Age of charnokitic magmatism from the Obruchev Hills,Banger-Denman area (East Antarctica)     

N. L. Alexeev  T. F. Zinger  I. N. Kapitonov 《Doklady Earth Sciences》2011,440(1):1233-1238

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Influence of plastic deformations in zircon on its chemical composition: Evidence from gabbroids of the spreading zone of the Mid-Atlantic Ridge, Markov trough, 6° N     

T. F. Zinger  N. S. Bortnikov  E. V. Sharkov  S. E. Borisovskii  A. V. Antonov 《Doklady Earth Sciences》2010,433(2):1098-1103

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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     

Bortnikov  N. S.  Silantyev  S. A.  Bea  F.  Montero  P.  Zinger  T. F.  Skolotnev  S. G.  Sharkov  E. V. 《Doklady Earth Sciences》2019,489(2):1396-1401

Doklady Earth Sciences - 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...  相似文献   

Investigation of the Modern Lateral Sedimentation on the Argentine Continental Slope during Cruise 79 of the R/V Akademik Mstislav Keldysh     

Ivanova  E. V.  Borisov  D. G.  Murdmaa  I. O.  Belyaev  N. A.  Zinger  T. F.  Nemchenko  N. V.  Simagin  N. V.  Sipko  A. A.  Shulga  N. A. 《Oceanology》2020,60(6):869-871

Oceanology - Herein we provide information on the sedimentological and paleoceanographic research on the Argentine Patagonian continental slope during cruise 79 of the R/V Akademik Mstislav Keldysh...  相似文献   

Polychronic sources and isotopic age of the volcanogenic complex (Arvarench Unit) of the Imandra-Varzuga structure,Kola Peninsula     

Vrevskii  A. B.  Bogomolov  E. S.  Zinger  T. F.  Sergeev  S. A. 《Doklady Earth Sciences》2010,431(1):386-389

Doklady Earth Sciences -  相似文献   

Multidisciplinary Investigation of the Transform Fault Zones Doldrums and Vema during Cruise 45 of the R/V “Akademik Nikolaj Strakhov”     

Ivanova  E. V.  Skolotnev  S. G.  Borisov  D. G.  Demidov  A. N.  Bich  A. S.  Gippius  F. N.  Gryaznova  A. S.  Dobroliubova  K. O.  Zinger  T. F.  Korshunov  D. M.  Levchenko  O. V.  Mashura  V. V.  Muccini  F.  Nemchenko  N. V.  Peyve  A. A.  Pertsev  A. N.  Sani  K.  Sanfilippo  A.  Simagin  N. V.  Sokolov  S. Yu.  Ferrando  C.  Chamov  N. P.  Shakhovskoy  I. B.  Sholukhov  K. N. 《Oceanology》2020,60(3):424-426

Oceanology - Herein we provide information on the integrated geological, geophysical, sedimentological, paleoceanographic, hydrophysical and biological investigations in the Central Atlantic during...  相似文献   

Study of Seamounts and Contourite Systems of the Central and South Atlantic during Cruise 43 of the R/V <Emphasis Type="Italic">Akademik Ioffe</Emphasis>     

S. G. Skolotnev  E. V. Ivanova  I. O. Murdmaa  A. A. Peyve  D. G. Borisov  S. M. Isachenko  E. V. Blinova  T. F. Zinger  V. A. Kravtsov  E. A. Ovsepyan  E. A. Seitkalieva  M. O. Ulyanova  D. T. Fidaev 《Oceanology》2018,58(4):621-623

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Deep electromagnetic sounding in Turkmenia     

D. B. Avdeev  V. G. Dubrovsky  E. B. Fainberg  O. V. Pankratov  B. Sh. Zinger 《Geophysical Journal International》1994,118(3):467-484

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Finds of young and ancient zircons in gabbroids of the Markov Deep,Mid-Atlantic Ridge, 5°54′–5°02.2′ N (Results of SHRIMP-II U-Pb Dating): Implication for deep geodynamics of modern oceans     

N. S. Bortnikov  E. V. Sharkov  O. A. Bogatikov  T. F. Zinger  E. N. Lepekhina  A. V. Antonov  S. A. Sergeev 《Doklady Earth Sciences》2008,421(1):859-866

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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     

L. Y. Aranovich  N. S. Bortnikov  T. F. Zinger  S. E. Borisovskiy  V. A. Matrenichev  A. N. Pertsev  E. V. Sharkov  S. G. Skolotnev 《Petrology》2017,25(4):339-364

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.  相似文献