Silicic magmatism associated with Late Cretaceousrifting in the Arctic Basin – petrogenesis of the Kap Kane sequence, the Kap Washington Group volcanics, North Greenland

Institut for Geovidenskab og Naturforvaltning

Silicic magmatism associated with Late Cretaceousrifting in the Arctic Basin – petrogenesis of the Kap Kane sequence, the Kap Washington Group volcanics, North Greenland

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Standard

Silicic magmatism associated with Late Cretaceousrifting in the Arctic Basin – petrogenesis of the Kap Kane sequence, the Kap Washington Group volcanics, North Greenland. / Þórarinsson, Sigurjón Böðvar; Holm, Paul Martin; Duprat, Helene Inga; Tegner, Christian.

I: Lithos, Bind 125, Nr. 1-2, 07.2011, s. 65-85.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Þórarinsson, SB, Holm, PM, Duprat, HI & Tegner, C 2011, 'Silicic magmatism associated with Late Cretaceousrifting in the Arctic Basin – petrogenesis of the Kap Kane sequence, the Kap Washington Group volcanics, North Greenland', Lithos, bind 125, nr. 1-2, s. 65-85. https://doi.org/10.1016/j.lithos.2011.01.013

APA

Þórarinsson, S. B., Holm, P. M., Duprat, H. I., & Tegner, C. (2011). Silicic magmatism associated with Late Cretaceousrifting in the Arctic Basin – petrogenesis of the Kap Kane sequence, the Kap Washington Group volcanics, North Greenland. Lithos, 125(1-2), 65-85. https://doi.org/10.1016/j.lithos.2011.01.013

Vancouver

Þórarinsson SB, Holm PM, Duprat HI, Tegner C. Silicic magmatism associated with Late Cretaceousrifting in the Arctic Basin – petrogenesis of the Kap Kane sequence, the Kap Washington Group volcanics, North Greenland. Lithos. 2011 jul.;125(1-2):65-85. https://doi.org/10.1016/j.lithos.2011.01.013

Author

Þórarinsson, Sigurjón Böðvar ; Holm, Paul Martin ; Duprat, Helene Inga ; Tegner, Christian. / Silicic magmatism associated with Late Cretaceousrifting in the Arctic Basin – petrogenesis of the Kap Kane sequence, the Kap Washington Group volcanics, North Greenland. I: Lithos. 2011 ; Bind 125, Nr. 1-2. s. 65-85.

Bibtex

@article{b19dacd978ed459388d25159569d280c,

title = "Silicic magmatism associated with Late Cretaceousrifting in the Arctic Basin – petrogenesis of the Kap Kane sequence, the Kap Washington Group volcanics, North Greenland",

abstract = "The bimodal, Late Cretaceous–Palaeocene (71–61 Ma) Kap Washington Group volcanic sequence on the north coast of Greenland was erupted in a continental rift setting during the opening of the Arctic Ocean. On Kap Kane ca. 70 Ma silicic lavas and ignimbrites dominate over mildly alkaline basalts. Intermediate rocks are scarce (SiO2=57–62 wt.%) and cognate mafic inclusions, resorbed crystals, and highly variable clinopyroxene compositions indicate that they formed by magma mixing. Silicic lavas (66–74 wt.% SiO2) on Kap Kane show geochemical features typical of A-type granitoids and form two chemically and mineralogically distinct suites: (i) one-feldspar, peralkaline trachytes and rhyolites with elevated contents of high field strength elements (HFSE); and (ii) two-feldspar, weakly peraluminous, HFSE-poor trachytes and rhyolites. The peralkaline lavas have Sr–Nd–Pb isotopic compositions which overlap with the compositions of mildly alkaline Kap Kane basalts. The peralkaline lavas are inferred to have originated from an evolved basaltic parent by ca. 90% fractional crystallisation of an assemblage consisting of plagioclase, alkali feldspar, clinopyroxene, Fe-Ti oxide, olivine, kaersutite and apatite. The peraluminous lavas have mixed mantle–crust Sr–Nd–Pb isotopic signatures and it is proposed that they were formed by partial melting of hybridised mafic crust with N70% contribution from juvenile, mantle-derived material in the form of lower crustal gabbros. Feldspar phenocrysts have near pure end-member compositions and many crystals display a patch antiperthite texture characterised by patches of Or98-99 in a host of Ab99, reflecting low-temperature dissolution–reprecipitation reactions during hydrothermal alteration. Leaching experiments, moreover, indicate that the Sr isotopic system of Sr-poor peralkaline lavas has been disturbed by interaction with a fluid with relatively low Rb/Sr and 87Sr/86Sr. The Nd and Pb isotopic systems do not appear significantly affected by this process.",

author = "{\TH}{\'o}rarinsson, {Sigurj{\'o}n B{\"o}{\dh}var} and Holm, {Paul Martin} and Duprat, {Helene Inga} and Christian Tegner",

year = "2011",

month = jul,

doi = "10.1016/j.lithos.2011.01.013",

language = "English",

volume = "125",

pages = "65--85",

journal = "Lithos",

issn = "0024-4937",

publisher = "Elsevier",

number = "1-2",

}

RIS

TY - JOUR

T1 - Silicic magmatism associated with Late Cretaceousrifting in the Arctic Basin – petrogenesis of the Kap Kane sequence, the Kap Washington Group volcanics, North Greenland

