Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/fluxes-of-mantle-and-subducted-carbon-along-convergent-plate-SNs49DpRN0
References (42)
-
S. Schneider (1989)
The Greenhouse Effect: Science and PolicyScience, 243
-
Sano Sano, Gamo Gamo, Notsu Notsu, Wakita Wakita (1995)
Secular variations of helium and carbon isotopes at Izu‐Oshima volcano, JapanJ. Volcan. Geotherm. Res., 64
-
B. Marty, A. Jambon, Y. Sano (1989)
Helium isotopes and CO2 in volcanic gases of JapanChemical Geology, 76
-
J. Welhan, R. Poreda, W. Rison, H. Craig (1988)
Helium isotopes in geothermal and volcanic gases of the Western United States, II. Long Valley CalderaJournal of Volcanology and Geothermal Research, 34
-
R. Houghton, G. Woodwell (1989)
Global Climatic ChangeScientific American, 260
-
R. Berner (1990)
Atmospheric Carbon Dioxide Levels Over Phanerozoic TimeScience, 249
-
J. Varekamp, R. Kreulen, R. Poorter, M. Bergen (1992)
Carbon sources in arc volcanism, with implications for the carbon cycleTerra Nova, 4
-
R. Poreda, R. Poreda, H. Craig (1989)
Helium isotope ratios in circum-Pacific volcanic arcsNature, 338
-
T. Trull, S. Nadeau, F. Pineau, M. Polvé, M. Javoy (1993)
C-He systematics in hotspot xenoliths: implications for mantle carbon contents and carbon recyclingEarth and Planetary Science Letters, 118
-
T. Torgersen (1989)
Terrestrial helium degassing fluxes and the atmospheric helium budget: Implications with respect to the degassing processes of continental crustChemical Geology: Isotope Geoscience Section, 79
-
Y. Nishio, M. Tsutsumi, T. Gamo, Y. Sano (1995)
Hydrogen Effect on the δ^13C Value of CO_2 Measured by Mass Spectrometry with Electron-Impact IonizationAnalytical Sciences, 11
-
Y. Sano, B. Marty (1995)
Origin of carbon in fumarolic gas from island arcsChemical Geology, 119
-
T. Plank, C. Langmuir (1993)
Tracing trace elements from sediment input to volcanic output at subduction zonesNature, 362
-
R. Poreda, P. Jenden, I. Kaplan, H. Craig (1986)
Mantle helium in Sacramento basin natural gas wellsGeochimica et Cosmochimica Acta, 50
-
Staudacher Staudacher, Allègre Allègre (1982)
Terrestrial xenologyEarth Planet. Sci. Lett., 60
-
S. Williams, S. Schaefer, V. Calvache, D. López (1992)
Global carbon dioxide emission to the atmosphere by volcanoesGeochimica et Cosmochimica Acta, 56
-
Sturchio Sturchio, Williams Williams, Sano Sano (1992)
The hydrothermal system of Purace volcano, ColombiaBull.Volcan., 55
-
N. Sturchio, S. Williams, Y. Sano (1993)
The hydrothermal system of Volcan Puracé, ColombiaBulletin of Volcanology, 55
-
J. Welhan, R. Poredai, W. Rison, H. Craig (1988)
Helium isotopes in geothermal and volcanic gases of the western United States, I. Regional variability and magmatic originJournal of Volcanology and Geothermal Research, 34
-
Kamenskiy Kamenskiy, Lobkov Lobkov, Beskrovnyy Beskrovnyy, Kudryavtseva Kudryavtseva, Anufriyev Anufriyev, Pavlov Pavlov (1976)
Components of the upper mantle in the volcanic gases of Kamchatka (according to He, Ne, Ar and C isotopyGeochem. Int., 13
-
Y. Sano, T. Gamo, K. Notsu, H. Wakita (1995)
Secular variations of carbon and helium isotopes at Izu-Oshima Volcano, JapanJournal of Volcanology and Geothermal Research, 64
-
Rubey Rubey (1951)
Geologic history of sea water — An attempt to state the problemGeol. Soc. Amer. Bull, 62
-
B. Marty, W. Giggenbach (1990)
Major and Rare Gases at White Island Volcano, New Zealand: Origin and Flux of VolatilesGeophysical Research Letters, 17
-
Y. Sano (1986)
Helium flux from the solid earthGeochemical Journal, 20
-
William Rubey (1961)
Geologic history of sea water -
K. Turekian (1959)
The terrestrial economy of helium and argonGeochimica et Cosmochimica Acta, 17
