Revisiting Carbon Flux through the Ocean's Twilight Zone

Revisiting Carbon Flux through the Ocean's Twilight Zone

The oceanic biological pump drives sequestration of carbon dioxide in the deep sea via sinking particles. Rapid biological consumption and remineralization of carbon in the "twilight zone" (depths between the euphotic zone and 1000 meters) reduce the efficiency of sequestration. By using n...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2007-04, Vol.316 (5824), p.567-570
Hauptverfasser: Buesseler, Ken O., Lamborg, Carl H., Boyd, Philip W., Lam, Phoebe J., Trull, Thomas W., Bidigare, Robert R., Bishop, James K. B., Casciotti, Karen L., Dehairs, Frank, Elskens, Marc, Honda, Makio, Karl, David M., Siegel, David A., Silver, Mary W., Steinberg, Deborah K., Valdes, Jim, Van Mooy, Benjamin, Wilson, Stephanie
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Biomineralogy
Carbon - metabolism
Carbon Dioxide
Carbon sequestration
Copepoda - physiology
Earth sciences
Earth, ocean, space
Ecosystem
Euphotic zone
Exact sciences and technology
Exports
External geophysics
Food Chain
Geochemistry
Geologic Sediments - chemistry
Hydrogen-Ion Concentration
Marine
Marine ecosystems
Mineralogy
Ocean currents
Oceanography
Oceans
Opal
Pacific Ocean
Physical and chemical properties of sea water
Physics of the oceans
Phytoplankton - physiology
Primary productivity
Sea-air exchange processes
Seawater - chemistry
Sediments
Silicates
Water geochemistry
Zooplankton
Zooplankton - physiology
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Zusammenfassung:The oceanic biological pump drives sequestration of carbon dioxide in the deep sea via sinking particles. Rapid biological consumption and remineralization of carbon in the "twilight zone" (depths between the euphotic zone and 1000 meters) reduce the efficiency of sequestration. By using neutrally buoyant sediment traps to sample this chronically understudied realm, we measured a transfer efficiency of sinking particulate organic carbon between 150 and 500 meters of 20 and 50% at two contrasting sites. This large variability in transfer efficiency is poorly represented in biogeochemical models. If applied globally, this is equivalent to a difference in carbon sequestration of more than 3 petagrams of carbon per year.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1137959