Search

Your search keyword '"S. G. Skolotnev"' showing total 71 results
Start Over Author "S. G. Skolotnev" Database OpenAIRE
71 results on '"S. G. Skolotnev"'

1. New Data on the Geological Structure of the Eastern Flank of the Charlie Gibbs Fracture Zone (North Atlantic)

Author

S. G. Skolotnev, A. A. Peyve, A. N. Ivanenko, K. O. Dobrolyubova, A. Sanfilippo, M. Ligi, S. Yu. Sokolov, I. A. Veklich, L. Petracchini, V. Basch, C. Ferrando, C. Sani, M. Bickert, F. Muccini, C. Palmiotto, M. Cuffaro, D. A. Kuleshov, V. N. Dobrolyubov, N. A. Shkittin, S. A. Dokashenko, and E. S. Yakovenko

Subjects
Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences
Published
2022

3. Peculiarities of the Tectonomagmatic Processes in the Interaction Area between the Icelandic Plume and the Bight Transform Fault (North Atlantic)

Author

S. G. Skolotnev, A. A. Peyve, A. Sanfilippo, A. N. Ivanenko, M. Ligi, I. A. Veklich, L. Petracchini, V. Basch, D. A. Kuleshov, C. Ferrando, V. N. Dobrolyubov, C. Sani, N. A. Shkittin, M. Bickert, S. A. Dokashenko, F. Muccini, E. S. Yakovenko, C. Palmiotto, and M. Cuffaro

Subjects
Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences
Published
2022

8. Geological and Geophysical Studies of the Charlie Gibbs Fracture Zone (North Atlantic)

Author

Enrico Bonatti, K. N. Sholukhov, Filippo Muccini, A. N. Ivanenko, I. A. Veklich, V. N. Dobrolybov, S. G. Skolotnev, A. A. Razumovskii, Camilla Palmiotto, Valentin Basch, Alessio Sanfilippo, Lorenzo Petracchini, Marco Cuffaro, Camilla Sani, K. O. Dobrolybova, S. Yu. Sokolov, Yago Nestola, Y. V. Brusilovsky, Carlotta Ferrando, Alexander A Peyve, Marco Ligi, A. N. Pertsev, and A. S. Bich

Subjects
geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, North Atlantic, Transform fault, Fracture zone, Charlie Gibbs transform fault, megatransform system, Detailed data, Geophysics, 010502 geochemistry & geophysics, 01 natural sciences, Mantle (geology), Ridge, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, System structure, Geology, 0105 earth and related environmental sciences
Abstract

The geological and geophysical data obtained during the 50th cruise of R/V Akademik Nikolaj Strakhov on the Charlie Gibbs megatransform system structure in the North Atlantic are presented. The structure of the Charlie Gibbs Fracture Zone was examined in detail, considering previously published data. It has been shown that the northern and southern segments of the Mid-Atlantic Ridge, separated by the Charlie Gibbs transform fault, are entirely different in morphology, and hence in terms of formation. The dredged rocks are represented by an entire spectrum from the mantle to upper crustal varieties and allow us to determine the origin of the main structures of the Charlie Gibbs megatransform system considering detailed data on the morphology.

Published
2021

9. New Data on the Structure of the Megatransform System of the Doldrums (Central Atlantic)

Author

Alexander A Peyve, A. S. Gryaznova, C. Ferrando, N. P. Chamov, K. O. Dobroliubova, Alessio Sanfilippo, S. G. Skolotnev, Camilla Sani, S. Yu. Sokolov, A. N. Pertsev, K. N. Sholukhov, A. S. Bich, and Filippo Muccini

Subjects
Rift, Central Atlantic, megatransform system, 010504 meteorology & atmospheric sciences, Transform fault, 010502 geochemistry & geophysics, 01 natural sciences, Mantle (geology), Doldrums, Paleontology, Tectonics, Sinistral and dextral, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Bathymetry, Geology, 0105 earth and related environmental sciences
Abstract

The geological and geophysical data acquired during cruise 45 of R/V Akademik Nikolaj Strakhov regarding the structure of the Doldrums megatransform system in the Central Atlantic are presented. Taking into account the data of the previous expeditions, the structure of this region is examined in detail. The bathymetric data confirm the complex morphology, consisting of five dextral transform faults, separated by four active intra-transform rift segments and indicates the variability of tectonic conditions in this region. The dredged rocks are represented by the entire spectrum from the mantle to the upper crustal varieties and, together with the detailed topographic data, make it possible to identify the origin of the key structures in the Doldrums megatransform system.

Published
2020

10. Genesis of oceanic oxide gabbros and gabbronorites during reactive melt migration at transform walls (Doldrums Megatransform System; 7-8°N Mid-Atlantic Ridge)

Author

V Basch, A Sanfilippo, S G Skolotnev, C Ferrando, F Muccini, C Palmiotto, A A Peyve, B V Ermolaev, O I Okina, and M Ligi

Subjects
Geophysics, Geochemistry and Petrology
Abstract

The Doldrums Megatransform System (~7–8°N, Mid-Atlantic Ridge) shows a complex architecture including four intra-transform ridge segments bounded by five active transform faults. Lower crustal rocks are exposed along the Doldrums and Vernadsky transform walls that bound the northernmost intra-transform ridge segment. The recovered gabbros are characterized by variably evolved chemical compositions, ranging from olivine gabbros to gabbronorites and oxide gabbros, and lack the most primitive gabbroic endmembers (troctolites, dunites). Notably, the numerous recovered gabbronorites show up to 20 vol. % of coarse-grained orthopyroxene. Although covariations in mineral and bulk-rock chemical compositions of the olivine and oxide gabbros define trends of crystallization from a common parental melt, the gabbronorites show elevated light over heavy rare earth elements (LREE/HREE) ratios in both bulk-rock and mineral compositions. These features are not consistent with a petrological evolution driven solely by fractional crystallization, which cannot produce the preferential enrichments in highly incompatible elements documented in the orthopyroxene-bearing lithologies. We suggest that gabbronorites crystallized from evolved melts percolating and partly assimilating a pre-existing olivine gabbro matrix. Saturation in orthopyroxene and selective enrichments in LREE relative to M-HREE are both triggered by an increase in assimilated crystal mass, which ranges from negligible in the oxide-gabbros to abundant in the gabbronorites. This melt–rock reaction process has been related to lateral melt migration beneath ridge-transform intersections, where variably evolved melts injected from the peripheral parts of the melting region towards the transform zone may interact with a gabbroic crystal mush to form abundant oxide-bearing gabbronoritic associations.

Published
2022

11. U-Pb dating, oxygen and hafnium isotopic ratios of zircon from rocks of oceanic core complexes at Mid-Atlantic Ridge: evidence for an interaction of young and ancient crusts at spreading of the ocean floor

Author

S. G. Skolotnev, N. S. Bortnikov, T. F. Zinger, Evgenii Sharkov, Fernando Bea, S. А. Silantiev, and Pilar Montero

Subjects
Multidisciplinary, chemistry, δ18O, Oceanic crust, Continental crust, Ridge (meteorology), Geochemistry, chemistry.chemical_element, Mid-Atlantic Ridge, Geology, Isotopes of oxygen, Hafnium, Zircon
Abstract

U-Pb age, oxygen and hafnium isotopic ratios in zircon from rocks of ocean core complexes at Mid-Atlantic Ridge have been studied using SHRIMP and MC-LA-ICP-MS techniques. U-Pb dating revealed four group of zircons: 1) 0,6-1,7 Ma, 2) 6,7-11,2 Ma, 3) 12,9-17,6 Ma, 4) 200 to 2044 Ma. The 18O values range from 4,74 to 7,2 and are distinct for zircon grains of different ages. Hafnium isotopic ratio for zircon aged from 0,6 to 17,6 Ma corresponds or is close to that of MORB from Central Atlantic. The oxygen and hafnium isotopic compositions of zircon elder than 280 Ma correspond to those of the sialic continental crust. A hypothesis of involvement of the ancient pre-Atlantic sialic (280 млн лет) and old Atlantic (7-17 Ma) crusts in a generation of the contemporary (young) oceanic crust during formation of the slow-spreading Mid-Atlantic Ridge has been proposed.