AU - Þórarinsson, Sigurjón Böðvar

AU - Holm, Paul Martin

AU - Duprat, Helene Inga

AU - Tegner, Christian

PY - 2011/7

Y1 - 2011/7

N2 - The bimodal, Late Cretaceous–Palaeocene (71–61 Ma) Kap Washington Group volcanic sequence on the north coast of Greenland was erupted in a continental rift setting during the opening of the Arctic Ocean. On Kap Kane ca. 70 Ma silicic lavas and ignimbrites dominate over mildly alkaline basalts. Intermediate rocks are scarce (SiO2=57–62 wt.%) and cognate mafic inclusions, resorbed crystals, and highly variable clinopyroxene compositions indicate that they formed by magma mixing. Silicic lavas (66–74 wt.% SiO2) on Kap Kane show geochemical features typical of A-type granitoids and form two chemically and mineralogically distinct suites: (i) one-feldspar, peralkaline trachytes and rhyolites with elevated contents of high field strength elements (HFSE); and (ii) two-feldspar, weakly peraluminous, HFSE-poor trachytes and rhyolites. The peralkaline lavas have Sr–Nd–Pb isotopic compositions which overlap with the compositions of mildly alkaline Kap Kane basalts. The peralkaline lavas are inferred to have originated from an evolved basaltic parent by ca. 90% fractional crystallisation of an assemblage consisting of plagioclase, alkali feldspar, clinopyroxene, Fe-Ti oxide, olivine, kaersutite and apatite. The peraluminous lavas have mixed mantle–crust Sr–Nd–Pb isotopic signatures and it is proposed that they were formed by partial melting of hybridised mafic crust with N70% contribution from juvenile, mantle-derived material in the form of lower crustal gabbros. Feldspar phenocrysts have near pure end-member compositions and many crystals display a patch antiperthite texture characterised by patches of Or98-99 in a host of Ab99, reflecting low-temperature dissolution–reprecipitation reactions during hydrothermal alteration. Leaching experiments, moreover, indicate that the Sr isotopic system of Sr-poor peralkaline lavas has been disturbed by interaction with a fluid with relatively low Rb/Sr and 87Sr/86Sr. The Nd and Pb isotopic systems do not appear significantly affected by this process.

AB - The bimodal, Late Cretaceous–Palaeocene (71–61 Ma) Kap Washington Group volcanic sequence on the north coast of Greenland was erupted in a continental rift setting during the opening of the Arctic Ocean. On Kap Kane ca. 70 Ma silicic lavas and ignimbrites dominate over mildly alkaline basalts. Intermediate rocks are scarce (SiO2=57–62 wt.%) and cognate mafic inclusions, resorbed crystals, and highly variable clinopyroxene compositions indicate that they formed by magma mixing. Silicic lavas (66–74 wt.% SiO2) on Kap Kane show geochemical features typical of A-type granitoids and form two chemically and mineralogically distinct suites: (i) one-feldspar, peralkaline trachytes and rhyolites with elevated contents of high field strength elements (HFSE); and (ii) two-feldspar, weakly peraluminous, HFSE-poor trachytes and rhyolites. The peralkaline lavas have Sr–Nd–Pb isotopic compositions which overlap with the compositions of mildly alkaline Kap Kane basalts. The peralkaline lavas are inferred to have originated from an evolved basaltic parent by ca. 90% fractional crystallisation of an assemblage consisting of plagioclase, alkali feldspar, clinopyroxene, Fe-Ti oxide, olivine, kaersutite and apatite. The peraluminous lavas have mixed mantle–crust Sr–Nd–Pb isotopic signatures and it is proposed that they were formed by partial melting of hybridised mafic crust with N70% contribution from juvenile, mantle-derived material in the form of lower crustal gabbros. Feldspar phenocrysts have near pure end-member compositions and many crystals display a patch antiperthite texture characterised by patches of Or98-99 in a host of Ab99, reflecting low-temperature dissolution–reprecipitation reactions during hydrothermal alteration. Leaching experiments, moreover, indicate that the Sr isotopic system of Sr-poor peralkaline lavas has been disturbed by interaction with a fluid with relatively low Rb/Sr and 87Sr/86Sr. The Nd and Pb isotopic systems do not appear significantly affected by this process.

U2 - 10.1016/j.lithos.2011.01.013

DO - 10.1016/j.lithos.2011.01.013

M3 - Journal article

VL - 125

SP - 65

EP - 85

JO - Lithos

JF - Lithos

SN - 0024-4937

IS - 1-2

ER -

ID: 34253499