Mapping modern CO₂ fluxes and mantle carbon content all along the mid-ocean ridge system

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• 作者：D. Chavrit ; E. Humler ; O. Grasset
• 关键词：MORB ; vesicularity ; CO2 flux ; mantle CO2
• 刊名：Earth and Planetary Science Letters
• 出版年：1 February, 2014
• 年：2014
• 卷：387
• 期：Complete
• 页码：229-239
• 全文大小：2759 K

文摘

Quality criteria have been used to select 鈭?00 vesicularity measurements on zero-age mid-ocean ridge glasses from 鈭?00 data available in the literature published over the past 鈭?0 years. At face value, observations show that for a given depth of sampling, enriched basalts from slow spreading ridge segments are more vesicular than those from depleted and intermediate or fast spreading ridges. A shallower depth of eruption enhances these effects because lower hydrostatic pressure favours bubble expansion. In order to get an insight into these complex and intermingled processes, we used empirical and semi-quantitative approaches based on a limited number of inputs (segment depth D, spreading rate 蟿 and K₂O/TiO₂ ratios). Both models give equivalent results and predict vesicularities within 卤50%. From these calculations, we compute the equivalent CO₂ concentration at the depth of eruption all along the oceanic ridge system. The total calculated CO₂ fluxes are low ranging from to and the CO₂ mantle content displays large variabilities from to . In order to test these results, the mantle ³He fluxes have been evaluated using the calculated CO₂ fluxes and a CO₂/³He ratio of . These fluxes range from to and are close to the values reported by (267-534 mol/yr) and the most recent estimate (, ) using box-model of the three main ocean basins constrained by measurements of ³He and radiocarbon data. As these independent methods give similar helium fluxes at regional and global scales, it provides strong support to a low and heterogeneous mantle carbon concentration and distribution. Finally, the calculated volcanic CO₂ emissions at oceanic ridges correspond to 鈭?0 seconds of anthropogenic emissions, at current rates.