Published
2019

12. U–Pb Dating, Oxygen and Hafnium Isotope Ratios of Zircon from Rocks of Oceanic Core Complexes at the Mid-Atlantic Ridge: Evidence for the Interaction of Contemporary and Ancient Crusts in the Spreading Center of the Ocean Floor

Author

N. S. Bortnikov, Sergei Silantyev, Pilar Montero, Evgenii Sharkov, T. F. Zinger, S. G. Skolotnev, and Fernando Bea

Subjects
010504 meteorology & atmospheric sciences, δ18O, Continental crust, Geochemistry, chemistry.chemical_element, Mid-Atlantic Ridge, 010502 geochemistry & geophysics, 01 natural sciences, Oxygen, chemistry, Oceanic crust, Earth and Planetary Sciences (miscellaneous), Ridge (meteorology), General Earth and Planetary Sciences, Geology, Seabed, 0105 earth and related environmental sciences, Zircon
Abstract

The U–Pb age and oxygen and hafnium isotope ratios of zircon from rocks of oceanic core complexes along the Mid-Atlantic Ridge have been studied using SHRIMP and MC-LA-ICP-MS techniques. The U–Pb dating revealed four groups of zircon: (1) 0.6–1.7 Ma, (2) 6.7–11.2 Ma, (3) 12.9–17.6 Ma, and (4) ≥ 200 to 2044 Ma. The δ18O values range from 4.74 to 7.2‰ and are distinct for zircon grains of different ages. The hafnium isotope ratio for zircon with an age from 0.6 to 17.6 Ma corresponds or is close to that of the MORB from the Central Atlantic. The oxygen and hafnium isotope compositions of zircon older than 280 Ma correspond to those of the sialic continental crust. The hypothesis of involvement of the ancient “pre-Atlantic” sialic (≥280 Ma) and “old Atlantic” (7–17 Ma) crusts in the generation of the contemporary (“juvenile”) oceanic crust during the formation of the slow-spreading Mid-Atlantic Ridge has been proposed.

Published
2019

13. New data concerning the ferromanganese crusts of the Mendeleev rise (Arctic Ocean)

Author

S. G. Skolotnev and E. S. Bazilevskaya

Subjects
Multidisciplinary, Arctic, Geochemistry, Submarine, Silt, Ferromanganese, Substrate (marine biology), Geology, The arctic
Abstract

The results of study of Fe-Mn crusts from the Mendeleev Rise in the Arctic Ocean in 2016 sampled with manipulators from a submarine are presented. Concentrations of Fe, Mn, Co, Ni, Zn, Cu, Cr and Pb are measured in collected Fe-Mn crusts. The variations in the content of these elements are determined by the chemical properties of the elements, the height of the underwater topography, the composition of the underlying substrate and the presence of bottom silt.

Published
2019

14. New Data on Ferromanganese Crusts of Mendeleev Rise, Arctic Ocean

Author

S. G. Skolotnev and E. S. Bazilevskaya

Subjects
geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Bedrock, 010502 geochemistry & geophysics, 01 natural sciences, Ferromanganese, Substrate (marine biology), Arctic, Environmental chemistry, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Geology, 0105 earth and related environmental sciences
Abstract

This paper considers the compositions of ferromanganese crusts and nodules (FMCNs) growing on bedrock of Mendeleev Rise, collected in 2016 using a research submarine. The concentrations of Fe, Mn, Co, Ni, Zn, Cu, Cr, and Pb are measured in the collected FMCNs. Analysis of the variations in the contents of ore elements in the studied FMCNs shows that these changes are determined by the following factors: (1) the relative heights of submarine relief (higher relief is characterized by higher concentrations of Co and Ni); (2) substrate character (if it is a tuff, then its alteration provides additional Mn and Zn enrichment of FMCNs); (3) participation of bottom ooze (in the case of extensive contact of substrate fragments with ooze under the influence of pore waters, FMCNs become enriched in elements such as Mn, Co, and Ni); (4) chemical properties of elements (Mn hydroxides concentrate Co and Ni, whereas Fe hydroxides host Cu and Zn).

Published
2019

15. Geology of the Charlie Gibbs transform system (52-53ºN, Mid Atlantic Ridge): preliminary results from Akademik Nikolaj Strakhov Expedition S50

Author

Alexander A Peyve, S. G. Skolotnev, and Alessio Sanfilippo

Subjects
Paleontology, Mid-Atlantic Ridge, Geology
Abstract

The Charlie Gibbs offsetting by ~340 km the Mid Atlantic Ridge (MAR) axis between 52°-53° N is one of the main transform systems of the North Atlantic. Located between long mid-ocean ridge segments influenced to the south by the Azores and to the north by the Iceland mantle plume, this transform system has been active since the early phases of North Atlantic rifting. Object of several surveys in the ‘70 and ‘80, Charlie Gibbs received great attention for its unique structure characterized by two long-lived right-lateral transform faults linked by a short ~40 km-long intra-transform spreading centre (ITR) with parallel fracture zone valleys extending continuously towards the continental margins. In October 2020 expedition S50 of the R/V A.N. Strakhov surveyed an area of 54552 km2 covering the entire Charlie Gibbs transform system and the adjacent MAR spreading segments. We collected new bathymetric, magnetic and high-resolution single channel seismic data, along with basaltic, gabbroic and mantle rocks from 21 dredges. In this contribution we present preliminary data from cruise S50 and discusses the large-scale architecture of this unique, long-lived transform system.

Published
2021

16. Multidisciplinary Investigation of the Transform Fault Zones Doldrums and Vema during Cruise 45 of the R/V 'Akademik Nikolaj Strakhov'

Author

F. N. Gippius, N. P. Chamov, Alessio Sanfilippo, S. Yu. Sokolov, D. M. Korshunov, Alexander A Peyve, K. N. Sholukhov, Carlotta Ferrando, A. S. Bich, N. V. Simagin, A. N. Demidov, T. F. Zinger, V. V. Mashura, N. V. Nemchenko, K. Sani, Filippo Muccini, D. G. Borisov, O. V. Levchenko, K. O. Dobroliubova, Elena Ivanova, S. G. Skolotnev, A. N. Pertsev, A. S. Gryaznova, and I. B. Shakhovskoy

Subjects
Antarctic Bottom Waters, Mid-Atlantic Ridge, 010504 meteorology & atmospheric sciences, 010505 oceanography, Cruise, Transform fault, contourites, Contourite, transform faults, Oceanography, 01 natural sciences, Doldrums, Paleontology, Multidisciplinary approach, Geology, 0105 earth and related environmental sciences
Abstract

Herein we provide information on the integrated geological, geophysical, sedimentological, paleoceanographic, hydrophysical and biological investigations in the Central Atlantic during the cruise 45 of the R/V “Akademik Nikolaj Strakhov” in October-November 2019. The preliminary scientific results are discussed.

Published
2020

17. Sources of Magmatic Rocks from the Deep-Sea Floor of the Arctic Ocean and the Central Atlantic: Evidence from Data on the U–Pb Age, Hf Isotopes, and REE Geochemistry of Zircons

Author

N. A. Gromalova, A. A. Kremenetskiy, Elena Belousova, O. G. Shuliatin, and S. G. Skolotnev

Subjects
010504 meteorology & atmospheric sciences, Isotope, Geochemistry, 010502 geochemistry & geophysics, 01 natural sciences, Deep sea, Mantle (geology), The arctic, Arctic, Lithosphere, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Geology, 0105 earth and related environmental sciences
Abstract

The results of geochronological (U–Pb), isotope–geochemical (Lu–Hf), and geochemical (REEs) studies of young (MZ, KZ) and xenogenic (AR, PR) zircons from magmatic rocks of the Central Arctic rises of the Arctic Ocean (AO) and the crest zone of the Mid-Atlantic Ridge (MAR) are presented. The data obtained show that the depleted mantle could be a source of young (KZ) zircons of the MAR, whereas young (MZ) zircons of the MAR and all xenogenic (AR, PR) zircons of the AO and MAR are from crustal rocks of the continental lithosphere.

