Carbon 14

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Biography

Carbon-14 , ¹⁴C , or radiocarbon , is a radioactive isotope of carbon with a atomic nucleus|nucleus containing 6 protons and 8 neutrons . Its presence in organic materials is the basis of the radiocarbon dating method pioneered by Willard Libby and colleagues (1949), to date archaeological, geological, and hydrogeological samples.

Carbon-14 was discovered on 27 February 1940, by Martin Kamen and Sam Ruben at the University of California Radiation Laboratory in Berkeley, California|Berkeley , although its existence had been suggested by Franz N. D. Kurie|Franz Kurie in 1934.

There are three naturally occurring isotope s of carbon on Earth: 99% of the carbon is carbon-12 , 1% is carbon-13 , and carbon-14 occurs in trace amounts, i.e. making up as much as 1 Parts per notation|part per trillion (0.0000000001%) of the carbon in the atmosphere. The half-life of carbon-14 is 5,730±40 years. Carbon-14 decays into nitrogen-14 through beta decay .
The primary natural source of carbon-14 on Earth is cosmic ray action upon nitrogen in the atmosphere, and it is therefore a cosmogenic nuclide . However, open-air nuclear testing between 1955-1980 contributed to this pool.

The different isotopes of carbon do not differ appreciably in their chemical properties. This is used in chemical and biological research, in a technique called carbon label ing: carbon-14 atoms can be used to replace nonradioactive carbon, in order to trace chemical and biochemical reactions involving carbon atoms from any given organic compound.

Origin and radioactive decay

Carbon-14 is produced in the upper layers of the troposphere and the stratosphere by thermal neutron s absorbed by nitrogen atoms. When cosmic ray s enter the atmosphere, they undergo various transformations, including the production of neutron s. The resulting neutron s (¹n) participate in the following reaction:

:¹n + ¹⁴N ? ¹⁴C + ¹p

The highest rate of carbon-14 production takes place at altitudes of 9 to 15& nbsp;km (30,000 to 50,000& nbsp;ft) and at high Geomagnetism|geomagnetic latitudes, but the carbon-14 readily mixes and becomes evenly distributed throughout the atmosphere and reacts with oxygen to form radioactive carbon dioxide . Carbon dioxide also dissolves in water and thus permeates the ocean s.

Carbon-14 then goes through radioactive beta decay .

:

\mathrm{~^{14}_{6}C}\rightarrow\mathrm{~^{14}_{7}N}+ e^- + \bar{\nu}_e

By emitting an electron and an antineutrino|electron antineutrino , carbon-14 ( half-life of 5730 years) decays into the stable (non-radioactive) isotope nitrogen-14 .

The inventory of carbon-14 in Earth's biosphere is about 300 Curie|megacuries (11& nbsp; Exa-|E Becquerel|Bq ), of which most is in the oceans.

As of 2008, the rate of carbon-14 production was not known - while the reaction can be modelled or the current concentrations and the global carbon budget can be used to backtrack, attempts to measure production had not agreed with these models. Production rates vary because of changes to the cosmic ray flux incident, such as supernova e, and due to variations in the Earth's magnetic field . The latter can create significant variations in carbon-14 production rates, although the changes of the carbon cycle can make these effects difficult to tease out.

Other carbon-14 sources

Carbon-14 can also be produced by other neutron reactions, including in particular Carbon-13|¹³C (n,gamma)¹⁴C and Oxygen-17|¹⁷O (n,alpha)¹⁴C with thermal neutron s, and Nitrogen-15|¹⁵N (n,d)¹⁴C and Oxygen-16|¹⁶O (n,³He)¹⁴C with fast neutron s.W. Davis Jr. "Carbon-14 production in nuclear reactors". ORNL/NUREG/TM-12. U.S. Nuclear Regulatory Commission. 1977

Radiocarbon dating

Radiocarbon dating is a radiometric dating method that uses (¹⁴C) to determine the age of carbonaceous materials up to about 60,000 years old. The technique was developed by Willard Libby and his colleagues in 1949 during his tenure as a professor at the University of Chicago . Libby estimated that the radioactivity of exchangeable carbon-14 would be about 14 disintegrations per minute (dpm) per gram of pure carbon, and this is still used as the activity of the modern radiocarbon standard . In 1960, Libby was awarded the Nobel Prize in chemistry for this work.

