Geochemical constraints on the Cenozoic, OIB-type alkaline volcanic rocks of NW Turkey: Implications for mantle sources and melting processes

The Slide Mountain Terrane consists of Devonian to Permian siliceous and detrital sediments in which are interbedded basalts and dolerites. Locally, ultramafic cumulates intrude these sediments. The Slide Mountain Terrane is considered to represent a back-arc basin related to the Quesnellia Paleozoic arc-terrane. However, the Slide Mountain mafic volcanic rocks exposed in central British Colombia do not exhibit features of back-arc basin basalts (BABB) but those of mid-oceanic ridge (MORB) and oceanic island (OIB) basalts. The N-MORB-type volcanic rocks are characterized by light rare-earth element (LREE)-depleted patterns, La/Nb ratios ranging between 1 and 2. Moreover, their Nd and Pb isotopic compositions suggest that they derived from a depleted mantle source. The within-plate basalts differ from those of MORB affinity by LREE-enriched patterns; higher TiO2, Nb, Ta, and Th abundances; lower εNd values; and correlatively higher isotopic Pb ratios. The Nd and Pb isotopic compositions of the ultramafic cumulates are similar to those of MORB-type volcanic rocks. The correlations between εNd and incompatible elements suggest that part of the Slide Mountain volcanic rocks derive from the mixing of two mantle sources: a depleted N-MORB type and an enriched OIB type. This indicates that some volcanic rocks of the Slide Mountain basin likely developed from a ridge-centered or near-ridge hotspot. The activity of this hotspot is probably related to the worldwide important mantle plume activity that occurred at the end of Permian times, notably in Siberia.

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U-depleted versus U-enriched signatures in complementary crust-mantle sources of volcanic rocks from Asia

10.5194/egusphere-egu21-3681 ◽

2021 ◽

Author(s):

Sergei Rasskazov ◽

Irina Chuvashova ◽

Tatiana Yasnygina ◽

Elena Saranina

Keyword(s):

Lower Mantle ◽

Partition Coefficients ◽

Volcanic Rocks ◽

Anomalous Behavior ◽

Water Soluble ◽

Tien Shan ◽

Mantle Sources ◽

Continental Lower Crust ◽

Morb Source ◽

Transitional Processes

<p>The Nb/U~47 and Th/U~4 ratios are considered as indicative for the OIB source referred by some authors to lower mantle plumes that in fact have no specific geochemical signatures but HIMU component. The Th/U ratio may vary because of the different garnet&#8211;melt and/or clinopyroxene&#8211;melt partition coefficients of U and Th. Anomalously high or low Th/U values in rocks can also be related to the input or removal of U, the migration of which is controlled by its mobility under oxidizing conditions owing to the formation of water-soluble uranyl &#160;compounds with hexavalent U. These variations definitely distinguish non-plume magmatic sources. The Th/U ratio decreases to 2.5 in the MORB source and increases to 6 in the continental lower crust one. We describe anomalous behavior of uranium in sources of Cenozoic basalts and basaltic andesites from Primorye, Lesser Khingan, Tunka Valley, as well as similar Cretaceous-Paleogene rocks from Tien Shan. Significant deviations of the Th/U and Nb/U ratios from the OIB values are characteristics mostly of garnet-free sources. The U-depleted and U-enriched signatures are used as sensitive indicators for deciphering crust&#8211;mantle transitional processes.</p><p>This work is supported by the RSF grant 18-77-10027.</p>

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GEOCHEMICAL AND Sr–Nd–Pb ISOTOPIC STUDY OF LATE NEOGENE VOLCANIC ROCKS FROM THE ARITA–IMARI AREA (SW JAPAN): EVIDENCE FOR COEXISTING OIB-LIKE AND SUBDUCTION-RELATED MANTLE SOURCES

Advances in Geosciences ◽

10.1142/9789812836182_0004 ◽

2010 ◽

pp. 31-55

Author(s):

NGUYEN HOANG ◽

JUN'ICHI ITOH ◽

KOZO UTO ◽

AKIKAZU MATSUMOTO

Keyword(s):

Volcanic Rocks ◽

Isotopic Study ◽

Late Neogene ◽

Mantle Sources ◽

Sw Japan

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Mantle sources of the Cenozoic volcanic rocks of East Asia: Derivatives of slabs, the sublithospheric convection, and the lithosphere

Russian Journal of Pacific Geology ◽

10.1134/s1819714014050030 ◽

2014 ◽

Vol 8 (5) ◽

pp. 360-378 ◽

Cited By ~ 4

Author(s):

S. V. Rasskazov ◽

T. A. Yasnygina ◽

I. S. Chuvashova

Keyword(s):

East Asia ◽

Volcanic Rocks ◽

Mantle Sources ◽

Derivatives Of

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Petrological and Geochemical Constraints on the Origin of Early Cretaceous Volcanic Rocks in the Central-East Asia: Implications for Crustal Growth and Evolution

Geochemistry Geophysics Geosystems ◽

10.1029/2017gc007327 ◽

2018 ◽

Vol 19 (9) ◽

pp. 3004-3018 ◽

Cited By ~ 1

Author(s):

Sheng-Ping Qian ◽

Zhong-Yuan Ren ◽

Le Zhang ◽

Lei Zhang ◽

Ya-Dong Wu ◽

...

Keyword(s):

East Asia ◽

Early Cretaceous ◽

Volcanic Rocks ◽

Crustal Growth ◽

Geochemical Constraints

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Trace-Element and Pb Isotope Evidence on Extracting Sulfides from Potassic Melts beneath Longmenshan and Molabushan Volcanoes, Wudalianchi, Northeast China

Minerals ◽

10.3390/min10040319 ◽

2020 ◽

Vol 10 (4) ◽

pp. 319 ◽

Cited By ~ 1

Author(s):

Sergei Rasskazov ◽

Yi-Min Sun ◽

Irina Chuvashova ◽

Tatyana Yasnygina ◽

Chen Yang ◽

...

