Standard

Compositional variation in apatite from various host rocks: clues with regards to source composi-tion and crystallization conditions. / Teiber, H.; Marks, M.; Wenzel, T.; Markl, G.; Arzamastsev, A.

в: Neues Jahrbuch fur Mineralogie, Abhandlungen, Том 192, № 2, 2015, стр. 151-167.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Teiber, H, Marks, M, Wenzel, T, Markl, G & Arzamastsev, A 2015, 'Compositional variation in apatite from various host rocks: clues with regards to source composi-tion and crystallization conditions.', Neues Jahrbuch fur Mineralogie, Abhandlungen, Том. 192, № 2, стр. 151-167. https://doi.org/10.1127/njma/2015/0277

APA

Teiber, H., Marks, M., Wenzel, T., Markl, G., & Arzamastsev, A. (2015). Compositional variation in apatite from various host rocks: clues with regards to source composi-tion and crystallization conditions. Neues Jahrbuch fur Mineralogie, Abhandlungen, 192(2), 151-167. https://doi.org/10.1127/njma/2015/0277

Vancouver

Teiber H, Marks M, Wenzel T, Markl G, Arzamastsev A. Compositional variation in apatite from various host rocks: clues with regards to source composi-tion and crystallization conditions. Neues Jahrbuch fur Mineralogie, Abhandlungen. 2015;192(2):151-167. https://doi.org/10.1127/njma/2015/0277

Author

Teiber, H. ; Marks, M. ; Wenzel, T. ; Markl, G. ; Arzamastsev, A. / Compositional variation in apatite from various host rocks: clues with regards to source composi-tion and crystallization conditions. в: Neues Jahrbuch fur Mineralogie, Abhandlungen. 2015 ; Том 192, № 2. стр. 151-167.

BibTeX

@article{e7d95686a7e2428695309132930bf33c,
title = "Compositional variation in apatite from various host rocks: clues with regards to source composi-tion and crystallization conditions.",
abstract = "Electron microprobe (EPMA) and total reflection X-ray fluorescence (TXRF) analyses were used to investigate the composition of 17 apatite samples of magmatic to hydrothermal origin, including six carbonatites, two ijolites, and each one phoscorite and pyroxenite (Russia/Kola Peninsula), one apatitite (Brazil/Ipanema), three silico-carbonatic pegmatites (Madagascar/Ampandrandava and Russia/Slyudyanka), one Kiruna-type deposit(Iran/Esfordi), as well as the Otter and Emerald Lake apatites (Canada). Their composition is compared to a compilation of literature data for apatite from carbonatites, gabbros, diorites, biotite (± amphibole) -bearing granitoids, muscovite-bearing granites, felsic pegmatites and the widely known Durango apatite. The results of EPMA in this study reveal that the composition of apatite tends to be distinctive for specific rock-types (e.g. relative high SrO and/or Ce2O3 contents in apatites from carbonatites or high MnO contents in apatites from muscovite-bearing granites). However, source",
keywords = "Apatite, halogens, trace elements, composition.",
author = "H. Teiber and M. Marks and T. Wenzel and G. Markl and A. Arzamastsev",
year = "2015",
doi = "10.1127/njma/2015/0277",
language = "English",
volume = "192",
pages = "151--167",
journal = "Neues Jahrbuch fur Mineralogie, Abhandlungen",
issn = "0077-7757",
publisher = "SCHWEIZERBART Science Publishers",
number = "2",

}

RIS

TY - JOUR

T1 - Compositional variation in apatite from various host rocks: clues with regards to source composi-tion and crystallization conditions.

AU - Teiber, H.

AU - Marks, M.

AU - Wenzel, T.

AU - Markl, G.

AU - Arzamastsev, A.

PY - 2015

Y1 - 2015

N2 - Electron microprobe (EPMA) and total reflection X-ray fluorescence (TXRF) analyses were used to investigate the composition of 17 apatite samples of magmatic to hydrothermal origin, including six carbonatites, two ijolites, and each one phoscorite and pyroxenite (Russia/Kola Peninsula), one apatitite (Brazil/Ipanema), three silico-carbonatic pegmatites (Madagascar/Ampandrandava and Russia/Slyudyanka), one Kiruna-type deposit(Iran/Esfordi), as well as the Otter and Emerald Lake apatites (Canada). Their composition is compared to a compilation of literature data for apatite from carbonatites, gabbros, diorites, biotite (± amphibole) -bearing granitoids, muscovite-bearing granites, felsic pegmatites and the widely known Durango apatite. The results of EPMA in this study reveal that the composition of apatite tends to be distinctive for specific rock-types (e.g. relative high SrO and/or Ce2O3 contents in apatites from carbonatites or high MnO contents in apatites from muscovite-bearing granites). However, source

AB - Electron microprobe (EPMA) and total reflection X-ray fluorescence (TXRF) analyses were used to investigate the composition of 17 apatite samples of magmatic to hydrothermal origin, including six carbonatites, two ijolites, and each one phoscorite and pyroxenite (Russia/Kola Peninsula), one apatitite (Brazil/Ipanema), three silico-carbonatic pegmatites (Madagascar/Ampandrandava and Russia/Slyudyanka), one Kiruna-type deposit(Iran/Esfordi), as well as the Otter and Emerald Lake apatites (Canada). Their composition is compared to a compilation of literature data for apatite from carbonatites, gabbros, diorites, biotite (± amphibole) -bearing granitoids, muscovite-bearing granites, felsic pegmatites and the widely known Durango apatite. The results of EPMA in this study reveal that the composition of apatite tends to be distinctive for specific rock-types (e.g. relative high SrO and/or Ce2O3 contents in apatites from carbonatites or high MnO contents in apatites from muscovite-bearing granites). However, source

KW - Apatite

KW - halogens

KW - trace elements

KW - composition.

U2 - 10.1127/njma/2015/0277

DO - 10.1127/njma/2015/0277

M3 - Article

VL - 192

SP - 151

EP - 167

JO - Neues Jahrbuch fur Mineralogie, Abhandlungen

JF - Neues Jahrbuch fur Mineralogie, Abhandlungen

SN - 0077-7757

IS - 2

ER -

ID: 5796818