FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2030804773> ?p ?o ?g. }

• W2030804773 endingPage "131" @default.
• W2030804773 startingPage "105" @default.
• W2030804773 abstract "The 117.38 m of gabbroic core drilled during the Ocean Drilling Program (ODP) Leg 153 at Sites 921 to 924 in the Mid-Atlantic Ridge (MAR) between 23 °N and the Kane Fracture Zone, exhibits a remarkable primary compositional heterogeneity, such as magmatic layering, intrusive contacts and late magmatic veining, which express a succession of magmatic events. Textural indicators suggest that the cooling of the crystal mush occurred in a dynamic environment, with infiltration of progressively evolved liquids. Magmatic features include random shape fabric and magmatic lamination; the subsequent deformational overprint occurred in subsolidus conditions. The ductile deformation, generally concentrated in discrete domains of the gabbro, is associated with continuous re-equilibration of the metamorphic assemblages of (1) olivine + clinopyroxene + orthopyroxene + plagioclase + ilmenite + Ti-magnetite, (2) olivine + clinopyroxene + plagioclase + ilmenite + Ti-magnetite + red hornblende. At lower temperatures brittle deformation prevails and subsequent fractures control the development of metamorphic assemblages: (3) clinopyroxene + plagioclase + red brown hornblende + Ti-magnetite + magnetite (?) + ilmenite, (4) plagioclase + brown hornblende + Ti-magnetite + magnetite + hematite + titanite ± Ti-oxide, (5) plagioclase + green hornblende + magnetite + titanite, (6) plagioclase + actinolite + chlorite + titanite + magnetite, (7) albite + actinolite + chlorite + prehnite ± epidote ± titanite and (8) albite + prehnite + chlorite ± smectite. Assemblages 1 to 8 express increasing water/rock ratios and decreasing degrees of recrystallization. During the ductile phase, red hornblende is stable and its abundance increases with deformation intensity, possibly as an effect of the introduction of hydrous fluids. During the brittle phase, water diffusion controls the development of the fracture-filling mineral assemblages and re-equilibration of the adjacent rock; temperatures decrease further, as demonstrated by mineral zoning and incompletely re-equilibrated assemblages. The lowest temperatures correspond to the development of hydrothermal assemblages. Compared with oceanic gabbros from fast-spreading transform environments, high-temperature ductile phases (granulite and amphibolite) are well developed, whereas brittle phases are widespread, as microcracks, prevalent on fracturing associated with discrete veins." @default.
• W2030804773 created "2016-06-24" @default.
• W2030804773 creator A5008169524 @default.
• W2030804773 creator A5010835757 @default.
• W2030804773 date "1997-07-01" @default.
• W2030804773 modified "2023-10-16" @default.
• W2030804773 title "Metamorphic evolution of oceanic gabbros: recrystallization from subsolidus to hydrothermal conditions in the MARK area (ODP Leg 153)" @default.
• W2030804773 cites W1518066267 @default.
• W2030804773 cites W1604384216 @default.
• W2030804773 cites W1640595088 @default.
• W2030804773 cites W1965952060 @default.
• W2030804773 cites W1967419716 @default.
• W2030804773 cites W1976165201 @default.
• W2030804773 cites W1977664265 @default.
• W2030804773 cites W1983815388 @default.
• W2030804773 cites W1993619314 @default.
• W2030804773 cites W1994430007 @default.
• W2030804773 cites W1996038144 @default.
• W2030804773 cites W1996154638 @default.
• W2030804773 cites W2000669040 @default.
• W2030804773 cites W2002103876 @default.
• W2030804773 cites W2010964930 @default.
• W2030804773 cites W2016778781 @default.
• W2030804773 cites W2016963914 @default.
• W2030804773 cites W2019488024 @default.
• W2030804773 cites W2022685764 @default.
• W2030804773 cites W2023114522 @default.
• W2030804773 cites W2029974429 @default.
• W2030804773 cites W2033673931 @default.