-
Y. Sano, H. Wakita, Chinwang Huang (1986)
Helium flux in a continental land area estimated from 3He/4He ratio in northern TaiwanNature, 323
-
W. Giggenbach, Y. Sano, H. Wakita (1993)
Isotopic composition of helium, and CO2 and CH4 contents in gases produced along the New Zealand part of a convergent plate boundaryGeochimica et Cosmochimica Acta, 57
-
Y. Hamano, M. Ozima (1978)
Earth-atmosphere evolution model based on Ar isotopic data, 3
-
B. Marty, A. Jambon (1987)
C3He in volatile fluxes from the solid Earth: implications for carbon geodynamicsEarth and Planetary Science Letters, 83
-
B. Marty, M. Cloarec (1992)
Helium-3 and CO2 fluxes from subaerial volcanoes estimated from polonium-210 emissionsJournal of Volcanology and Geothermal Research, 53
-
T. Gerlach, E. Graeber (1985)
Volatile budget of Kilauea volcanoNature, 313
-
Sano Sano, Sasaki Sasaki, Nagao Nagao (1992)
Noble gas isotopes and chemical compositions in gas seeps from Northwestern CameroonBull. Volcan. Soc. Japan, 37
-
S. Brantley, K. Koepenick (1995)
Measured carbon dioxide emissions from Oldoinyo Lengai and the skewed distribution of passive volcanic fluxesGeology, 23
-
Y. Sano, J. Hirabayashi, Takeshi Oba, T. Gamo (1994)
Carbon and helium isotopic ratios at Kusatsu-Shirane Volcano, JapanApplied Geochemistry, 9
-
M. Javoy, F. Pineau, C. Allègre (1982)
Carbon geodynamic cycleNature, 300
-
P. Allard (1983)
The origin of hydrogen, carbon, sulphur, nitrogen and rare gases in volcanic exhalations : Evidence from isotope geochemistry -
Gerlach Gerlach, Graeber Graeber (1985)
The volatile budget of KilaueaNature, 373
-
T. Gerlach (1991)
Present-day CO2 emissions from volcanosEos, Transactions American Geophysical Union, 72
-
D. Swinbanks (1995)
Kobe earthquake shatters faith in engineersNature, 373
-
Y. Sano, H. Wakita (1985)
Geographical distribution of 3He/4He ratios in Japan: Implications for arc tectonics and incipient magmatismJournal of Geophysical Research, 90
-
T. Gerlach (1989)
Degassing of carbon dioxide from basaltic magma at spreading centers: II. mid-oceanic ridge basaltsJournal of Volcanology and Geothermal Research, 39
- Publisher
- Wiley
- Copyright
- Copyright © 1996 by the American Geophysical Union.
- ISSN
- 0094-8276
- eISSN
- 1944-8007
- DOI
- 10.1029/96GL02260
- Publisher site
- See Article on Publisher Site
Abstract
The potential impact of increases in atmospheric CO2 is a topic of considerable controversy. Even though volcanic emission of CO2 may be very small as compared to anthropogenic emissions, evaluation of natural degassing of CO2 is important for any model of the geochemical C cycle and evolution of the Earth's atmosphere. We report here the mantle C flux in subduction zones based on He and C isotopes and CO2/³ He ratios of high‐temperature volcanic gases and medium‐ and low‐temperature fumaroles in circum‐Pacific volcanic regions. The calculated volcanic C flux of 3.1 × 1012 mol/a from subduction zones is larger than the flux of 1.5 × 1012 mol/a from mid‐ocean ridges, while contributions from the mantle in subduction zone is only 0.30 × 1012 mol/a, equivalent to about 20% of the C flux in mid‐ocean ridges. Since the estimated mantle C flux in hot spot regions is insignificant, 0.029 × 1012 mol/a, we propose that the global mantle C flux is 1.8 × 1012 mol/a in total. The flux, if accumulated over 4.5 billion year of geological time, amounts to 8.3 × 1021 mol which agrees well with 9 × 1021 mol of the present inventory of C at the Earth's surface. This may support a continuous degassing model of C or the idea that subducted C is recycled into the lower mantle.
Journal
Geophysical Research Letters – Wiley
Published: Oct 1, 1996