Keyword(s):

Trace Element ◽

Volcanic Rocks ◽

Volcanic Field ◽

Lava Flows ◽

Pb Isotope ◽

Linear Pattern ◽

Wide Range ◽

Mantle Sources ◽

Isotope Evidence ◽

Isotope Study

In the Wudalianchi volcanic field, eruptions started with low-Mg potassic lava flows 2.5–2.0 Ma ago and later changed to both low- and moderate-Mg potassic compositions. Volcanic rocks from the Molabushan and Longmenshan volcanoes record an unusually wide range of Pb abundances (from 3.7 ppm to 21 ppm relative to predominant range of 10–15 ppm). To determine the cause of these, we performed a comparative trace-element and Pb isotope study of rocks from these volcanoes and older lava flows. On a uranogenic lead diagram, older low-Mg lavas from lithospheric mantle sources plot on a secondary isochron with a slope corresponding to an age of 1.88 Ga. This contrasts with moderate-Mg volcanic rocks from the Molabushan cone, interpreted to have been derived from a recent convective mantle source, which define a flat linear pattern. Low-Mg rocks from the Molabushan flow have lead isotopic compositions that indicate mixed Gelaqiu and Molabu sources. Relative to rocks from the Molabushan cone, moderate-Mg lavas and slags from the East Longmenshan volcano have modified compositions characterized by Pb, S, and Ni abundances, Ni/Co, Ni/MgO ratios as well as 206Pb/204Pb, 207Pb/204Pb, 208Pb/204Pb, Ce/Pb, Th/Pb, and U/Pb ratios. We infer that the older Wudalianchi magmas were likely derived from a Paleoproterozoic lithospheric fragment, related to the evolved primordial mantle, and that later magmas were generated in the convecting mantle. These were influenced by segregation of small amounts of sulfides.

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Geochemical Constraints on the Origin of Volcanic Rocks from the Andean Northern Volcanic Zone, Ecuador

Journal of Petrology ◽

10.1093/petrology/egl006 ◽

2006 ◽

Vol 47 (6) ◽

pp. 1147-1175 ◽

Cited By ~ 63

Author(s):

J. A. BRYANT ◽

G. M. YOGODZINSKI ◽

M. L. HALL ◽

J. L. LEWICKI ◽

D. G. BAILEY

Keyword(s):

Volcanic Rocks ◽

Volcanic Zone ◽

Northern Volcanic Zone ◽

Geochemical Constraints

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Acid-sulphate hydrothermal alteration of andesitic tuffs and genesis of halloysite and alunite deposits in the Biga Peninsula, Turkey

Clay Minerals ◽

10.1180/claymin.2008.043.2.10 ◽

2008 ◽

Vol 43 (2) ◽

pp. 281-315 ◽

Cited By ~ 34

Author(s):

Ö. I. Ece ◽

P. A. Schroeder ◽

M. J. Smilley ◽

J. M. Wampler

Keyword(s):

Hydrothermal Alteration ◽

Volcanic Rocks ◽

Geothermal Field ◽

Parent Material ◽

Thermal Waters ◽

Geothermal Waters ◽

Biga Peninsula ◽

The North ◽

Clay Deposits ◽

Nw Turkey

AbstractThe Biga Peninsula of NW Turkey is host to six major halloysite deposits in the Go¨nen, Yenice and Balya districts. Mineralization took place in areas of Permian limestone blocks where the Triassic Karakaya Complex is in contact with early Miocene calc-alkaline volcanic rocks. Hypogene halloysite mineralization was controlled by the intersection of minor faults in the vicinity of clay deposits. During the Pleistocene, activity of the North Anatolian Fault (NAF) brought ascending geothermal solutions through the fault zones to the surface, which led to hydrothermal alteration and halloysite formation. N-MORB normalized element values for each halloysite deposit and the volcanic rocks suggest genetic links. Alunite and halloysite were formed in the Turplu area where upwelling hydrothermal waters contained major H2S and SO2acids. Only halloysite mineralization occurred in outflow areas of the same fossil geothermal field.Pyrite and alunite samples from the Turplu deposits have δ34S values of 0.6–1.8% and 4.8–7.9%, respectively, with values for gypsum of 3.1–3.5%. The δ34S values of pyrite suggest that local meteoric waters had partially mixed with the dominant fluid during the closure stage of fossil hydrothermal activities. The range of δD values of halloysite samples from Turplu is –58.4 to –68.6%. The δ18O values for halloysite are in the range 16.7–18.1%. All halloysite deposits in the study areas are either overlying or adjacent to limestone blocks, and these provide excellent drainage for the discharging geothermal waters. Subsurface drainage systems in the karstic environment and the SO2-bearing thermal waters indicate the importance of acidic waters and the continuous leaching of elements in forming relatively pure hydrated halloysite. A steam-heated dissolution-precipitation model is proposed for the occurrence of all halloysite and alunite deposits. Sulphur gases (H2S-SO2) of hypogene origin rose from deep in the fault zone to the surface where they encountered oxygenated groundwater at the water table. The occurrence of H2SO4in this hydrothermal system enhanced the acidity of geothermal waters provoking advanced argillic alteration. Hypogene alunite deposits also have large P2O5contents, suggesting a parent material with a magmatic origin deeper than the alkaline tuffs. Halloysite is a fast-forming metastable precursor to kaolinite.

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