Published
2018

18. New Data on the Composition of Ophiolite Complexes on Karaginskii Island (Eastern Kamchatka)

Author

N. V. Tsukanov, S. G. Skolotnev, and Evgeny G. Sidorov

Subjects
Peridotite, 010504 meteorology & atmospheric sciences, Subduction, Geochemistry, 010502 geochemistry & geophysics, Ophiolite, 01 natural sciences, Mantle (geology), Abyssal zone, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Metasomatism, Geology, 0105 earth and related environmental sciences
Abstract

The geochemistry and composition of peridotite rock-forming minerals from blocks in the serpentinite melange of Karaginskii Island have been studied. The composition features of the rock-forming minerals are indicative of the fact that they represent abyssal peridotites of the mid-oceanic ridges that did not undergo remelting under suprasubduction conditions. According to the geochemical data, these rocks were subject to metasomatic alterations under mantle conditions in the suprasubduction setting, which were caused by metasomatizing melts and/or fluids generated in the subduction zone.

Published
2018

19. Age of Plutonic Rocks from the Vema Fracture Zone (Central Atlantic) and Nature of Their Mantle Sources

Author

S. A. Silantyev, M. O. Anosova, S. G. Skolotnev, V. V. Shabykova, and Yu. A. Kostitsyn

Subjects
Gabbro, 020209 energy, Geochemistry, Transform fault, Metamorphism, Fracture zone, 02 engineering and technology, 010502 geochemistry & geophysics, 01 natural sciences, Mantle (geology), Geophysics, Geochemistry and Petrology, 0202 electrical engineering, electronic engineering, information engineering, Mafic, Primitive mantle, Geology, 0105 earth and related environmental sciences, Zircon
Abstract

This study presents the results of petrographic, geochemical, and isotope geochronological analyses of rock samples from the Southern flank of the Vema transform fault (Atlantic), which were dredged on cruises 19-th and 22-nd of the R/V Akademik Nikolai Strakhov. The sample suite includes both fresh and metamorphosed gabbros, dolerites, serpentinites, metapyroxenites. Zircons separated from three gabbro samples recovered at three different stations were used for in situ U–Pb dating by LA-ICP-MS. The ages reveal a strong linear relationship with a distance from the axis of the Mid-Atlantic ridge, which allowed us to estimate the rate of spreading in this segment of the Mid-Atlantic Ridge. It can be concluded that the estimated spreading rate of 16.2 ± 0.8 mm/yr was constant over the past 15 Myr. The mutual consistency of all U-Pb zircon and 39Ar–40Ar amphibole ages (Cipriani et al., 2009) obtained from the sampled transect suggests the temporal continuity of magmatic events that led to the formation of the original gabbroic rocks and their transformation during subsequent metamorphism. Rb—Sr isotope data show that hydrothermal activity took place in the presence of seawater between 14.7 and 9 Ma in the spreading axis region. Variations in the Nd isotopic composition in the time sequence of magmatic events indicate a high degree of chemical and isotopic heterogeneity of the ascending mantle material which became later entrained in the melting region beneath a spreading zone. Melting of the sources with primitive mantle composition (eNd ~ + 8 to +9) as well as enriched sources took place in the time interval between ~ 17 and 14.7 Ma and at about 8 Ma. The enriched source material is most likely represented by ancient mafic substratum.

Published
2018

20. New Data on the Composition of Cretaceous Volcanic Rocks of the Alazeya Plateau, Northeastern Yakutia

Author

S. G. Skolotnev and N. V. Tsukanov

Subjects
geography, geography.geographical_feature_category, Formation of rocks, 020209 energy, Geochemistry, 02 engineering and technology, Fold (geology), 010502 geochemistry & geophysics, 01 natural sciences, Cretaceous, Volcanic rock, Igneous rock, Transition zone, 0202 electrical engineering, electronic engineering, information engineering, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Island arc, Geology, 0105 earth and related environmental sciences
Abstract

This work presents new data on the composition of volcanics, developed within the Alazeya Plateau of the Kolyma–Indigirka fold area (Northeast Russia), which indicate essential differences in their composition and, accordingly, different geodynamic settings of the formation of rocks. The studied igneous rocks are subdivided into two groups. Volcanics of the first group of the Late Cretaceous age, which are represented by differentiated volcanic rock series (from andesitobasalts to dacites and rhyolites), were formed under island arc conditions in the continent–ocean transition zone. Volcanics of the second group are ascribed to the tholeiitic series and were formed under the other geodynamic setting, which is associated with the regime of extension and riftogenesis, manifested in the studied area probably at the later stage.

Published
2018

22. Specific features of basalts from the western part of Andrew Bain Fault, Southwest Indian Ridge

Author

S. G. Skolotnev and Alexander A Peyve

Subjects
Basalt, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Geochemistry, Bouvet Island, 010502 geochemistry & geophysics, 01 natural sciences, Mantle (geology), Original data, Plume, Volcanic rock, Gondwana, Magmatism, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Geology, 0105 earth and related environmental sciences
Abstract

This paper reports original data on the composition of volcanic rocks in the western part of the Andrew Bain Fault of the South-West Indian Ridge obtained in the 23rd voyage of R/V Akademik Nikolai Strakhov. In accordance with high La/Th and low Nb/U ratios, the basalt compositions of stations S2317, S2318, and S2330 could result from melting of the DM-type source with HIMU traces. Meanwhile, the enriched samples of station S2326 correspond to a mantle source with a considerable contribution of recycled sediments (EM). Sample S2326/35, which is composed of a melt almost completely depleted in EM material, corresponds to the volcanic rocks of the Marion and Prince Edward islands. The obtained and available data on the SWIR segment from Bouvet Island to Andrew Bain Fault are indicative of small mantle heterogeneities in this region. Two possible variants of their origin are considered: either preservation of the enriched material fragments in the depleted mantle during the split of Gondwana or “contamination” of the mantle with plume material with the formation of vein irregularities before opening of the ocean in this region. In the latter case, the plume material could cover a huge area not constrained by the young plume magmatism regions on Bouvet, Marion, and Prince Edward islands.

Published
2017

23. New data on the geological structure of the southwestern Mendeleev Rise, Arctic Ocean

Author

M. A. Fedonkin, S. G. Skolotnev, and A. V. Korniychuk

Subjects
Basalt, 010504 meteorology & atmospheric sciences, Andesite, Geochemistry, 010502 geochemistry & geophysics, 01 natural sciences, Unconformity, Coring, Paleontology, Sequence (geology), Arctic, Section (archaeology), Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Bathymetry, Geology, 0105 earth and related environmental sciences
Abstract

This communication considers the ideas about the geological structure of the southwestern Mendeleev Rise belonging to the East Arctic rises of the Arctic Ocean. These ideas have resulted from analyzing the data obtained from bathymetric surveys, visual observations, and bottom coring using the technical tools of a research submarine. We distinguished the lower sequence of quartzite sandstones and dolomites, which has a visible thickness of about 230 m and occurs in the lowermost visible section, at depths between 1500 and 1270 m. This sequence is superimposed with stratigraphic and angular unconformity by the upper sequence of limestones and sandstones having a visible thickness of 40 m. The lower sequence is pierced by subvolcanic rocks of basaltic to andesitic composition, and in the lowermost part of the slope, a tuffaceous sequence having a visible thickness of 50 m adjoins it.

