Oxygen isotope geochemistry of rocks from DSDP Leg37

The isotopic compositions of minerals separated from DSDP Leg 37 samples indicate that the primary, unaltered δ18O of both the intrusive and extrusive rocks are identical (~5.7 ‰, SMOW) to those of unaltered basalts dredged from mid-ocean ridges. All of the analyzed basalts (6 to 10 ‰) have been enriched in 18O due to weathering by cold seawater, whereas the intrusive rocks (2.4 and 5.0 ‰) are depleted of 18O probably as a result of exchange with hot seawater at the mid-ocean ridge. Both kinds of altered rock are also known from the study of dredged materials. 18O is preferentially removed from seawater by the first process, but is added to seawater by the second. Exchange of oxygen between oceanic crust and seawater must be considered in any discussion of the evolution of the isotopic composition of the oceans, because large volumes of rock are altered each year as the oceanic crust is formed.

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Convection tectonics: some possible effects upon the Earth's surface of flow from the deep mantle

Canadian Journal of Earth Sciences ◽

10.1139/e88-117 ◽

1988 ◽

Vol 25 (8) ◽

pp. 1199-1208 ◽

Cited By ~ 17

Author(s):

J. Tuzo Wilson

Keyword(s):

Land Surface ◽

Angle Of Incidence ◽

Gulf Of Aden ◽

Upward Flow ◽

New Techniques ◽

Ocean Ridges ◽

The Earth ◽

Mid Ocean Ridge ◽

The Subject ◽

Ocean Ridge

Until a little more than a century ago the land surface not only was the only part of the Earth accessible to humans but also was the only part for which geophysical and geochemical methods could then provide any details. Since then scientists have developed ways to study the ocean floors and some details of the interior of the Earth to ever greater depths. These discoveries have followed one another more and more rapidly, and now results have been obtained from all depths of the Earth.New methods have not contradicted or greatly disturbed either old methods or old results. Hence, it has been easy to overlook the great importance of these recent findings.Within about the last 5 years the new techniques have mapped the pattern of convection currents in the mantle and shown that these rise from great depths to the surface. Even though the results are still incomplete and are the subject of debate, enough is known to show that the convection currents take two quite different modes. One of these breaks the strong lithosphere; the other moves surface fragments and plates about.It is pointed out that if expanding mid-ocean ridges move continents and plates, geometrical considerations demand that the expanding ridges must themselves migrate. Hence, collisions between ridges and plates are likely to have occurred often during geological time.Twenty years ago it was shown that the effect of a "mid-ocean ridge in the mouth of the Gulf of Aden" was to enter and rift the continent. This paper points out some of the conditions under which such collisions occur and in particular shows that the angle of incidence between a ridge and a coastline has important consequences upon the result. Several past and present cases are used to illustrate that collisions at right angles tend to produce rifting; collisions at oblique angles appear to terminate in the lithosphere in coastal shears, creating displaced terrane, but in the mantle the upward flow may continue to uplift the lithosphere far inland and produce important surface effects; collisions between coasts and mid-ocean ridges parallel to them produce hot uplifts moving inland. For a time these upwellings push thrusts and folds ahead of them, but they appear to die down before reaching cratons.

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8. Noble Gas Isotope Geochemistry of Mid-Ocean Ridge and Ocean Island Basalts: Characterization of Mantle Source Reservoirs

Noble Gases ◽

10.1515/9781501509056-010 ◽

2002 ◽

pp. 247-318 ◽

Cited By ~ 74

Author(s):

David W. Graham

Keyword(s):

Mantle Source ◽

Isotope Geochemistry ◽

Noble Gas ◽

Ocean Island ◽

Ocean Island Basalts ◽

Mid Ocean Ridge ◽

Noble Gas Isotope ◽

Ocean Ridge

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Partial Melting of the Lower Oceanic Crust: Implications for Tracing the Slab Component in the Source of Mid‐Ocean Ridge Basalts

Journal of Geophysical Research Solid Earth ◽

10.1029/2020jb020673 ◽

2020 ◽

Vol 125 (10) ◽

Author(s):

Yu Wang ◽

Yigang Xu

Keyword(s):

Partial Melting ◽

Oceanic Crust ◽

Mid Ocean Ridge ◽

Ocean Ridge ◽

Lower Oceanic Crust

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Mineralogy of the mid-ocean-ridge basalt source from neodymium isotopic composition of abyssal peridotites

Nature ◽

10.1038/nature00798 ◽

2002 ◽

Vol 418 (6893) ◽

pp. 68-72 ◽

Cited By ~ 136

Author(s):

Vincent J. M. Salters ◽

Henry J. B. Dick

Keyword(s):

Isotopic Composition ◽

Ridge Basalt ◽

Mid Ocean Ridge ◽

Ocean Ridge

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Melvicalathis, a new brachiopod genus (Terebratulida: Chlidonophoridae) fromdeep sea volcanic substrates, and the biogeographic significance of the mid-oceanridge system

Zootaxa ◽

10.11646/zootaxa.1866.1.6 ◽

2008 ◽

Vol 1866 (1) ◽

pp. 136 ◽

Cited By ~ 3

Author(s):

DAPHNE E. LEE ◽

MURRAY R. GREGORY ◽

CARSTEN LÜTER ◽

OLGA N. ZEZINA ◽

JEFFREY H. ROBINSON ◽

...

Keyword(s):

Deep Sea ◽

New Genus ◽

Significant Component ◽

Ocean Ridges ◽

Southeast Indian Ridge ◽

Mid Ocean Ridge ◽

History Of ◽

Cryptic Habitats ◽

Ocean Ridge ◽

Ridge System

Brachiopods form a small but significant component of the deep-sea benthos in all oceans. Almost half of the 40 brachiopod species so far described from depths greater than 2000 m are small, short-looped terebratulides assigned to two superfamilies, Terebratuloidea and Cancellothyridoidea. In this study we describe Melvicalathis, a new genus of cancellothyridoid brachiopod (Family Chlidonophoridae; Subfamily Eucalathinae) from ocean ridge localities in the south and southeast Pacific Ocean, and cryptic habitats within lava caves in glassy basalt dredged from the Southeast Indian Ridge, Indian Ocean. These small, punctate, strongly-ribbed, highly spiculate brachiopods occur at depths between 2009 m and 4900 m, and appear to be primary colonisers on the inhospitable volcanic rock substrate. The ecology and life-history of Melvicalathis and related deep-sea brachiopods are discussed. Brachiopods are rarely reported from the much-studied but localised hydrothermal vent faunas of the mid ocean ridge systems. They are, however, widespread members of a poorly known deep-sea benthos of attached, suspension-feeding epibionts that live along the rarely sampled basalt substrates associated with mid-ocean ridge systems. We suggest that these basalt rocks of the mid-ocean ridge system act as deep-sea “superhighways” for certain groups of deep-sea animals, including brachiopods, along which they may migrate and disperse. Although the mid-ocean ridges form the most extensive, continuous, essentially uniform habitat on Earth, their biogeographic significance may not have been fully appreciated.

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