L. V. Dmitriev scite author profile

Different parts of the world ridge system have quite different morphologies, which reflect different constructional processes. It appears that hydrothermal circulation at all spreading centers is an important exchange process between the ocean and the newly formed oceanic crust. This hydrothermal circulation may vary according to morphology and crustal composition and may also affect ridge constructional processes. The TAG (26°N) and Snake Pit (23°N) hydrothermal sites on the Mid‐Atlantic Ridge (MAR) display Mn/CH4 ratios in overlying seawater similar to those of nonsedimented East Pacific Rise sites, i.e., about 0.2 mol/L. In contrast, large methane anomalies with very low Mn/CH4 ratios of 0.005 mol/L are associated with ultramafic topographic highs near 15°N, close to the axis and on ultramafic walls of the rift valley. The association of ultramafic bodies and CH4 anomalies in seawater indicates active serpentinization processes. CH4 is produced during serpentinization according to the Fisher Tropsch reaction (Charlou et al., 1991). Many ultramafic rock assemblages have been sampled on the MAR away from fracture zones, in particular by the Deep Sea Drilling Project. Changes of mechanical properties and of density of uplifted deep material in the accreting plate boundary zone caused by serpentinization may play an important role in the construction of slow spreading ridges.

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Mantle heterogeneity from trace elements: MAR triple junction near 14°N

Bougault

Dmitriev

Schilling

et al. 1988

Earth and Planetary Science Letters

108

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L. V. Dmitriev

Ultramafic and gabbroic exposures at the Mid-Atlantic Ridge: geological mapping in the 15°N region

MORB alteration: Rare-earth element/non-rare-earth hygromagmaphile element fractionation

Noble gases in basalt glasses from a Mid-Atlantic Ridge topographic high at 14°N: geodynamic consequences

Fast and slow spreading ridges: Structure and hydrothermal activity, ultramafic topographic highs, and CH₄ output

Mantle heterogeneity from trace elements: MAR triple junction near 14°N

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L. V. Dmitriev

Ultramafic and gabbroic exposures at the Mid-Atlantic Ridge: geological mapping in the 15°N region

MORB alteration: Rare-earth element/non-rare-earth hygromagmaphile element fractionation

Noble gases in basalt glasses from a Mid-Atlantic Ridge topographic high at 14°N: geodynamic consequences

Fast and slow spreading ridges: Structure and hydrothermal activity, ultramafic topographic highs, and CH4 output

Mantle heterogeneity from trace elements: MAR triple junction near 14°N

Contact Info

Product

Resources

About

Fast and slow spreading ridges: Structure and hydrothermal activity, ultramafic topographic highs, and CH₄ output