Published
2017

24. Morphology and impurity elements of zircon in the oceanic lithosphere at the Mid-Atlantic ridge axial zone (6°–13° N): Evidence of specifics of magmatic crystallization and postmagmatic transformations

Author

S. G. Skolotnev, Leonid Aranovich, V. A. Matrenichev, Sergey E. Borisovskiy, N. S. Bortnikov, A. N. Pertsev, Evgenii Sharkov, and T. F. Zinger

Subjects
Recrystallization (geology), 010504 meteorology & atmospheric sciences, Gabbro, Partial melting, Geochemistry, Mineralogy, Mid-Atlantic Ridge, 010502 geochemistry & geophysics, 01 natural sciences, Hydrothermal circulation, Baddeleyite, Geochemistry and Petrology, Oceanic crust, Geology, 0105 earth and related environmental sciences, Zircon
Abstract

The paper presents newly obtained original data on the morphology, internal structure (as seen in cathodoluminescence images, CL), and composition of more than 400 zircon grains separated from gabbroids and plagiogranites (OPG) sampled at the axial zone of the Mid-Atlantic Ridge (MAR). The zircons were analyzed for REE by LA-ICP-MS and for Hf, U, Th, Y, and P by EPMA. Magmatic zircon in the gabbroids crystallized from differentiating magmatic melt in a number of episodes, as follows from systematic rimward increase in the Hf concentration, and also often from the simultaneous increase in the (U + Th) and (Y + P) concentrations. These tendencies are also discernible (although much less clearly) in zircons from the OPG. Zircon in the OPG is depleted in REE compared to the least modified zircons in the gabbro, which suggests that the OPG were derived via partial melting of gabbro in the presence of seawater-derived concentrated aqueous salt fluid. Another reason for the REE depletion might be simultaneous crystallization of zircon and apatite. The CL-dark sectors, which are found in practically all of the magmatic zircon grains, have Y/P (a.p.f.u.) ≫ 1 which most likely resulted from OH accommodation in the zircon structure, a fact suggesting that the OPG parental melt contained water. High-temperature hydrothermal processes induced partial to complete recrystallization of zircon (via dissolution-reprecepitation), a process that was associated with ductile and brittle deformations of the zircon-hosting rocks. The morphology of the hydrothermal zircons varies depending on pH and silica activity in the fluid from weakly corroded subhedral crystals with typical vermicular microtopography of the crystal faces to completely modified grains of colloform structure. Geochemically, the earlier hydrothermal transformations of the zircons resulted in their enrichment in La and other LREE, except only Ce, whose concentration, conversely, decreases compared to that of the unmodified magmatic zircons. The hydrothermal zircon displays a reduced Ce anomaly and its most altered domains typically host minute inclusions of xenotime, U and Th oxides and silicates, and occasionally also baddeleyite, which suggests that the hydrothermal fluid was reduced and highly alkaline. These features were acquired by the seawater-derived fluid when it circulated within the axial MAR zone area due to phase separation in the H2O–NaCl system and particularly as a result of fluid interaction with the abyssal peridotites of oceanic core complexes. Our data demonstrate that zircon is a sensitive indicator of tectonic and physicochemical processes in the oceanic crust.

Published
2017

25. New data on the composition and age of rocks from the Bathymetrists Seamounts (Eastern margin of the equatorial Atlantic)

Author

M. E. Bylinskaya, L. A. Golovina, Alexander A Peyve, and S. G. Skolotnev

Subjects
geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Carbonate platform, Seamount, Geochemistry, Fractionation, 010502 geochemistry & geophysics, 01 natural sciences, Mantle (geology), Volcanic rock, Volcano, Ultramafic rock, Facies, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Geology, 0105 earth and related environmental sciences
Abstract

The petrology, geochemistry, and isotope ratios of volcanics dredged during the 43rd cruise of R/V Academik Ioffe on the Bathymetrists Seamounts in the eastern equatorial Atlantic have been studied. These are alkaline volcanics of basic and ultramafic compositions. Spider diagrams of the trace elements of volcanic rocks demonstrate strong fractionation, indicating formation of their primary melts from an enriched mantle source at garnet depth facies. Considering the isotope ratio values of 143Nd/144Nd, 206Pb/204Pb, 207Pb/204Pb, 208Pb/204Pb, and 87Sr/86Sr and the character of their variations, the volcanic mantle source was chemically heterogeneous: for various volcanic rocks it was a mixture of the mantle components HIMU with EM–1 or EM–2. Limestones dredged together with the volcanics yielded microfossils suggesting a Middle Eocene age of their formation in a carbonate platform environment.

Published
2017

26. Composition, structure, origin, and evolution of off-axis linear volcanic structures of the Brazil Basin, South Atlantic

Author

A. A. Peive and S. G. Skolotnev

Subjects
geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Volcanic arc, Geology, Geophysics, Geodynamics, 010502 geochemistry & geophysics, 01 natural sciences, Mantle (geology), Mantle plume, Volcanic rock, Mantle convection, Hotspot (geology), Petrology, Plume tectonics, 0105 earth and related environmental sciences
Abstract

The paper considers the conditions and mechanisms of the formation of linear volcanic structures in the Brazil Basin, South Atlantic. Among these objects, those related to the ascent of deep mantle plumes predominate. It is shown that the ascent of melts from plume sources leads to the formation of (a) hot spot tracks in the form of linear volcanic ridges and (b) active hot lines in the form of submarine mountain chains with trends differing from those of hot spot tracks and with a more variable character of the age distribution of volcanic rocks. Fault tectonics affects the character of plume activity. In addition, plume material from a hot spot area is dragged by a moving plate as a flow or a sublithospheric lens, which leads to the long-term existence of particular independent segments of linear structures and sometimes to late volcanism reactivation within their limits. Decompression melting of the asthenospheric mantle in zones where thin lithosphere undergoes tension causes the formation of passive hot lines. The main mantle source for the considered volcanic rocks was a mixture of DMM and HIMU mantle components, with the latter abruptly dominating. In marginal oceanic regions, the EM1 component is also present (the EM2 component is found more rarely) within fragments of tectonically delaminated continental mantle that was trapped by the oceanic mantle during the breakup of Gondwana.

Published
2017

27. Study of Seamounts and Contourite Systems of the Central and South Atlantic during Cruise 43 of the R/V Akademik Ioffe

Author

E. V. Blinova, D. T. Fidaev, S. G. Skolotnev, S. M. Isachenko, I. O. Murdmaa, V. A. Kravtsov, Ekaterina Ovsepyan, Marina Ulyanova, T. F. Zinger, D. G. Borisov, E. A. Seitkalieva, Elena Ivanova, and A. A. Peyve

Subjects
geography, Oceanography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Seamount, Cruise, Contourite, 010502 geochemistry & geophysics, 01 natural sciences, Geology, 0105 earth and related environmental sciences
Published
2018

28. New chemical and isotopic data for basalts from the axial segment of the Mid-Atlantic ridge between the Vema and Mercury fracture zones

Author

I. I. Rozhdestvenskaya, S. G. Skolotnev, and V. E. Bel’tenev

Subjects
Basalt, Cape verde, Earth and Planetary Sciences (miscellaneous), Geochemistry, Partial melting, General Earth and Planetary Sciences, Transform fault, Upwelling, Mid-Atlantic Ridge, Geology, Rift valley, Mantle (geology)
Abstract

The whole-rock geochemistry and isotopic composition of the basalts dredged from the Mid-Atlantic Ridge (MAR) segment between the Mercury and Vema fracture zones during cruise 32 of the R/V Professor Logachev were studied. In addition to typical basalts with moderate petrochemical parameters, there are high-Ca and low-Na types of basalts representing higher degree melts and high-Fe varieties generated at great depths. The basalts derived by high degrees of melting exhibit a close spatial association with the central portions of three on-axis rises on the rift valley, which reach a height of 300–500 m above the floor of the valley and represent the loci of the subaxial mantle upwelling. The position of the Northern rise at the northern intersect of the Mercury transform fault is inconsistent with focused upwelling. The basalts with a more radiogenic Nd, Sr, and Pb composition are identified above the loci of the subaxial upwelling. They are compositionally similar to basalts, which have HIMU-like affinities and are interpreted to be derived under the influence of the 14° N plume between the Marathon and Cape Verde fracture zones. The relatively high isotopic ratios of these basalts anti-correlate with their low (La/Sm) n values typical of the depleted N-MORB-type basalts. The results show that enriched melts contributing to basalts from the central portions of on-axis rises are associated with one of the flows of plume material channeled from the 14° N anomaly to these rises. The partial melting of the rising plume material causes the formation of localized accumulation of magmas at structural barriers and creates new centers of upwelling, which, being enhanced by the regular upwelling, lead to increased magma production and changes in the composition of basalts.

