Computer Science
Scientific paper
May 1999
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1999gecoa..63.1527a&link_type=abstract
Geochimica et Cosmochimica Acta, vol. 63, Issue 10, pp.1527-1535
Computer Science
36
Scientific paper
The distributions and abundances of alteration types and carbonate minerals in sections of upper ocean crust have been measured in order to determine the carbon budget in altered ocean crust. Our results show that the ocean crust is a sink for carbon, with an annual storage rate of 3.4 × 10 12 mol C y -1 , in close agreement with a previous estimate by Staudigel et al. (1989) . This surpasses the total production rate of carbon in new oceanic crust and, besides accounting for uptake of all CO 2 lost via degassing at MOR, results in a net sink in the oceanic crust of 1.5-2.4 × 10 12 mol C y -1 . This sink is significant for global carbon budgets, and subduction of altered ocean crust may be an important source of CO 2 to the atmosphere and/or recycling into the mantle. The bulk CO 2 content of the crust decreases with depth, with most of the carbon taken up in the permeable upper few hundred meters of the volcanic section at low temperatures (0-60°C) during aging of crust away from spreading ridges. The abundances of carbonate veins and the bulk CO 2 contents of the upper crust are greater in older (110-165 Ma) than younger (6Ma) crust, suggesting progressive uptake of carbon by the upper ocean crust. Precipitation of carbonates within the crust is essentially complete within 100 Ma, and perhaps as soon as a few tens of million years after formation of the crust.
Alt Jeffrey C.
Teagle Damon A. H.
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