Ionium-thorium dating is a technique for determining the age of marine sediments based upon the quantities present of nearly stable thorium-232 and more radioactive thorium-230. (230Th was once known as ionium, before it was realised it was the same element as 232Th.)
Uranium (in nature, predominantly uranium-238) is soluble in water. However, when it decays into thorium, the latter element is insoluble and so precipitates out to become part of the sediment.[1] Thorium-232 has a half-life of 14.5 billion years, but thorium-230 has a half-life of only 75,200[2] years, so the ratio is useful for dating sediments up to 400,000 years old.[1] Conversely, this technique can be used to determine the rate of ocean sedimentation over time.[2]
The ionium/thorium method of dating assumes that the proportion of thorium-230 to thorium-232 is a constant during the time period that the sediment layer was formed. Likewise, both thorium-230 and thorium-232 are assumed to precipitate out in a constant ratio; no chemical process favors one form over the other. It must also be assumed that the sediment does not contain any pre-existing particles of eroded rock, known as detritus, that already contain thorium isotopes. Finally, there must not be a process that causes the thorium to shift its position within the sediment. If these assumptions are correct, this dating technique can produce accurate results.[1][2]
Referencesedit
^ abcRafferty, John P. (2010), Geochronology, Dating, and Precambrian Time: The Beginning of the World As We Know It, The Geologic History of Earth, The Rosen Publishing Group, p. 150, ISBN978-1615301256.
^ abcVértes, Attila (2010), Nagy, Sándor; Klencsár, Zoltán; Lovas, Rezso György; et al. (eds.), Handbook of Nuclear Chemistry, vol. 5 (2nd ed.), Springer, p. 800, ISBN978-1441907196.
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ionium, thorium, dating, ionium, thorium, dating, technique, determining, marine, sediments, based, upon, quantities, present, nearly, stable, thorium, more, radioactive, thorium, 230th, once, known, ionium, before, realised, same, element, 232th, uranium, nat. Ionium thorium dating is a technique for determining the age of marine sediments based upon the quantities present of nearly stable thorium 232 and more radioactive thorium 230 230Th was once known as ionium before it was realised it was the same element as 232Th Uranium in nature predominantly uranium 238 is soluble in water However when it decays into thorium the latter element is insoluble and so precipitates out to become part of the sediment 1 Thorium 232 has a half life of 14 5 billion years but thorium 230 has a half life of only 75 200 2 years so the ratio is useful for dating sediments up to 400 000 years old 1 Conversely this technique can be used to determine the rate of ocean sedimentation over time 2 The ionium thorium method of dating assumes that the proportion of thorium 230 to thorium 232 is a constant during the time period that the sediment layer was formed Likewise both thorium 230 and thorium 232 are assumed to precipitate out in a constant ratio no chemical process favors one form over the other It must also be assumed that the sediment does not contain any pre existing particles of eroded rock known as detritus that already contain thorium isotopes Finally there must not be a process that causes the thorium to shift its position within the sediment If these assumptions are correct this dating technique can produce accurate results 1 2 References edit a b c Rafferty John P 2010 Geochronology Dating and Precambrian Time The Beginning of the World As We Know It The Geologic History of Earth The Rosen Publishing Group p 150 ISBN 978 1615301256 a b c Vertes Attila 2010 Nagy Sandor Klencsar Zoltan Lovas Rezso Gyorgy et al eds Handbook of Nuclear Chemistry vol 5 2nd ed Springer p 800 ISBN 978 1441907196 nbsp This radioactivity related article is a stub You can help Wikipedia by expanding it vte Retrieved from https en wikipedia org w index php title Ionium thorium dating amp oldid 1165852954, wikipedia, wiki, book, books, library,