Published
2014

29. New isotopic data for Mid-Atlantic Ridge basalts from the Arkhangelsk-Sierra Leone fracture zone (central Atlantic)

Author

S. G. Skolotnev

Subjects
Basalt, Cape verde, Continental crust, Earth and Planetary Sciences (miscellaneous), Geochemistry, General Earth and Planetary Sciences, Transform fault, Fracture zone, Mid-Atlantic Ridge, Geology, Mantle (geology), Sierra leone
Abstract

This study presents Sr, Nd, and Pb isotopic data for basalts collected from the MAR axis between the Arkhangelsk transform fault and 5° N. The isotopic data for basalts from the MAR segment between the Arkhangelsk and Vernadsky faults indicate the presence of N-MORB depleted tholeiites, which are similar to some basalts from the MAR segment between the Cape Verde and Marathon faults, at the location of the 14° N geochemical anomaly. Broad positive along-axis gradients in isotopic values (and negative for 143Nd/144Nd) are observed from south to north, superimposed by isotopic variations in the 9.6° N anomalous basalts. A north-south increase in (La/Sm) n suggests a smaller degree of partial melting. The range of isotopic variations in basalts south of the Bogdanov fault is similar to that of basalts recovered at the more southerly 1.7° N anomaly. P-MORB compositions with a large proportion of the HIMU-like component are widely distributed in the vicinity of the 5.4° N rise. The isotopic ratios decrease gradually (with increasing 143Nd/144Nd) farther to the north toward the Bogdanov transform fault. A similar trend is observed for (La/Sm) n . Therefore, the basalts recovered to the south and north of Bogdanov fault have different sources of radiogenic isotope enrichment: 5.4° N and 9.6° N rises. Basalts recovered to the north of the Vernadsky transform fault have higher 143Nd/144Nd and lower 206Pb/204Pb at similar 87Sr/86Sr ratios. We conclude that the localized manifestations of enriched basalts with isotopic characteristics close to the HIMU-like plume-derived component, including the 14° N and 1.7° N geochemical anomalies, may have been formed by microplumes entrained at the base of the upper mantle by asthenospheric mantle flows arranged into a system of cylindrical convective cells, 450–500 km in diameter. Northward of the Bogdanov transform, the upper mantle is contaminated with lower continental crust material, which was entrained during tectonic erosion of the lithosphere beneath the equatorial segment of Gondwanaland during its late stage opening.

Published
2014

30. Systematic variations in the composition of volcanic rocks in tectono-magmatic seamount chaines in the Brazil Basin

Author

S. G. Skolotnev and A. A. Peyve

Subjects
geography, geography.geographical_feature_category, Seamount, Geochemistry, Structural basin, Picrite basalt, Mantle plume, Mantle (geology), Plume, Volcanic rock, Geophysics, Geochemistry and Petrology, Lithosphere, Geology
Abstract

Data on the composition of rocks in linear tectono-magmatic rises in the Brazil Basin indicate that volcanic rocks in the Vitoria—Trindade seamount chain were derived from a mantle reservoir unevenly enriched in phosphorus under the effect of melts close to subalkaline picrobasalt. These melts contained much of the EM I mantle component because the plume material was contaminated with continental lithospheric component. A long-lived isotopic homogeneity of the source is typical of the whole structure, including the Trindade and Martin Vaz Islands and the Abrolhos Plateau. The analogous isotopic ratios of rocks at the Fernando de Noronha Islands are reportedly explained by a similar mechanism of melt derivation and the similar evolution of the mantle plume material, which was originally situated beneath the South American continent. Compared to the melts of volcanic rocks of all other seamounts discussed herein, the parental melts of volcanics at the Victoria—Trindade Seamounts were derived at lower degrees of melting of enriched source material at a greater depth. The overwhelming majority of volcanic rocks at the northern chain of the Bahia Seamounts were produced by melts generated with the involvement of material of the HIMU type. At the same time, one of our rock samples was derived from a source of composition close to DM with a certain admixture of enriched material like EM I. The mantle source of rocks of the Pernambuco Seamounts consisted of a mixture of DM and HIMU material with a certain admixture of EM I (or, perhaps, EM II). The 10°–11° S Seamounts were formed near the MAR axial zone at the decompressional melting of chemically homogeneous mantle source that consisted of DM material with an admixture of EM I (or, perhaps, EM II) component.

Published
2014

31. Fe–Mn nodules of the Mendeleev Ridge, Arctic Ocean

Author

E. S. Bazilevskaya and S. G. Skolotnev

Subjects
Arctic, Earth science, Earth and Planetary Sciences (miscellaneous), Ridge (meteorology), General Earth and Planetary Sciences, Pelagic zone, Geology, The arctic
Abstract

The results of study of Fe–Mn crusts from the Mendeleev Ridge in the Arctic Ocean sampled with manipulators from a submarine are presented. In almost all the samples, the ore phase is significantly enriched in some valuable trace elements (Ni, Co, Cu, etc.), the contents of which exceed those in ores from the pelagic zones of other oceans. The high ore potential of the Arctic pelagic zone is stated and substantiated.

Published
2015

32. Composition and inner structure of the third layer in the oceanic crust in the subequatorial segment of the Mid-Atlantic Ridge (5°–7° N)

Author

S. G. Skolotnev and A. E. Eskin

Subjects
Geophysics, Rift, Fractional crystallization (geology), Gabbro, Geochemistry and Petrology, Oceanic crust, Geochemistry, Partial melting, Mid-Atlantic Ridge, Geology, Seafloor spreading, Sierra leone
Abstract

The paper presents data on the major-component, trace-element, and mineralogical composition of plutonic rocks, and the composition of their minerals, from the Sierra Leone region in the crest zone of the Mid-Atlantic Ridge between the Strakhov and Bogdanov fracture zones. According to their relations with seafloor structures, the rock associations are subdivided into those of rift valleys and nontransform offset zones. The troctolites and olivine gabbro composing the rift association were produced early in the fractionation course of oceanic tholeiite melt in unstationary and relatively small magmatic chambers. Most rocks beneath the nontransform offset zones crystallized during the long-lasting fractionation of the melt in large chambers hosted in serpentinized peridotites. This part consists of various cumulates, ranging from troctolites to gabbroids. Where deep tectonic detachments entered partly consolidated portions of the chambers, the melt interacted with the wall rocks. Fluid that was generated via the dehydration of serpentine and concentrated hydrophile elements, locally modified the composition of the melt and resulted in amphibole-bearing rocks. Under stress, the intercumulus melts were squeezed into tectonically weakened zones, mixed there, and also interacted with the wall rocks. These mix melts produced (with the participation of fractional crystallization) mineralized Fe-Ti gabbroids. Residual portions of the melts generated most of the diorites and plagiogranites. The high-Na diorites likely crystallized from acid melts that were derived via the partial melting of older gabbroids where aqueous fluids circulated; these fluids were generated by the deserpenitization of the host rocks in tectonized zones cutting through the chambers.

Published
2013

33. New data on quaternary sediments of the atlantic ocean derived from seismic facies analysis

Author

Yu. G. Marinova, A. D. Mutovkin, T. A. Demidova, V. A. Putans, E. V. Blinova, A. A. Peive, I. O. Murdmaa, O. V. Levchenko, P. Huembs, S. G. Skolotnev, and Elena Ivanova

Subjects
Seismic facies, North Atlantic Deep Water, Earth and Planetary Sciences (miscellaneous), Geochemistry, General Earth and Planetary Sciences, Quaternary sediments, Geomorphology, Geology, Turbidite
Published
2012

34. The origin of Bahia seamounts (Brazil Basin, South Atlantic) in connection to new data on their age

Author

L. A. Golovina, S. G. Skolotnev, I. S. Ipat’eva, and M. E. Bylinskaya

Subjects
geography, geography.geographical_feature_category, Age differences, Seamount, Transform fault, Structural basin, Paleontology, Oceanography, Volcano, Lithosphere, Group (stratigraphy), Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Geology
Abstract

Micropalentological studies of limestones and isotopic-geochronological determinations of the age of zircons found in vulcanites dredged from the region of the northern chain of the group of Bahia seamounts in the 28th cruise of the R/V Akademik Vavilov were undertaken. The recognized age difference of the northern chain of the Bahia seamounts of northwestern strike from 75 to 84 Ma from the southeast to the northwest indicates the fact that this chain was formed as a result of hot spot activity. The age of vulcanites is in good correlation with the Maastricht and Coniacian-Santonian age of limestones occurring on the slopes of the seamounts. The similarity of the seamounts age and the age of the oceanic bottom indicates the fact that the hot spot was localized near the spreading axial zone of the MAR. Along the strike of the chain, the centers of volcanic activity are correlated to the zones of transform faults, which are important in the hot spot activation. The formed chain is a weak zone in the lithosphere and the focus of younger stages of volcanic activity; there were at least two of stages within the northern chain of the Bahia seamounts, and these occurred about 75 and 59 Ma ago.

