ГЕОХІМІЯ АПАТИТУ ІЗ ПОРІД КОРСУНЬ-НОВОМИРГОРОДСЬКОГО АНОРТОЗИТ-РАПАКІВІГРАНІТНОГО ПЛУТОНУ. (Ukrainian)
In: Mineralogicheskiya Zhurnal, Jg. 44 (2022-07-01), Heft 3, S. 48-66
academicJournal
Zugriff:
Trace element concentrations (REEs, Y, Sr, Th, U) in apatites from the most typical rocks of the KorsunNovomyrhorod anorthosite-rapakivi pluton (KNP) were measured. Apatite was the last liquidous phase to crystallize in all the studied rocks because of the low P 2 O 5 content in the primary melts. In the basic rocks, apatite is the main source of REEs, especially LREEs, except for Eu and Y. In intermediate and acidic rocks, apatites have minor influence on REEs concentrations, but they are more enriched in Th and U. All chondrite-normalized REE patterns of apatite show large negative Eu-anomalies (Eu/Eu* 0.03-0.21). This anomaly as well as increased Sr contents is less prominent (0.39) only in apatite from the norite of the external part of the pluton. With increased magmatic differentiation, apatite becomes more enriched in REEs, but Sr is depleted in the basic and intermediate rocks. In addition, all apatites from these rocks are LREE enriched and depleted in HREE and Sc which is consistent with earlier clino- or orthopyroxene fractionation, considering the minor amounts of in REE in plagioclase. REE patterns normalized to the primitive mantle indicate LREE enrichment ((La/Lu) N = 10.8-36) of apatites from all types of rocks with pronounced negative anomalies of Sr and Eu. This is the result of their low compatibility with apatite compared to other REEs. Inasmuch as the distribution of Eu is related to oxygen fugacity, we think that such unusually low Eu-anomalies reflect the initial melt differentiation under abyssal conditions. Thus, ubiquitous strong negative Eu-anomalies in apatites of all types of rocks are a result of two factors occurring during parent melt fractionation, namely early intensive plagioclase fractionation and highly reduced conditions during melt differentiation. By similar trace elements concentration and similarity of REE distribution in apatites it is probably that basic rocks and monzonitesare are derived from the same primary melt. At the same time, apatites from granites and syenites show maximum enrichment of REEs, especially HREE and Y. This indicates crystallization from residual differentiated melts (for syenites) or partial interaction of melts of various composition (basic and acidic) with migration of enriched LILE and REE solutions into acidic melts. The low content of P 2 O 5 in ore-bearing rocks and ores of KNP, as well as the absence of Ti-magnetite and high iron enrichment of mafgic minerals and the unusually strong and negative Eu-anomalies in apatites, clearly distinguishes them from the Fe-Ti-P ores of the Korosten pluton. This suggests differences in the chemical composition of primary melts as well as the physical conditions of their differentiation. [ABSTRACT FROM AUTHOR]
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Titel: |
ГЕОХІМІЯ АПАТИТУ ІЗ ПОРІД КОРСУНЬ-НОВОМИРГОРОДСЬКОГО АНОРТОЗИТ-РАПАКІВІГРАНІТНОГО ПЛУТОНУ. (Ukrainian)
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Autor/in / Beteiligte Person: | Дубина, О. В. ; Кривдік, С. Г. ; Швайка, І. А. ; Швайка, І. Д. ; Проскурка, Л. І. |
Zeitschrift: | Mineralogicheskiya Zhurnal, Jg. 44 (2022-07-01), Heft 3, S. 48-66 |
Veröffentlichung: | 2022 |
Medientyp: | academicJournal |
ISSN: | 2519-2396 (print) |
DOI: | 10.15407/mineraljournal.44.03.048 |
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