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de La Cruz Rodrigues, Erika Helena (2021) Tourmaline of the Kragerø pegmatites: The source of boron and its implication for the melt formation of Sveconorwegian pegmatites. Master thesis, Department of Geosciences and Natural History Museum, University of Oslo.

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Reference TypeThesis/Dissertation
TitleTourmaline of the Kragerø pegmatites: The source of boron and its implication for the melt formation of Sveconorwegian pegmatites - Master thesis
Authorsde La Cruz Rodrigues, Erika HelenaAuthor
Year2021
PublisherDepartment of Geosciences and Natural History Museum, University of Oslo
URL
Download URLhttps://www.duo.uio.no/bitstream/10852/88422/5/De_La_Cruz_2021.pdf
Original EntryDe la Cruz, E. ( 2021) Tourmaline of the Kragerø pegmatites. The source of boron and its implication for the melt formation of Sveconorwegian pegmatites. Master Thesis in Geosciences, Mineralogy, Petrology and Geochemistry programme. Department of Geosciences and Natural History Museum, University of Oslo 2021
Classification
Not set		LoC
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Mindat Ref. ID16093562Long-form Identifiermindat:1:5:16093562:8
GUID543fa4fa-2dc6-404b-9540-25bbf15697fc
Full Referencede La Cruz Rodrigues, Erika Helena (2021) Tourmaline of the Kragerø pegmatites: The source of boron and its implication for the melt formation of Sveconorwegian pegmatites. Master thesis, Department of Geosciences and Natural History Museum, University of Oslo.
Plain Textde La Cruz Rodrigues, Erika Helena (2021) Tourmaline of the Kragerø pegmatites: The source of boron and its implication for the melt formation of Sveconorwegian pegmatites. Master thesis, Department of Geosciences and Natural History Museum, University of Oslo.
Abstract/NotesAbstract In the Kragerø area in South Norway, tourmaline is commonly found in Sveconorwegian Nb-Y-F pegmatites. In general, magmatic tourmaline is rare in Nb-Y-F pegmatites. The local tourmaline enrichment in the Kragerø pegmatites, and consequently, the origin of Boron is under debate, since the Sveconorwegian basement is poor in B elsewhere. The tourmalines from the following pegmatites were investigated: (1) from the Bamble sector, the Kragerø pegmatites: Lindvikskollen, Tangen, Dalane and Havredal; and the (2) Ramfoss and (3) Spro pegmatites, from the Kongsberg Sector and Idefjorden ‘Terrane’, respectively. The Lindvikskollen pegmatite area was the focus of field work and sampling of rocks and tourmalines. Additional tourmaline samples were provided by the Natural History Museum of the University of Oslo. The methodologies used included whole-rock analysis, scanning electron microscopy (SEM), electron probe microanalysis (EPMA), laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) and secondary ion mass spectrometry (SIMS). The Kragerø pegmatites (which occur a few km apart from each other) have different B isotope signatures, which hints to separate melt sources. Because a common melt source of the Kragerø pegmatites can be excluded, it is suggested that they formed by local partial melting. This conclusion is supported by the fact that no granite pluton with similar ages to the pegmatites is exposed in the area. In the case of the Lindvikskollen pegmatite, which intruded a metagabbro body and its albitized parts, tourmaline and bulk rock chemistry indicates that the pegmatite was probably formed by mixed partial melting of its metagabbro and albitite host rocks. In addition, the nearby Tangen pegmatite intrudes the same metagabbro, and its overlapping δ11B data with the Lindvikskollen tourmaline indicates that they share a common source. The Dalane and Havredal tourmalines, are most likely the result of partial melting of their metasedimentary host rocks, amphibolites and gneisses. The Ramfoss tourmalines show affinity to carbonates, which can be found in calcite veins that infiltrated the area’s rocks. The Spro tourmaline chemical and isotopic compositions point to their host rock tourmaline-bearing gneiss to be the pegmatite melt source. This thesis concludes that the source of B of the investigated pegmatites originated by low degree partial melting of their respective host rocks, which contain B-bearing minerals (borosilicates and micas) in addition to the fractional crystallization of the melt under conditions that increased the tourmaline stability range.

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Locality Pages

LocalityCitation Details
Ramfoss pegmatite, Kløftefoss, Modum, Buskerud, Norway
Hafredal mica quarry, Midtre Havredal, Havredal, Bamble, Telemark, Norway
Kragerø, Telemark, Norway
Dalane pegmatite, Sannidal, Kragerø, Telemark, Norway
Tangen Feldspar Mine, Kragerø, Telemark, Norway

Mineral Occurrences

LocalityMineral(s)
Hafredal mica quarry, Midtre Havredal, Havredal, Bamble, Telemark, Norway Biotite, Hematite, K Feldspar, Plagioclase, Quartz, Schorl
Dalane pegmatite, Sannidal, Kragerø, Telemark, Norway Allanite Group, Beryl, Biotite, Fergusonite, Garnet Group, K Feldspar, Monazite, Muscovite, Pegmatitic granite, Plagioclase, Quartz, Tourmaline, Xenotime, Zircon
Tangen Feldspar Mine, Kragerø, Telemark, Norway Allanite-(Ce), Fluorapatite

See Also

These are possibly similar items as determined by title/reference text matching only.

Steffenssen, G. A. W. (2018) The distribution and enrichment of scandium in garnets from the Tørdal pegmatites, and its economic implications. Master's thesis, University of Oslo.
Wilhelmsen, Markus Nytun (2020) The scandium content of beryllium-bearing minerals and micas from Tørdal pegmatites and its genetic and economic implications. Master, University of Oslo.
Rosing-Schow, N. (2020) The Sveconorwegian pegmatite province: Identifying the parameters controlling the abundance and genesis of the pegmatites. Dissertation for the degree of Philosophiae Doctor, University of Oslo.
Guastoni, A. (2012) LCT (lithium, cesium, tantalum) and NYF (niobium, yttrium, fluorine) pegmatites in the Central Alps. Proxies of exhumation history of the Alpine nappe stack in the Lepontine Dome. Ph.D. Thesis. University of Padova, Department of Geosciences, 159 pages.
SELWAY, J. B. (1999): Compositional evolution of tourmaline in granitic pegmatites. – MS, PhD. Thesis, University of Manitoba, Canada.
Boudreaux, Andrew P. (2014) Mineralogy and geochemistry of the Erongo Granite and interior quartz-tourmaline orbicules and NYF-type miarolitic pegmatites, Namibia. MSc thesis, University of New Orleans. New Orleans.
De La Cruz, Erika, Müller, Axel, Erambert, Muriel (2021) The Lindvikskollen pegmatite at Kragerø: New mapping and mineral chemistry results. Norsk Mineralsymposium 2021, Norsk Mineralsymposium. 61-70
Lund, M. (2016) Columbite-tantalite and garnet geochemistry in Evje-Iveland, south Norway. master Thesis in Geosciences, University of Oslo. 156p.
Kleppe, S. (2013) The Engebøfjellet Eclogite, Sunnfjord. Petrology and modal analysis of a world class rutile-ore deposit. Master Thesis in Geosciences. University of Oslo. 151 pp.
Maloney, J. (2007), Lithium and Lithium Isotopes in Tourmaline as indicators of crystallization processes: A study of San Diego County Pegmatites, California. Thesis at University of Missouri-Columbia.
Natural History Museum, University of Oslo Collection
 
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