Published
2012

35. Origin of submarine volcanism at the eastern margin of the central atlantic: Investigation of the alkaline volcanic rocks of the carter seamount (Grimaldi Seamounts)

Author

V. V. Petrova, S. G. Skolotnev, and Alexander A Peyve

Subjects
geography, Fractional crystallization (geology), geography.geographical_feature_category, Geochemistry and Petrology, Asthenosphere, Oceanic crust, Hotspot (geology), Transition zone, Seamount, Geochemistry, Mantle plume, Mantle (geology), Geology
Abstract

This paper addresses the composition, geochemistry, isotopic characteristics, and age of rocks from the Carter Seamount of the Grimaldi seamount group at the eastern margin of the Central Atlantic. The age of the seamount was estimated as 57–58 Ma. Together with other seamounts of the Grimaldi system and the Nadir Seamount, it forms a “hot line” related to the Guinea Fracture Zone, which was formed during the late Paleocene pulse of volcanism. The Carter Seamount is made up of olivine melilitites, ankaramites, and analcime-bearing nepheline tephrites, which are differentiated products of the fractional crystallization of melts similar to an alkaline ultramafic magma. The volcanics contain xenoliths entrained by melt at different depths from the mantle, layer 3 of the oceanic crust, which was formed at 113–115 Ma, and earlier magma chambers. The rocks were altered by low-temperature hydrothermal solutions. The parental melts of the volcanics of the Carter Seamount were derived at very low degrees of mantle melting in the stability field of garnet lherzolite at depths of no less than 105 km. Anomalously high Th, Nb, Ta, and La contents in the volcanics indicate that a metasomatized mantle reservoir contributed to the formation of their primary melts. The Sr, Pb, and Nd isotopic systematics of the rocks show that the composition of the mantle source lies on the mixing line between two mantle components. One of them is a mixture of prevailing HIMU and the depleted mantle, and the other is an enriched EM2-type mantle reservoir. These data suggest that the formation of the Carter Seamount volcanics was caused by extension-related decompression melting in the Guinea Fracture Zone of either (1) hot mantle plume material (HIMU component) affected by carbonate metasomatism or (2) carbonated basic enclaves (eclogites) ubiquitous in the asthenosphere, whose isotopic characteristics corresponded to the HIMU and EM2 components. In the former case, it is assumed that the melt assimilated during ascent the material of the metasomatized subcontinental mantle (EM2 component), which was incorporated into the oceanic lithospheric mantle during rifting and the breakup of Pangea.

Published
2012

36. First data about the geochemistry and geological structure of underwater seamounts between Ascension and Bode Verde transform fracture zones in the Brazilian Basin (South Atlantic)

Author

Elena Ivanova, Alexander A Peyve, O. V. Levchenko, S. G. Skolotnev, O. B. Dmitrenko, and I. O. Murdmaa

Subjects
geography, geography.geographical_feature_category, Fracture (mineralogy), Seamount, Earth and Planetary Sciences (miscellaneous), Geochemistry, General Earth and Planetary Sciences, Underwater, Structural basin, Geology, Geological structure
Published
2012

37. Iron-manganese formations on seamounts of the Brazil Basin (South Atlantic)

Author

E. S. Bazilevskaya and S. G. Skolotnev

Subjects
geography, geography.geographical_feature_category, Oceanography, chemistry, Seamount, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, chemistry.chemical_element, Manganese, Structural basin, Geology, Research vessel
Published
2011

38. First data on the age of rocks from the central part of the Vitoria-Trindade Ridge (Brazil Basin, South Atlantic)

Author

S. G. Skolotnev, L. A. Golovina, M. E. Bylinskaya, and I. S. Ipat’eva

Subjects
geography, geography.geographical_feature_category, Seamount, Geochemistry, Mantle (geology), Volcanic rock, Paleontology, Volcano, Lithosphere, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Sedimentary rock, Lithification, Geology, Zircon
Abstract

Micropaleontological and isotope-geochronological investigations of calcareous sedimentary rocks and volcanites dredged out from the central portion of the submarine Vitoria-Trindade Ridge during the 24th cruise of R/V Akademik Vavilov have been conducted. It has been established based on micropaleontological analysis, which included determination of the species composition of foraminifera and nannoplankton, that the sequence of sedimentary rocks having a pelagic nature formed on the slopes of the volcanic seamounts in the central portion of the Vitoria-Trindade Ridge from the Early to Mid-Miocene to the Holocene; a good correlation between the degree of lithification of these rocks and their age is observed. It has also been established that the carbonate platforms on the abraded tops of the Davis Seamount and the Dogaressa Bank, which are located in the east-central portion of the Vitoria-Trindade Ridge, started forming in the Early Miocene (19–24 Ma). It has been determined using local U-Pb dating of zircon grains with a SHRIMP-II high resolution secondary ion mass spectrometer that the volcanites forming the upper portion of the volcanic rock sequence of the Jaseur Seamount (29.8 ± 6.6 Ma) located in the west-central portion of the Vitoria-Trindade Ridge date to the Oligocene. The investigations conducted have confirmed the opinion that the Vitoria-Trindade Ridge formed in general because of the activity of the hot spot located under the volcanic Trindade and Martin Vaz Islands. However, separate extended lenticular segments of this ridge existed for a long time as single structures, within which the age of the seamounts was not linearly dependent on the distance from the location of the hot spot. Lenses of hot mantle matter that form at the sublithospheric level as a result of impulses of plume activity and move along with the lithospheric plate play a defining role in the development of individual segments forming the Vitoria-Trindade Ridge.

Published
2011

39. New data on the structure of the Bahia seamounts (Western Portion of the Brazil Basin, South Atlantic)

Author

A. A. Peive, A. E. Eskin, and S. G. Skolotnev

Subjects
geography, geography.geographical_feature_category, Seamount, Structural basin, Mantle (geology), Tectonics, Paleontology, Volcano, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Bathymetry, Sedimentary rock, Holocene, Geology
Abstract

During the 28th trip of the R/V Akademik Sergei Vavilov undertaken in 2009, exploration was carried out using a Parasound acoustic profilograph that permitted examining the upper portion of the sedimentary cover and getting transverse bathymetric profiles through a number of seamounts within the northern range of the Bahia group of seamounts, which were also sampled by dredging. The studies performed indicated that this linear structure consists of paleovolcanoes and formed under impulse conditions of volcanic activity. A number of seamount types have been distinguished, the morphostructural settings and the positions of which reflect the intensity of volcanic impulses and the association with deep permeable zones. The strongest impulse led to the formation of a northwest striking arched uplift, on which there are several central type paleovolcanoes of different heights. The largest of these paleovolcanoes, including the Stocks and Groll Seamounts, have flattened tops formed as a result of marine abrasion. Isolated seamounts have formed during shorter and lower power impulses of volcanic activity. The northern range of the Bahia seamounts, which have a major northwesterly strike, is an ensemble of structures with northwesterly, nearly east-west, and nearly north-south strikes, which indicates the presence of relevant deep permeable zones for the mantle matter; that mantle matter is the source of the melts, eruptions of which led to the formation of the volcanic edifices. The prevailing zone of weakness has a northwesterly strike. Volcanic activity in the Bahia group of seamounts ended in the Paleocene, but tectonic movements continued there up until the Holocene. Neotectonic structures are represented by horsts, diapirlike piercement structures, and folded zones. The paleovolcanoes are areas where slope processes of transport of sedimentary material occurred.