One of the frequent uses of the technique is to date organic remains from archaeological sites. Plants Carbon fixation|fix atmospheric carbon during photosynthesis, so the level of ¹⁴C in plants and animals when they die approximately equals the level of ¹⁴C in the atmosphere at that time. However, it decreases thereafter from radioactive decay, allowing the date of death or fixation to be estimated. The initial ¹⁴C level for the calculation can either be estimated, or else directly compared with known year-by-year data from tree-ring data ( dendrochronology ) up to 10,000 years ago (using overlapping data from live and dead trees in a given area), or else from cave deposits ( speleothem s), back to about 45,000 years before the present. A calculation or (more accurately) a direct comparison of carbon-14 levels in a sample, with tree ring or cave-deposit carbon-14 levels of a known age, then gives the wood or animal sample age-since-formation.

Formation during nuclear tests

The above-ground nuclear testing|nuclear tests that occurred in several countries between 1955 and 1980 List of nuclear tests|(see nuclear test list) dramatically increased the amount of carbon-14 in the atmosphere and subsequently in the biosphere; after the tests ended the atmospheric concentration of the isotope began to decrease.

One side effect of the change in atmospheric carbon-14 is that this has enabled some options for determining the birth year of an individual, in particular, the amount of carbon-14 in tooth enamel , or the carbon-14 concentration in the lens of the eye. http://www.plosone.org/article/info:doi/10.1371/journal.pone.0001529 Niels Lynnerup, et al., Radiocarbon Dating of the Human Eye Lens Crystallines Reveal Proteins without Carbon Turnover throughout Life , Public Library of Science

Occurrence

In fossil fuels

Most man-made chemicals are made of fossil fuel s, such as petroleum or coal , in which the carbon-14 should have long since decayed. However, such deposits often contain trace amounts of carbon-14 (varying significantly, but ranging from 1% the ratio found in living organisms to amounts comparable to an apparent age of 40,000 years for oils with the highest levels of carbon-14).D.C. Lowe, "Problems Associated with the Use of Coal as a Source of 14C Free Background Material," Radiocarbon, 1989, 31:117-120 This may indicate possible contamination by small amounts of bacteria, underground sources of radiation causing the ¹⁴N(n,p) ¹⁴C reaction, direct uranium decay (although reported measured ratios of ¹⁴C/U in uranium-bearing ores () would imply roughly 1 uranium atom for every two carbon atoms in order to cause the ¹⁴C/¹²C ratio, measured to be on the order of 10^-15), or other unknown secondary sources of carbon-14 production. Presence of carbon-14 in the isotopic signature of a sample of carbonaceous material possibly indicates its contamination by biogenic sources or the decay of radioactive material in surrounding geologic strata. In connection with building the Borexino solar neutrino observatory, petroleum feedstock (for synthesizing the primary scintillant) was obtained with low ¹⁴C content. In the Borexino Counting Test Facility, a ¹⁴C/¹²C ratio of 1.94x10^-18 was determined;() reactions responsible for varied levels of ¹⁴C in different petroleum reservoir s, and the lower ¹⁴C levels in methane, have been discussed by Bonvicini et al.Bonvicini, G, Harris, N and Paolone, V, "The chemical history of ¹⁴C in deep oilfields", Aug 2003. ()

In the human body

Since essentially all sources of human food are derived from plants, the carbon that comprises our bodies contains carbon-14 at the same concentration as the atmosphere. The rate of disintegrations of potassium-40 and carbon-14 in the normal adult body is comparable (a few thousand disintegrated nuclei per second).THE RADIOACTIVITY OF THE NORMAL ADULT BODY - http://www.rerowland.com/BodyActivity.htm The beta-decays from external (environmental) radiocarbon contribute approximately 0.01 mSv /year (1 mrem/year) to each person's Equivalent dose|dose of ionizing radiation . () This is small compared to the doses from Isotopes of potassium|potassium-40 (0.39 mSv/year) and radon (variable).

Carbon-14 can be used as a radioactive tracer in medicine. In the initial variant of the urea breath test , a diagnostic test for Helicobacter pylori , urea labeled with approximately carbon-14 is fed to a patient (i.e. 37,000 decays per second). In the event of a H. pylori infection, the bacterial urease enzyme breaks down the urea into ammonia and radioactively-labeled carbon dioxide , which can be detected by low-level counting of the patient's breath. The 14-C urea breath test has been largely replaced by the 13-C urea breath test which has no radiation issues.

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