NEW DATA ON THE COMPOSITION OF BASALTS FROM SEAMOUNT NEAR THE EASTERN FLANK OF THE CHARLIE GIBBS FZ (NORTH ATLANTIC)

S. G. Skolotnev; Сколотнев С. Г.; A. A. Peyve; Пейве А. А.; S. A. Dokashenko; Докашенко С. А.; V. N. Dobrolyubov; Добролюбов В. Н.; O. I. Okina; Окина О. И.; B. V. Ermolaev; Ермолаев Б. В.

doi:10.31857/S2686739723601801

NEW DATA ON THE COMPOSITION OF BASALTS FROM SEAMOUNT NEAR THE EASTERN FLANK OF THE CHARLIE GIBBS FZ (NORTH ATLANTIC)

Autores: Skolotnev S.¹, Peyve A.¹, Dokashenko S.¹, Dobrolyubov V.¹, Okina O.¹, Ermolaev B.¹
Afiliações:
1. Geological institute, Russian Academy of Sciences
Edição: Volume 513, Nº 2 (2023)
Páginas: 189-195
Seção: ПЕТРОЛОГИЯ
URL: https://journals.rcsi.science/2686-7397/article/view/247157
DOI: https://doi.org/10.31857/S2686739723601801
EDN: https://elibrary.ru/ZZMWBL
ID: 247157

Citar

Texto integral

Acesso aberto
Acesso é fechado

Acesso está concedido
Acesso é fechado

Somente assinantes

Resumo
Sobre autores
Bibliografia
Arquivos suplementares
Estatísticas

Resumo

Composition of basalts collected from the slopes of a single seamount (guyot) located south of the eastern flank of the Charlie Gibbs FZ in the North Atlantic, was studied. High-titanium and low-titanium groups related respectively to E-MORB and T-MORB oceanic tholeites, were singled out. Basalts of the first group are characterized by higher concentrations of TiO₂, Na₂O, K₂O, P₂O₅, Fe₂O₃ and incoherent trace-elements. Basalts of both groups were melted from a mantle substrate of similar composition, which is a mixture of DM and HIMU mantle material and to a lesser extent – EM-2. Their difference in composition is due to the fact that high-titanic melts were formed deeper at a level between the spinel and garnet facies. Basalts similar in petro-geochemical and isotopic parameters were found in the axial zone of the Mid-Atlantic Ridge between the Charlie Gibbs and Maxwell FZ, where they compose large neovolcanic edifices formed with a sharp increase in the intensity of axial magmatism as a result of microplumes rise. Our studies give grounds to believe that the studied seamount was also formed as a large neovolcanic structure 64–67 million years ago under the influence of a microplume, which was branch of the Milne plume of the deep mantle.

Palavras-chave

basalt, petro-geochemical parameters, seamount, isotopic composition of mantle substrate, Charlie Gibbs FZ, North Atlantic

Bibliografia

Wilson J.T. A possible origin of the Hawaiian Islands // Canadian J. Phys. 1963. V. 41. P. 863–870.
General Bathymetric Chart of the Oceans (GEBCO). Ottawa: Canad. Hydrogr. Serv. 2004.
Сколотнев С.Г., Пейве А.А., Иваненко А.Н. и др. Новые данные о геологическом строении восточного фланга трансформного разлома Чарли Гиббс (Северная Атлантика) // Доклады РАН. Науки о Земле. 2022. Т. 504. № 2. С. 121–126.
Сколотнев С.Г., Пейве А.А., Санфилиппо А и др. Геолого-геофизические исследования в Северной Атлантике в 53-м рейсе судна “Академик Сергей Вавилов” // Океанология. 2022. Т. 62. № 4. С. 664–666.
Okina O.I., Lyapunov S.M., Dubensky A.S. Influence of sample treatment after bomb digestion on determination of trace elements in rock samples by ICP-MS // Microchem. J. 2018. V. 140. P. 123–128.
Сущевская Н.М., Лейченков Г.Л., Беляцкий Б.В., Жилкина А.В. Эволюция плюма Кару-Мод и его влияние на формирование мезозойских магматических провинций в Антарктиде // Геохимия. 2022. № 6. С. 503–525.
Sun S.S., Nesbit R.W., Sharaskin A.Ya. Geochemical characteristics of mid-ocean ridge basalts // EPSL. 1979. V. 96. P. 119–133.
Ellam R.M. Lithospheric thickness as a control on basalt geochemistry // Geology. 1992. V. 20. P. 153–156.
Hoffman A.W. Chemical differentiation of the Earth: The relationships between mantle, continental crust, and oceanic crust // EPSL. 1991. V. 90. P. 297–314.
Weaver B.L., Wood D.A., Tarney J., et al. Geochemistry of ocean island basalts from the South Atlantic: Ascension, Bouvet, St. Helena, Gough and Tristan da Cunha // Geological society special publication. 1987. № 30. P. 253–267.
GEOROC Database (Geochemistry of Rocks of the Oceans and Continents) Version 2023-06-01. 2023. https://georoc.eu/georoc/
Hart S.R. Heterogeneous mantle domains: signatures, genesis and mixing chronologies // EPSL. 1988. V. 90. № 3. P. 273–296.
Пейве А.А., Соколов С.Ю., Разумовский А.А. и др. Соотношение магматических и тектонических процессов при формировании океанической коры к югу от разлома Чарли Гиббс (Северная Атлантика) // Геотектоника. 2023. № 1. С. 48–74.
Schilling J.G., Thompson G., Kingsley R., et al. Hotspot-migrating ridge interaction in the South Atlantic // Nature. 1985. V. 313. P. 187–191.
Fontignie D., Schilling J.G. Mantle-plume interactions in the Central North Atlantic: a Nd isotope study of Mid-Atlantic Ridge basalts from 30°N to 50°N // EPSL. 1997. V. 146. P. 259–272.
Whitmarsh R.B., Ginzburg A., Searle R.C. The Structure and Origin of the Azores-Biscay Rise, North-east Atlantic Ocean // Geophys. J. R. Astron. Soc. 1982. V. 70. P. 79–107.