Published
2010

40. New data on the rock composition of the Bahia Seamounts (Brazil Basin, South Atlantic Ocean)

Author

A. E. Eskin, S. G. Skolotnev, I. S. Patina, V. V. Petrova, and A. A. Peive

Subjects
geography, geography.geographical_feature_category, Olivine, Mineral, Seamount, Geochemistry, Phillipsite, engineering.material, Igneous rock, Earth and Planetary Sciences (miscellaneous), engineering, General Earth and Planetary Sciences, Plagioclase, Geology, Biotite, Zircon
Abstract

During the 28th cruise of R/V Akademik Sergei Vavilov in 2009, five different mountains belonging to the northern chain of the Baia Seamounts, located in the Brazil Basin, were dredged. Igneous rocks, limestones, and Fe-Mn crusts were collected. Igneous rocks are greatly altered resulting from halmyrolithic and/or low-temperature hydrothermal processes; the main secondary minerals are smectite, iron hydroxide, and phillipsite. Igneous rocks are subdivided into two groups, namely, trachybasalts and trachyandesites. Trachybasalts are aphyric rocks, consisting of basal plagioclase microlites, Fe-Ti ore mineral, olivine, and clinopyroxene. Trachyandesites are rarely porphyre rocks. Inclusions in trachyandesite are represented by acidic plagioclase, olivine, biotite, and zircon. The main mass is formed by acidic plagioclase and a small quantity of clinopyroxene.

Published
2010

41. Younger and older zircons from rocks of the oceanic lithosphere in the Central Atlantic and their geotectonic implications

Author

E. N. Lepekhina, V. E. Bel’tenev, I. S. Ipat’eva, and S. G. Skolotnev

Subjects
Basalt, geography, geography.geographical_feature_category, Metamorphic rock, Geochemistry, Geology, Mantle (geology), Sierra leone, Volcanic rock, Paleontology, Lithosphere, Asthenosphere, Restite
Abstract

Local U-Pb dating of zircons separated from various rocks in the crest zone of the Mid-Atlantic Ridge (MAR) and Carter Seamount (Sierra Leone Rise) is performed. Younger zircons formed in situ in combination with older xenogenic zircons are revealed in enriched basalts, alkaline volcanic rocks, gabbroic rocks, and plagiogranites. Only older zircons are found in depleted basalts and peridotites. Older zircons are ubiquitous in the young oceanic lithosphere of the Central Atlantic. The age of the younger zircons from the crest zone of the MAR ranges from 0.38 to 11.26 Ma and progressively increases receding from the axial zone of the ridge. This fact provides additional evidence for spreading of the oceanic floor. The rate of half-spreading calculated from the age of the studied zircons is close to the rate of half-spreading estimated from magnetic anomalies. The age of the younger zircons from Carter Seamount (58 Ma) corresponds to the age of the volcanic edifice. Older zircons make up an age series from 53 to 3200 Ma. Clusters of zircons differing in age reveal quasiperiodicity of about 200 Ma, which approximately corresponds to the global tectonic epochs in the geological evolution of the Earth. Several age groups of older zircons combine grains close in morphology and geochemistry: (1) Neoproterozoic and Phanerozoic (53–700 Ma) prismatic grains with slightly resorbed faces, well-preserved or translucent oscillatory zoning, and geochemical features inherent to magmatic zircons; (2) prismatic grains dated at 1811 Ma with resorbed faces and edges, fragmentary or translucent zoning, and geochemical features inherent to magmatic zircons; (3) ovoid and highly resorbed prismatic grains with chaotic internal structure and metamorphic geochemical parameters; the peak of their ages is 1880 Ma. The performed study indicates that older xenogenic zircons from young rocks in the crest zone of the MAR were captured by melt or incorporated into refractory restite probably in the sublithospheric mantle at the level of magma generation in the asthenosphere. It is suggested that zircons could have crystallized from the melts repeatedly migrating through the asthenosphere during geological history or were entrapped by the asthenosphere together with blocks of disintegrated and delaminated continental lithosphere in the process of breakup of the continents older than Gondwana. The variability in the age of older zircons even within individual samples may be regarded as evidence for active stirring of matter as a result of periodically arising and destroyed within-asthenospheric convective flows varying in orientation and scale.

Published
2010

43. New data on the structure of the Vitoria-Trindade seamount chain (western Brazil basin, South Atlantic)

Author

S. G. Skolotnev, N. N. Turko, and Alexander A Peyve

Subjects
geography, Oceanography, geography.geographical_feature_category, Seamount, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Sedimentary rock, Structural basin, Geology
Abstract

In 2008, during cruise 24 of the R/V Akademik Vavilov, much of our research work was focused on the central segment (Jaseur and Davis seamounts, Dogaressa Bank) of the Vitoria-Trindade seamount chain (west of the Brazil basin) extending along 20.5° S. Work was conducted to survey the upper part of the sedimentary cover and to perform subbottom profiling. The samples dredged on the seamount slopes are represented by volcanites and Fe-Mn crusts.

Published
2010

44. Peculiarities of accessory zircon from the carter seamount tuffs (Sierra Leone Rise in the East Atlantic)

Author

N. I. Chistyakova, V. V. Petrova, and S. G. Skolotnev

Subjects
geography, geography.geographical_feature_category, Seamount, Geochemistry, Ocean bottom, Cerite, Baddeleyite, Thorite, Sierra leone, Volcano, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Geology, Zircon
Abstract

In volcanic tuffs, dredged during Cruise 23 of the R/V Akademik Nikolaj Strakhov, accessory zircon was found; except for the mineral-forming components, there were ∼2% of ThO2 and 0.75% of Ce2O3 in zircon. During rapid uplift of magmatic masses to the ocean bottom surface, admixture elements isolated into specific minerals. As a result, destruction structures were formed in the rim parts of primary zircon crystals, and the new-formed association of zircon + thorite + cerite + thoriante + baddeleyite appeared.

Published
2010

45. New data on neotectonic bottom deformations in the western Brazil Basin, south Atlantic

Author

Alexander A Peyve and S. G. Skolotnev

Subjects
geography, Tectonics, geography.geographical_feature_category, Oceanography, Ridge, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Sedimentary rock, Profilograph, Structural basin, Axial deformation, Geology
Abstract

Neotectonic deformations of the oceanic bottom are widespread in the Central Atlantic (1) developing in the MidAtlantic Ridge, deep oceanic basins, and even its marginal areas (2). The problems of the origin, scales, and mechanisms of these tectonic movements remain debatable. In this connection, of great interest are new data on tectonic deformations developed in the upper sedimentary layers of the western Brazil Basin. They were obtained during the acoustic study of the oceanic bottom with the profilograph Parasound in Cruise 24 of the R/V Akademik Sergey Vavilov car� ried out in 2008. The bottom structure of the western Brazil Basin is

Published
2010

46. Accretion of crust in the axial zone of the Mid-Atlantic Ridge south of the Martin Vas Fracture Zone, South Atlantic

Author

S. G. Skolotnev, Alexander A Peyve, L. A. Golovina, M. E. Bylinskaya, and N. N. Turko

Subjects
geography, geography.geographical_feature_category, Rift, Geology, Mid-ocean ridge, Fracture zone, Mid-Atlantic Ridge, Mantle plume, Mantle (geology), Paleontology, Transition zone, Seismology, Rift valley
Abstract

