FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2742435938> ?p ?o ?g. }

• W2742435938 endingPage "52" @default.
• W2742435938 startingPage "32" @default.
• W2742435938 abstract "The Eğrikar Fe–Cu skarn type mineralization is located approximately 100 km NW of Gümüşhane in NE Turkey. Geochemical analyses of diorite, which is thought to cause skarn, indicate medium K calc-alkaline (1.3 to ~ 2.3 wt% K2O), metaluminous to peraluminous (A/CNK = 0.76 to 1.13) and resembles a continental arc granite. The age of U–Pb zircon obtained from diorite is 42.3 ± 1.0 Ma, which reflects the age of skarn metasomatism after intrusion into Late Cretaceous sandy carbonates. Skarn formation zones are recognized as endo- and exoskarn. The endoskarn zone mainly consists of pyroxene with hedenbergite (Di4.31–28.14Hd59.29–80.82Jo5.0–35.55) at prograde stage. Mn content of pyroxene increases a slight from endo to exoskarn. Pyroxene is replaced by epidote and hornblende at the retrograde stage. The exoskarn zone comprises garnet with andradite (Ad91-99Gr01–07) and grossular-andradite (Ad44-95Gr05–54), epidote and quartz as silicate minerals, and magnetite and hematite as ore minerals. Magnetite is the abundant ore mineral and is accompanied by chalcopyrite and minor pyrite at retrograde stage. On the basis of fluid inclusion values of minerals, the temperature range for hedenbergite in endo-exoskarn is 350 °C–425 °C, for epidote in exoskarn is 365 °C–376 °C, and for quartz in exoskarn 200 °C–380 °C. NaCl equivalent salinity for hedenbergite 6.88–10.73 wt% and for quartz is 3.9–15.38 wt. The δ18O values of hedenbergite is 4.1 to 4.7‰ and for garnet 3.4‰ at prograde stage, for epidote 7.9–9.2‰, for magnetite 1 to 4.4‰, for hematite − 2.9 to − 1.6‰ and for quartz range between 8.5‰ and 15.2‰. The δ18O value of epidote suggests that oxygen is a magmatic fluid whereas hedenbergite, garnet, quartz and magnetite show the mixing of magmatic and meteoric fluids. In addition, the C isotope values (− 3.2 to 2.8‰) of calcite and marble in Eğrikar Fe–Cu skarn reflect those of metamorphic, and skarns. Based on oxygen isotope data from mineral pairs, the retrograde skarn formation is characterized by epidote–magnetite assemblage formed at 255 °C–438 °C. Fluid oxygen isotope compositions of magnetite and epidote pairs of the exoskarn skarn zone indicate a mixing of magmatic and meteoric fluids with narrow δ18O values between 7.17‰ and 8.9‰. The δ34S values of the pyrites exhibit a narrow range of 3‰ and 4.4‰, thereby indicating that sulfur were probably leached from magmatic rocks. Based on the field and laboratory observation, mineral chemistries, fluid inclusion studies and isotope composition analysis, it is suggested that the Eğrikar Fe–Cu skarn mineralization occurs in a magmatic origin fluids being initially under reduced conditions, subsequently under oxidized conditions, and at shallow depth." @default.
• W2742435938 created "2017-08-17" @default.
• W2742435938 creator A5007705936 @default.
• W2742435938 creator A5008019219 @default.
• W2742435938 creator A5029498500 @default.
• W2742435938 creator A5029578935 @default.
• W2742435938 creator A5069306329 @default.
• W2742435938 creator A5076576401 @default.
• W2742435938 date "2017-11-01" @default.
• W2742435938 modified "2023-09-25" @default.
• W2742435938 title "Formation of the Eğrikar (Gümüşhane) Fe–Cu skarn type mineralization in NE Turkey: U–Pb zircon age, lithogeochemistry, mineral chemistry, fluid inclusion, and O-H-C-S isotopic compositions" @default.
• W2742435938 cites W1207354341 @default.
• W2742435938 cites W1506960841 @default.
• W2742435938 cites W1862386107 @default.
• W2742435938 cites W1963871711 @default.
• W2742435938 cites W1970168935 @default.
• W2742435938 cites W1973570538 @default.
• W2742435938 cites W1978406513 @default.
