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Andersen, Tom (1997) Age and petrogenesis of the Qassiarsuk carbonatite-alkaline silicate volcanic complex in the Gardar rift, South Greenland. Mineralogical Magazine, 61 (407) 499-513 doi:10.1180/minmag.1997.061.407.03

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Reference TypeJournal (article/letter/editorial)
TitleAge and petrogenesis of the Qassiarsuk carbonatite-alkaline silicate volcanic complex in the Gardar rift, South Greenland
JournalMineralogical MagazineISSN0026-461X
AuthorsAndersen, TomAuthor
Year1997 (August)Volume61
Issue407
PublisherMineralogical Society
Download URLhttps://rruff.info/doclib/MinMag/Volume_61/61-407-499.pdf+
DOIdoi:10.1180/minmag.1997.061.407.03Search in ResearchGate
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Mindat Ref. ID189Long-form Identifiermindat:1:5:189:0
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Full ReferenceAndersen, Tom (1997) Age and petrogenesis of the Qassiarsuk carbonatite-alkaline silicate volcanic complex in the Gardar rift, South Greenland. Mineralogical Magazine, 61 (407) 499-513 doi:10.1180/minmag.1997.061.407.03
Plain TextAndersen, Tom (1997) Age and petrogenesis of the Qassiarsuk carbonatite-alkaline silicate volcanic complex in the Gardar rift, South Greenland. Mineralogical Magazine, 61 (407) 499-513 doi:10.1180/minmag.1997.061.407.03
In(1997, August) Mineralogical Magazine Vol. 61 (407) Mineralogical Society
Abstract/NotesAbstractThe Qassiarsuk (formerly spelled Qagssiarssuk) complex is located in a roughly Eā€“W trending graben structure between Qassiarsuk village and Tasiusaq settlement in the northern part of the Precambrian Gardar rift, South Greenland. The complex comprises a sequence of alkaline silicate tuffs and extrusive carbonatites interlayered with sandstones, and their subvolcanic equivalents, which represent possible feeders for the extrusive rocks. The Rb-Sr, Sm-Nd and Pb isotopic characteristics of 65 samples of extrusive carbonatite- and silicate tuffs and carbonatite diatremes have been determined by mass spectrometry. The Qassiarsuk complex can be dated to c. 1.2 Ga by Rb-Sr and Pb-Pb isochrons on whole-rocks and mineral separates, agreeing with previous isotopic ages for the volcanic rocks of the Eriksfjord formation in the Eriksfjord area of the Gardar rift, but not with previous, indirect age estimates of >1.31 Ga for assumed Eriksfjord equivalents in the Motzfeldt area further east. Recalculated isotopic compositions at 1.2 Ga indicate that the Qassiarsuk carbonatite- and alkaline-silicate magmas were comagmatic and derived from a depleted mantle source (ĪµNd>4, ĪµSr<āˆ’13, time-integrated, single- stage 238U/204Pb ā‰¤ 7.4). The mantle-derived magmas were contaminated with crustal material, equivalent to the local, pre-Gardar granites and gneisses and sediments derived from these. The crustal component has a depleted mantle Nd model age of 2.1-2.6 Ga; at 1.2 Ga it was characterized by ĪµSr = +76, ĪµNd = āˆ’8.4, time-integrated, single- stage 238U/204Pb = 8.2āˆ’8.3. Strong decoupling of the Pb from the Sr and Nd isotopic systems suggests that the contamination happened only after carbonatitic and alkaline-silicate magmas had evolved from a common parent, by processes such as liquid immisicibility and/or fractional crystallization. Post-magmatic hydrothermal alteration (oxidation, hydration of mafic silicates, carbonatization of melilite) may have contributed further to the contamination of the carbonatite and alkaline silicate rocks of the Qassiarsuk complex.

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Andersen, T. (2008) COEXISTING SILICATE AND CARBONATITIC MAGMAS IN THE QASSIARSUK COMPLEX, GARDAR RIFT, SOUTHWEST GREENLAND. The Canadian Mineralogist, 46 (4) 933-950 doi:10.3749/canmin.46.4.933
Dawson, J. B. (1997) Neogeneā€“Recent rifting and volcanism in northern Tanzania: relevance for comparisons between the Gardar province and the East African Rift valley. Mineralogical Magazine, 61 (407) 543-548 doi:10.1180/minmag.1997.061.407.06
Andersen, Tom (1989) Carbonatite-related contact metasomatism in the Fen complex, Norway: effects and petrogenetic implications. Mineralogical Magazine, 53 (372) 395-414 doi:10.1180/minmag.1989.053.372.01
Hodson, Mark (1997) Post-crystallisation modification of the igneous layering in the Nunarssuit and West KĆ»ngnĆ¢t syenites, South Greenland. Mineralogical Magazine, 61 (407) 467-483 doi:10.1180/minmag.1997.061.407.01
Finch, A. A., Goodenough, K. M., Salmon, H. M., Andersen, T. (2001) The petrology and petrogenesis of the North Motzfeldt Centre, Gardar Province, South Greenland. Mineralogical Magazine, 65 (6) 759-774 doi:10.1180/0026461016560007
Andersen, Tom, Austrheim, HĆ„kon (1991) Temperature-HF fugacity trends during crystallization of calcite carbonatite magma in the Fen complex, Norway. Mineralogical Magazine, 55 (378) 81-94 doi:10.1180/minmag.1991.055.378.07
Shimron, Aryeh Ervin (1975) Petrogenesis of the Tarr albititeā€”carbonatite complex, Sinai Peninsula. Mineralogical Magazine, 40 (309) 13-24 doi:10.1180/minmag.1975.040.309.03
Finch, Adrian A. (1990) Genthelvite and willemite, zinc minerals associated with alkaline magmatism from the Motzfeldt centre, South Greenland. Mineralogical Magazine, 54 (376) 407-412 doi:10.1180/minmag.1990.054.376.05
Shimron, A. E. (1975). Petrogenesis of the Tarr albititeā€”carbonatite complex, Sinai Peninsula. Mineralogical Magazine, 40(309), 13-24. doi.org/10.1180/minmag.1975.040.309.03
Coulson, Ian M. (1997) Post-magmatic alteration in eudialyte from the North QĆ“roq centre, South Greenland. Mineralogical Magazine, 61 (404) 99-109 doi:10.1180/minmag.1997.061.404.10
Pearce, N. J. G., Leng, M. J., Emeleus, C. H., Bedford, C. M. (1997) The origins of carbonatites and related rocks from the GrĆønnedal-ƍka Nepheline Syenite complex, South Greenland: C-O-Sr isotope evidence. Mineralogical Magazine, 61 (407) 515-529 doi:10.1180/minmag.1997.061.407.04
 
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