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Literature DB >> 15256665

The oceanic sink for anthropogenic CO2.

Christopher L Sabine¹, Richard A Feely, Nicolas Gruber, Robert M Key, Kitack Lee, John L Bullister, Rik Wanninkhof, C S Wong, Douglas W R Wallace, Bronte Tilbrook, Frank J Millero, Tsung-Hung Peng, Alexander Kozyr, Tsueno Ono, Aida F Rios.

Abstract

Using inorganic carbon measurements from an international survey effort in the 1990s and a tracer-based separation technique, we estimate a global oceanic anthropogenic carbon dioxide (CO2) sink for the period from 1800 to 1994 of 118 +/- 19 petagrams of carbon. The oceanic sink accounts for approximately 48% of the total fossil-fuel and cement-manufacturing emissions, implying that the terrestrial biosphere was a net source of CO2 to the atmosphere of about 39 +/- 28 petagrams of carbon for this period. The current fraction of total anthropogenic CO2 emissions stored in the ocean appears to be about one-third of the long-term potential.

Entities: Chemical

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Year: 2004 PMID： 15256665 DOI： 10.1126/science.1097403

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

220 in total

1. Global phytoplankton decline over the past century.

Authors: Daniel G Boyce; Marlon R Lewis; Boris Worm
Journal: Nature Date: 2010-07-29 Impact factor: 49.962

2. Will krill fare well under Southern Ocean acidification?

Authors: So Kawaguchi; Haruko Kurihara; Robert King; Lillian Hale; Thomas Berli; James P Robinson; Akio Ishida; Masahide Wakita; Patti Virtue; Stephen Nicol; Atsushi Ishimatsu
Journal: Biol Lett Date: 2010-10-13 Impact factor: 3.703

3. Algal competition in a water column with excessive dioxide in the atmosphere.

Authors: Hua Nie; Sze-Bi Hsu; J P Grover
Journal: J Math Biol Date: 2015-09-08 Impact factor: 2.259

4. Latitudinal variation in virus-induced mortality of phytoplankton across the North Atlantic Ocean.

Authors: Kristina D A Mojica; Jef Huisman; Steven W Wilhelm; Corina P D Brussaard
Journal: ISME J Date: 2015-08-11 Impact factor: 10.302

5. Tropical nighttime warming as a dominant driver of variability in the terrestrial carbon sink.

Authors: William R L Anderegg; Ashley P Ballantyne; W Kolby Smith; Joseph Majkut; Sam Rabin; Claudie Beaulieu; Richard Birdsey; John P Dunne; Richard A Houghton; Ranga B Myneni; Yude Pan; Jorge L Sarmiento; Nathan Serota; Elena Shevliakova; Pieter Tans; Stephen W Pacala
Journal: Proc Natl Acad Sci U S A Date: 2015-12-07 Impact factor: 11.205

The oceanic sink for anthropogenic CO2.

1. Global phytoplankton decline over the past century.

2. Will krill fare well under Southern Ocean acidification?

3. Algal competition in a water column with excessive dioxide in the atmosphere.

4. Latitudinal variation in virus-induced mortality of phytoplankton across the North Atlantic Ocean.

5. Tropical nighttime warming as a dominant driver of variability in the terrestrial carbon sink.

Review 6. Microbial ecology of Antarctic aquatic systems.

7. Ocean acidification induces changes in algal palatability and herbivore feeding behavior and performance.

8. Coral resistance to ocean acidification linked to increased calcium at the site of calcification.

9. Synergistic effects of climate-related variables suggest future physiological impairment in a top oceanic predator.

10. Secondary production, calcification and CO2 fluxes in the cirripedes Chthamalus montagui and Elminius modestus.