New data are obtained on the structure, evolution, and origin of zones of nontransform offsets of adjacent segments in the Mid-Atlantic Ridge (MAR), which, in contrast to transform fracture zones, so far are studied insufficiently. The effects of deep mantle plumes developing off the crest of the MAR on the processes occurring in the spreading zone are revealed. These results are obtained from the geological investigation of the crest of the MAR between 19.8 ° and 21° S, where bottom sampling, bathymetric survey, and magnetic measurements have been carried out previously. Two segments of the rift valley displaced by 10 km relative to each other along a nontransform offset are revealed. A volcanic center of a spreading cell, which has been active over the last 2 Ma, is located in the northern part of the southern segment and distinguished by a decreased depth of the rift valley and increased thickness of the crust. Magnesian, slightly evolved basalts of the N-MORB type are detected in this center, whereas evolved and high-Fe basalts are found beyond it. The variation in the composition of the basalts indicates that the volcanic center is related to the upwelling of the asthenospheric mantle, which spread along and across the spreading ridge. In the lithosphere, the melt migrated off the volcanic center along the rift valley. In the northern segment, a vigorous volcanic center arose 2.5 Ma ago near its southern end; at present, the volcanic activity has ceased. As a result of the volcanic activity, an oval rise composed of enriched T-MORB-type basalts was formed at the western flank of the crest zone. The isotopic signatures show that the primary melts are derivatives of the chemically heterogeneous mantle. The mixing of material of the depleted mantle with the mantle material pertaining either to the Saint Helena or the Tristan da Cunha plumes is suggested; the mixture of all three sources cannot be ruled out. The conclusion is drawn that the mantle material of the Saint Helena plume was supplied to the melting zone beneath the axial rift near the oval rise along a linear permeable zone in the mantle extending at an azimuth of 225° SW. The blocks of mantle material that got to the convecting mantle from the Tristan da Cunha plume at the stage of supercontinent breakup were involved in melting as well. The nontransform offset between the two segments arose on the place of a previously existing transform fracture zone about 5 Ma ago. The nontransform offset developed in the regime of oblique spreading at the progressive propagation of the southern segment to the north. The zone of nontransform offset is characterized by recent volcanic activity. Over the last 2 Ma, spreading of the studied MAR segment was asymmetric, faster in the western direction. The rates of westward and eastward half-spreading in the northern segment are estimated at 1.88 and 1.60 cm/yr, respectively.

Published
2009

47. New data on the composition of ophiolites from the Kumroch-Valagin segment of the Achayvayam-Valagin paleoarc (Eastern Kamchatka)

Author

N. V. Tsukanov, Alexander A Peyve, and S. G. Skolotnev

Subjects
Ultramafic rock, Earth and Planetary Sciences (miscellaneous), Partial melting, Geochemistry, General Earth and Planetary Sciences, Island arc, Mineral chemistry, Mafic, Ophiolite, Geology, Nappe
Abstract

This study presents new data on the geochemistry and mineral chemistry of ultramafic and mafic rocks in ophiolits from the base of the Kumroch segment of the Achayvayam-Valagin paleoarc. The new data enabled us to consider peridotites and the associated diabases and gabbros enclosed as separated blocks into a serpentinite melange as a single ophiolite complex formed in a supra-subduction setting and subsequently disintegrated as a result of nappe formation. The variations identified in the geochemistry and compositions of rock-forming minerals are shown to be characteristic of the other study ophiolite complexes of Eastern Kamchatka. This is suggested to reflect spatial-temporal heterogeneity of partial melting during evolution of the Achayvayam-Valagin island arc.

Published
2009

48. The structure of the Knipovich-Mohns junction (North Atlantic)

Author

Alexander A Peyve, A. A. Razumovskii, A. S. Abramova, Yu. A. Zaraiskaya, K. P. Yampol’skii, A. E. Eskin, K. O. Dobrolyubova, A. A. Chernykh, A. O. Mazarovich, V. N. Efimov, Yu. N. Raznitsyn, N. M. Sushchevskaya, R. Kh. Aliulov, S. G. Skolotnev, A. V. Zaionchek, and E. A. Moroz

Subjects
geography, geography.geographical_feature_category, Transform fault, Mid-ocean ridge, Geodynamics, Paleontology, Ridge, Oceanic crust, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Rift zone, Magnetic anomaly, Geology, Rift valley, Seismology
Abstract

In 2007, the Geological Institute of the Russian Academy of Sciences (GIN RAS) carried out investigations in the North Atlantic, in the southern part of the Knipovich Ridge extending for 600 km from the Mohns spreading ridge to the Molloy fault zone (chief of the cruise A.V. Zaionchek). The investigations were conducted according to the Program of the RAS Presidium entitled “Basic Problems of Oceanology: World Ocean Physics, Geology, Biology, Ecology” (Project “Regularities of the Structure and Formation of the Oceanic Crust in Characteristic Regions of the Atlantic Ocean: Tectonics, Magmatism, Composition and Genesis of Fe‐Mn Deposits,” supervisor Academician Yu.M. Pushcharovskii). The problem facing the expedition was to study the geological structure of the Knipovich‐Mohns junction. With the help of the R/V Akademik Nikolaj Strakhov (Cruise 25), there were conducted complex areal, medium-scale, regional geological study of the selected object, which involved echo-sounding with SeaBat 7150 multibeam sounder, continuous seismic profiling (CSP), high-frequency sounding with the Edgetech 3300 profiler, and bottom dredging (Fig. 1). Within the region of 74 ° N, south of the Greenland Fault Zone (FZ) extending southeastward, the Mohns spreading ridge passes into the north‐south-trending Knipovich Ridge. The peculiarity of both ridges is that these are unified extensive spreading structures not broken into segments by transform faults. The ridges differ in the time and conditions of formation. From the beginning of formation, regular and steady growth of the oceanic crust in the rift zone was characteristic of the Mohns Ridge, which is marked by the symmetrical and natural position of linear magnetic anomalies relative to the rift valley axis [1, 2]. The Knipovich Ridge began forming under unsteady geodynamic conditions, which was reflected in the disordered position and fragmentation of magnetic anomalies. The region of the Mohns and Knipovich junction attracts the attention of researchers in that this is a unique area where one spreading ridge passes into another with rift valley structures gradually bending by 40 ° without apparent transform faults serving as accommodation zones for stresses generated in the course of plate motions. Hence, the geodynamics of structures in this key region has been the subject of investigations.

Published
2009

49. Alkali volcanism of the Bathymetrists Seamounts chain (Central Atlantic): Description and comparison

Author

Alexander A Peyve and S. G. Skolotnev

Subjects
geography, Olivine, geography.geographical_feature_category, Geochemistry, Mineralogy, Melilite, engineering.material, Volcanic rock, chemistry.chemical_compound, Augite, chemistry, Nepheline, Geochronology, Earth and Planetary Sciences (miscellaneous), engineering, General Earth and Planetary Sciences, Phenocryst, Chlorite, Geology
Abstract

were analyzed for major and trace elements at the chemical laboratories of the Geological Institute (Moscow) and the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences (table). All volcanic rocks dredged from Carter Seamount are strongly altered. The losses of ignition vary from 10 to 14%. In terms of major element composition, the volcanic rocks of group B1 are ascribed to olivine melilitites, while B2 are classed with nephelinites. Olivine melilitites contain 3‐5% clay pseudomorphs (0.5‐ 5 mm in size) after olivine phenocrysts. Microphenocrysts (up to 0.1‐0.3 mm) of clinopyroxene (augite and Ti-augite) and melilite account for 2‐3%. The matrix is made up of lathlike microlites of melilite (20‐30%) and clinopyroxene (augite) (20‐30%), as well as equant grains of Ti-magnetite (about 5%) embedded in a flaky aggregate of secondary minerals (possibly chlorite and zeolite). About 5‐8% is occupied by 0.5‐3 mm pores filled with various zeolites. Nephelinites contain about 2‐3% microphenocrysts of greenish egirine‐augite 0.2‐1 mm in size. The groundmass consists of microlites of egirine‐augite (15‐20%) and nepheline (20‐30%) and grains of Ti-magnetite (about 5%) set in a flaky matrix of secondary minerals. In the oxide‐MgO variation diagrams, the composi

Published
2009

50. New evidence for the composition and structure of volcanic complexes on Cape Nalycheva and the Shipunskii Peninsula, Kamchatka

Author

S. G. Skolotnev, N. V. Tsukanov, and D. P. Savel’ev

Subjects
geography, geography.geographical_feature_category, Metals and Alloys, Geochemistry, Volcanism, Geotechnical Engineering and Engineering Geology, Volcanic rock, Geophysics, Volcano, Peninsula, Cape, Island arc, Geomorphology, Geology
Abstract

Studies carried out on Cape Nalycheva provided new data on the composition of the volcanic complexes that compose it. The volcanic rocks are of island arc origin and belong to the moderate-potassium calcalkali series. Comparing the character of volcanism on Cape Nalycheva and on the Shipunskii Peninsula with the well-known complexes on the Kamchatskii Mys and Kronotskii peninsulas (which are northern fragments of the Kronotskii paleoarc), we find considerable differences, which probably reflect the heterogeneity of the base on which the Kronotskii arc originated.

Published
2009

Catalog

Books, media, physical & digital resources
See catalog results