The first data on U–Pb (SHRIMP) dating of zircon from metamorphic rocks of the crystalline base of the Taigonos-Paren Uplift (southern margins of the Omolon Massif)

AbstractThis paper presents geochronological data for the volcanic dykes located in the northern Považský Inovec Mts. The dykes are up to 5 m thick and tens to hundreds of metres long. They comprise variously inclined and oriented lenses, composed of strongly altered grey-green alkali basalts. Their age was variously interpreted and discussed in the past. Dykes were emplaced into the Tatricum metamorphic rocks, mostly consisting of mica schists and gneisses of the Variscan (early Carboniferous) age. Two different methods, zircon SHRIMP and monazite chemical dating, were applied to determine the age of these dykes. U-Pb SHRIMP dating of magmatic zircons yielded the concordia age of 260.2 ± 1.4 Ma. The Th-U-Pb monazite dating of the same dyke gave the CHIME age of 259 ± 3Ma. Both ages confirm the magmatic crystallization at the boundary of the latest Middle Permian to the Late Permian. Dyke emplacement was coeval with development of the Late Paleozoic sedimentary basin known in the northern Považský Inovec Mts. and could be correlated with other pre-Mesozoic Tethyan regions especially in the Southern Alps.

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THE FIRST U-PB SHRIMP DATING OF ZIRCONS FROM CAPITANIAN (MIDDLE PERMIAN) DEPOSITS OF THE OMOLON MASSIF (NORTHEAST RUSSIA)

Tikhookeanskaya Geologiya ◽

10.30911/0207-4028-2021-40-1-77-86 ◽

2021 ◽

pp. 77-86

Author(s):

I.V. Brynko ◽

◽

G.O. Polzunenkov ◽

A.S. Biakov ◽

I.L. Vedernikov ◽

...

Keyword(s):

Detrital Zircon ◽

Volcanic Rocks ◽

Weighted Average ◽

Middle Permian ◽

Shrimp Dating ◽

Northeast Russia ◽

Volcanic Arc ◽

Omolon Massif ◽

Two Samples ◽

Middle Paleozoic

U-Pb dating of zircons from two samples of stratotype sections of the Gizhiga Formation of the Middle Permian of the Omolon Massif was first performed. Weighted average ages are 266 ± 2 and 265 ± 3 Ma taking into account the error, are consistent with Capitanian age previously established by paleontological determination. The presence of a detrital zircon population made it possible to identify several sources in the Omolon Basin. Pre–permian zircons are associated with erosion of basement deposits of the Omolon Massif, and the Middle Paleozoic volcanic rocks of the Kedon series and Permian population of zircons linked with volcanic activity of the Okhotsk-Taigonos volcanic arc.

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TEM/AEM characterization of fine-grained clay minerals in very-low-grade rocks: Evaluation of contamination by empa involving celadonite family minerals

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100165938 ◽

1996 ◽

Vol 54 ◽

pp. 694-695

Author(s):

Gejing Li ◽

D. R. Peacor ◽

D. S. Coombs ◽

Y. Kawachi

Keyword(s):

Electron Microscopy ◽

Volcanic Rocks ◽

Analytical Electron Microscopy ◽

Metamorphic Rocks ◽

New Mineral ◽

Chemical Compositions ◽

Low Grade ◽

Fine Grained ◽

Depth Analysis ◽

Mineral Aggregates

Recent advances in transmission electron microscopy (TEM) and analytical electron microscopy (AEM) have led to many new insights into the structural and chemical characteristics of very finegrained, optically homogeneous mineral aggregates in sedimentary and very low-grade metamorphic rocks. Chemical compositions obtained by electron microprobe analysis (EMPA) on such materials have been shown by TEM/AEM to result from beam overlap on contaminant phases on a scale below resolution of EMPA, which in turn can lead to errors in interpretation and determination of formation conditions. Here we present an in-depth analysis of the relation between AEM and EMPA data, which leads also to the definition of new mineral phases, and demonstrate the resolution power of AEM relative to EMPA in investigations of very fine-grained mineral aggregates in sedimentary and very low-grade metamorphic rocks.Celadonite, having end-member composition KMgFe3+Si4O10(OH)2, and with minor substitution of Fe2+ for Mg and Al for Fe3+ on octahedral sites, is a fine-grained mica widespread in volcanic rocks and volcaniclastic sediments which have undergone low-temperature alteration in the oceanic crust and in burial metamorphic sequences.

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