• W2030804773 cites W2037891103 @default.
• W2030804773 cites W2038814991 @default.
• W2030804773 cites W2040409058 @default.
• W2030804773 cites W2040549377 @default.
• W2030804773 cites W2046098057 @default.
• W2030804773 cites W2058147531 @default.
• W2030804773 cites W2067431079 @default.
• W2030804773 cites W2069160390 @default.
• W2030804773 cites W2076704195 @default.
• W2030804773 cites W2080025467 @default.
• W2030804773 cites W2082353936 @default.
• W2030804773 cites W2090090002 @default.
• W2030804773 cites W2103517719 @default.
• W2030804773 cites W2124048914 @default.
• W2030804773 cites W2129792258 @default.
• W2030804773 cites W2132688801 @default.
• W2030804773 cites W2188032619 @default.
• W2030804773 cites W2312570278 @default.
• W2030804773 cites W2312807377 @default.
• W2030804773 cites W2316199347 @default.
• W2030804773 cites W2316607731 @default.
• W2030804773 cites W2328767116 @default.
• W2030804773 cites W2331957337 @default.
• W2030804773 cites W2504315980 @default.
• W2030804773 cites W2551216530 @default.
• W2030804773 doi "https://doi.org/10.1016/s0024-4937(97)00006-6" @default.
• W2030804773 hasPublicationYear "1997" @default.
• W2030804773 type Work @default.
• W2030804773 sameAs 2030804773 @default.
• W2030804773 citedByCount "21" @default.
• W2030804773 countsByYear W20308047732015 @default.
• W2030804773 countsByYear W20308047732016 @default.
• W2030804773 countsByYear W20308047732017 @default.
• W2030804773 countsByYear W20308047732019 @default.
• W2030804773 countsByYear W20308047732021 @default.
• W2030804773 countsByYear W20308047732022 @default.
• W2030804773 crossrefType "journal-article" @default.
• W2030804773 hasAuthorship W2030804773A5008169524 @default.
• W2030804773 hasAuthorship W2030804773A5010835757 @default.
• W2030804773 hasConcept C127313418 @default.
• W2030804773 hasConcept C151730666 @default.
• W2030804773 hasConcept C17409809 @default.
• W2030804773 hasConcept C26687426 @default.
• W2030804773 hasConcept C2775859737 @default.
• W2030804773 hasConcept C2777212541 @default.
• W2030804773 hasConcept C2777229588 @default.
• W2030804773 hasConcept C2777640183 @default.
• W2030804773 hasConcept C2779181077 @default.
• W2030804773 hasConcept C2779870107 @default.
• W2030804773 hasConcept C2780375929 @default.
• W2030804773 hasConcept C42787717 @default.
• W2030804773 hasConcept C5900021 @default.
• W2030804773 hasConcept C79605941 @default.
• W2030804773 hasConceptScore W2030804773C127313418 @default.
• W2030804773 hasConceptScore W2030804773C151730666 @default.
• W2030804773 hasConceptScore W2030804773C17409809 @default.
• W2030804773 hasConceptScore W2030804773C26687426 @default.
• W2030804773 hasConceptScore W2030804773C2775859737 @default.
• W2030804773 hasConceptScore W2030804773C2777212541 @default.
• W2030804773 hasConceptScore W2030804773C2777229588 @default.
• W2030804773 hasConceptScore W2030804773C2777640183 @default.
• W2030804773 hasConceptScore W2030804773C2779181077 @default.
• W2030804773 hasConceptScore W2030804773C2779870107 @default.
• W2030804773 hasConceptScore W2030804773C2780375929 @default.
• W2030804773 hasConceptScore W2030804773C42787717 @default.
• W2030804773 hasConceptScore W2030804773C5900021 @default.
• W2030804773 hasConceptScore W2030804773C79605941 @default.
• W2030804773 hasIssue "2-4" @default.
• W2030804773 hasLocation W20308047731 @default.

• next