement

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Background extinction rates are typically measured in order to give a specific classification to a species and this is obtained over a certain period of time. There are three different ways to calculate background extinction rate.[5] The first is simply the number of species that normally go extinct over a given period of time. For example, at the background rate one species of bird will go extinct every estimated 400 years.[6] Another way the extinction rate can be given is in million species years (MSY). For example, there is approximately one extinction estimated per million species years.[7] From a purely mathematical standpoint this means that if there are a million species on the planet earth, one would go extinct every year, while if there was only one species it would go extinct in one million years, etc. The third way is in giving species survival rates over time. For example, given normal extinction rates species typically exist for 5–10 million years before going extinct.[8]

Lifespan estimates

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Some species lifespan estimates by taxonomy are given below (Lawton & May 1995).[9]

  • Invertebrates: These species average lifespan is 11 millions years. Reasons why these species go extinct is from habitat loss, overharvesting, pollution, invasive species, and climate change. Invertebrates makes up most of the Earth's biodiversity which is why they do not go extinct as fast as other species.
  • Marine Invertebrates: These species average lifespan is 5–10 million years. Many marine invertebrates face extinction because of the high levels of dissolved carbon dioxide in aquatic environments. Seawater chemistry changes with the increase carbon levels which makes it hard for these organisms to survive.[10] Similar to terrestrial invertebrates, marine invertebrates make up most of Earth's biodiversity which is why they do not go extinct as fast as other species.
  • Marine Animals: These species average lifespan is 4–5 million years. Reasons why marine animals go extinct include interactions with fisheries, capturing, pollution, habitat degradation, climate change, and overharvesting.
  • All Fossil Groups: These species average lifespan is 0.5–5 million years. The main reason why fossil groups go extinct is because of the changes to their environment. Another reason why they go extinct is that they naturally break down, and dissolve.
  • Mammals: These species average lifespan is 1 million years. Habitat loss is the leading reason for why mammals go extinct. Other reasons that follow this is overexploitation, invasive species, pollution, and climate change.[citation needed]
  • Cenozoic Mammals: These species average lifespan is 1–2 million years. The main reason for these species extinction was from a direct result of climate change.[citation needed]
  • Diatoms: These species average lifespan is 8 million years. Diatoms rely on silica to build their shells, which benefited them when oceans originally started to become more acidic. Now as oceans continue to have chemical changes and become even more acidic this makes it harder for them to continue to thrive. From this information we have concluded that these species are going to extinct due to high rates of ocean acidifications.[citation needed]
  • Dinoflagellates: These species average lifespan is 13 million years. It takes a lot for these species to go extinct because they are so promendant in aquatic environments. Dinoflagellates were severely affected during the Triassic extinction, suggesting that the warming of ocean waters can affect the livelihood of this species. [11]
  • Planktonic Foraminifera: These species average lifespan is 7 million years. These species face extinction in cases of glaciation events, hyperthermal event, and climate change.[citation needed]
  • Cenozoic Bivalves: These species average lifespan is 10 million years. The reason for why this group goes extinct is related to environmental deterioration.[citation needed]
  • Echinoderms: These species average lifespan is 6 million years. The reason why this group went extinct is related to ocean acidification. Ocean acidification makes it hard for the echinoderms to build their shells.[citation needed]
  • Silurian Graptolites: These species average lifespan is 2 million years. Reasons for why this group goes extinct includes climate change, rising sea levels, and loss of habitats.[citation needed]
Taxonomy Source of Estimate Species Average Lifespan (Millions of Years)
All Invertebrates Raup (1978) 11
Marine Invertebrates Valentine (1970) 5–10
Marine Animals Raup (1991) 4
Marine Animals Sepkoski (1992) 5
All Fossil Groups Simpson (1952) 0.5–5
Mammals Martin (1993) 1
Cenozoic Mammals Raup and Stanley (1978) 1–2
Diatoms Van Valen 8
Dinoflagellates Van Valen (1973) 13
Planktonic Foraminifera Van Valen (1973) 7
Cenozoic Bivalves Raup and Stanley (1978) 10
Echinoderms Durham (1970) 6
Silurian Graptolites Rickards (1977) 2

References

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  1. ^ E.g. Julia Whitty (2007-04-30). "Animal Extinction - the greatest threat to mankind: By the end of the century half of all species will be extinct. Does that matter?". The Independent. Archived from the original on 2015-08-06. Retrieved 2010-05-20. By the most conservative measure - based on the last century's recorded extinctions - the current rate of extinction is 100 times the background rate.
  2. ^ Thackeray, J. Francis (1990). "Rates of Extinction in Marine Invertebrates: Further Comparison Between Background and Mass Extinctions". Paleobiology. 16 (1). Paleontological Society: 22–4. Bibcode:1990Pbio...16...22T. doi:10.1017/s0094837300009702. ISSN 1938-5331. JSTOR 2400930. S2CID 88902588.
  3. ^ N.L. Gilinsky (1994). "Volatility and the Phanerozoic decline of background extinction intensity". Paleobiology. 20 (4): 445–458. Bibcode:1994Pbio...20..445G. doi:10.1017/S0094837300012926. JSTOR 2401228. S2CID 82320624.
  4. ^ Raymond, H, Ward, P: “Hypoxia, Global Warming, and Terrestrial Late Permian Extinctions” Page 389–401. Science 15, 2005. http://www.sciencemag.org/cgi/content/full/308/5720/398
  5. ^ popedadmin (2018-12-11). "What is Background Extinction Rate and How is it Calculated?". Population Education. Retrieved 2023-09-14.
  6. ^ American Museum of Natural History, 1998. http://www.amnh.org/science/biodiversity/extinction/Intro/OngoingProcess.html Archived 2008-04-06 at the Wayback Machine
  7. ^ Pimm, S.: “The Extinction Puzzle”, Project Syndicate, 2007. http://www.project-syndicate.org/commentary/pimm1
  8. ^ May, R. Lawton, J. Stork, N: “Assessing Extinction Rates” Oxford University Press, 1995.
  9. ^ Lawton, John H.; May, Robert McCredie (1995-01-01). Extinction Rates. Oxford University Press. ISBN 9780198548294.
  10. ^ "End-Permian Extinction—Sam Noble Museum". 2015-05-04. Retrieved 2023-11-01.
  11. ^ Riding, James B.; Fensome, Robert A.; Soyer-Gobillard, Marie-Odile; Medlin, Linda K. (2022-12-20). "A Review of the Dinoflagellates and Their Evolution from Fossils to Modern". Journal of Marine Science and Engineering. 11 (1): 1. doi:10.3390/jmse11010001. ISSN 2077-1312.

Further reading

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