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Stable Isotopes of Oxygen and Ancient Temperatures

Water vapor enriched in oxygen-16 is transported by wind in the atmosphere from the sea to land. When the water vapor condenses and precipitates as rain, snow, or hail, the water becomes rich in oxygen-16. Eventually the oxygen-16 rich water is incorporated into rivers, lakes, glaciers, and polar ice, which are, therefore, also rich in oxygen-16. Thus the isotopic composition of groundwater and the water of rivers, lakes, and glaciers is not the same as in seas and oceans. [Pg.215]

Whenever atmospheric carbon dioxide dissolves in groundwater or in the water of rivers, lakes, and glaciers, it also reacts with the water to form mild carbonic acid, which renders the water slightly acidic  [Pg.215]

The carbonic acid thus formed is rich in oxygen-16. The mildly acid ground-water as well as the water of rivers and lakes, which is, therefore, also enriched In oxygen-16, dissolves limestone from surrounding rocks, to form calcium bicarbonate, which is soluble in water  [Pg.216]

Whenever natural water is heated and evaporates, some of the calcium bicarbonate reconverts to calcium carbonate and reprecipitates as limestone  [Pg.217]

It follows that, depending on the temperature, whenever limestone precipitates, it includes the oxygen isotope in which the water is rich in sea waters, for example, the limestone is enriched in oxygen-18  [Pg.217]


See other pages where Stable Isotopes of Oxygen and Ancient Temperatures is mentioned: [Pg.240]    [Pg.215]   


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