• W2742435938 cites W1978801698 @default.
• W2742435938 cites W1983723209 @default.
• W2742435938 cites W1985570636 @default.
• W2742435938 cites W1987883074 @default.
• W2742435938 cites W1998842371 @default.
• W2742435938 cites W2002454556 @default.
• W2742435938 cites W2004645760 @default.
• W2742435938 cites W2005134752 @default.
• W2742435938 cites W2008200349 @default.
• W2742435938 cites W2010568086 @default.
• W2742435938 cites W2016874859 @default.
• W2742435938 cites W2019034794 @default.
• W2742435938 cites W2022859730 @default.
• W2742435938 cites W2026727394 @default.
• W2742435938 cites W2039872199 @default.
• W2742435938 cites W2040753076 @default.
• W2742435938 cites W2040810334 @default.
• W2742435938 cites W2045594539 @default.
• W2742435938 cites W2048659634 @default.
• W2742435938 cites W2050436392 @default.
• W2742435938 cites W2068403951 @default.
• W2742435938 cites W2075833702 @default.
• W2742435938 cites W2081924198 @default.
• W2742435938 cites W2083563475 @default.
• W2742435938 cites W2086330480 @default.
• W2742435938 cites W2092738643 @default.
• W2742435938 cites W2096712792 @default.
• W2742435938 cites W2106243060 @default.
• W2742435938 cites W2108971421 @default.
• W2742435938 cites W2109596691 @default.
• W2742435938 cites W2123055880 @default.
• W2742435938 cites W2135294725 @default.
• W2742435938 cites W2141890535 @default.
• W2742435938 cites W2142089274 @default.
• W2742435938 cites W2157907141 @default.
• W2742435938 cites W2164925786 @default.
• W2742435938 cites W2192899683 @default.
• W2742435938 cites W2275257812 @default.
• W2742435938 cites W2317702175 @default.
• W2742435938 cites W2466468302 @default.
• W2742435938 cites W820928667 @default.
• W2742435938 doi "https://doi.org/10.1016/j.gexplo.2017.08.006" @default.
• W2742435938 hasPublicationYear "2017" @default.
• W2742435938 type Work @default.
• W2742435938 sameAs 2742435938 @default.
• W2742435938 citedByCount "20" @default.
• W2742435938 countsByYear W27424359382019 @default.
• W2742435938 countsByYear W27424359382020 @default.
• W2742435938 countsByYear W27424359382021 @default.
• W2742435938 countsByYear W27424359382022 @default.
• W2742435938 countsByYear W27424359382023 @default.
• W2742435938 crossrefType "journal-article" @default.
• W2742435938 hasAuthorship W2742435938A5007705936 @default.
• W2742435938 hasAuthorship W2742435938A5008019219 @default.
• W2742435938 hasAuthorship W2742435938A5029498500 @default.
• W2742435938 hasAuthorship W2742435938A5029578935 @default.
• W2742435938 hasAuthorship W2742435938A5069306329 @default.
• W2742435938 hasAuthorship W2742435938A5076576401 @default.
• W2742435938 hasConcept C127313418 @default.
• W2742435938 hasConcept C151730666 @default.
• W2742435938 hasConcept C167919410 @default.
• W2742435938 hasConcept C17409809 @default.
• W2742435938 hasConcept C195843664 @default.
• W2742435938 hasConcept C199289684 @default.
• W2742435938 hasConcept C26687426 @default.
• W2742435938 hasConcept C2776152364 @default.
• W2742435938 hasConcept C2777844515 @default.
• W2742435938 hasConcept C2778357522 @default.
• W2742435938 hasConcept C2778849375 @default.
• W2742435938 hasConcept C2778998827 @default.
• W2742435938 hasConcept C2779712906 @default.
• W2742435938 hasConcept C2779870107 @default.
• W2742435938 hasConcept C2780364934 @default.
• W2742435938 hasConcept C2781366471 @default.
• W2742435938 hasConcept C2781374366 @default.
• W2742435938 hasConcept C33757491 @default.
• W2742435938 hasConcept C67236022 @default.
• W2742435938 hasConceptScore W2742435938C127313418 @default.
• W2742435938 hasConceptScore W2742435938C151730666 @default.
• W2742435938 hasConceptScore W2742435938C167919410 @default.

• next