SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4384831460> ?p ?o ?g. }

Showing items 1 to 100 of ±136 with 100 items per page.

W4384831460 endingPage "195" @default.
W4384831460 startingPage "179" @default.
W4384831460 abstract "In this paper, statistical quartz chemistry is combined with petrographic observations to improve our understanding of how metamorphism reworks trace elements of igneous quartz. We elucidate the key processes involved in the formation of the pegmatite-type high-purity quartz deposits in Tysfjord, Northern Norway, where produced quartz has the second-best chemical purity in the world. The Tysfjord pegmatites are the largest known intra-plutonic Nb-Y-F type, comprising Paleoproterozoic and Devonian generations. The Paleoproterozoic pegmatites show characteristics of Caledonian deformation and can be divided into a strongly-deformed type and a less-deformed type: primary internal zonation is replaced by quartz core and K-feldspar-rich intermediate zones surrounded by sheared granitic wall zones; quartz has undergone dynamic recrystallization and contains very few fluid inclusions. The Devonian pegmatites are undeformed and the quartz is rich in healed, fluid-inclusion-bearing microcracks. Trace elements in the pegmatite quartz are dominated by Al, Ti, Li, Ge and B, and total concentrations of the five elements are 29 ± 9 μg/g, 35 ± 10 μg/g and 38 ± 12 μg/g for the strongly-deformed, less-deformed and undeformed types, respectively. The quartz chemistry of the Devonian pegmatites is largely heterogeneous and shows significantly increasing Ge and B contents from early- to late-stage quartz, reflecting the fractionation enrichment of Ge and B in the evolved melts. The quartz chemistry of the Paleoproterozoic pegmatites has become homogeneous and is dominated by either Ti or Li and Al, resulting from the metamorphic modifications during the Caledonian overprint. The modifications on quartz took place via volume diffusion or dynamic recrystallization equilibrium, resulting in a resetting of Ti (at low TiO2 activity) and losses of Li and Al. Therefore, the less-evolved pegmatite-forming melts derived from the Paleoproterozoic magmatism and the moderate metamorphic modifications during the Caledonian orogeny are important for the formation of the high-purity quartz deposits. This study manifests that quartz chemistry has the potential to fingerprint igneous and metamorphic mineralization processes in tectonomagmatic terranes." @default.
W4384831460 created "2023-07-21" @default.
W4384831460 creator A5015423253 @default.
W4384831460 creator A5060181712 @default.
W4384831460 creator A5071247100 @default.
W4384831460 date "2023-09-01" @default.
W4384831460 modified "2023-10-18" @default.
W4384831460 title "Quartz chemistry fingerprints melt evolution and metamorphic modifications in high-purity quartz deposits" @default.
W4384831460 cites W1583755610 @default.
W4384831460 cites W1964191227 @default.
W4384831460 cites W1968720644 @default.
W4384831460 cites W1971772202 @default.
W4384831460 cites W1972712810 @default.
W4384831460 cites W1980551284 @default.
W4384831460 cites W1993269052 @default.
W4384831460 cites W1994405980 @default.
W4384831460 cites W1998886247 @default.
W4384831460 cites W2005868942 @default.
W4384831460 cites W2006419795 @default.
W4384831460 cites W2009515278 @default.
W4384831460 cites W2011488152 @default.
W4384831460 cites W2013624176 @default.
W4384831460 cites W2023725435 @default.
W4384831460 cites W2026361339 @default.
W4384831460 cites W2026725970 @default.
W4384831460 cites W2029351912 @default.
W4384831460 cites W2031770668 @default.
W4384831460 cites W2041389048 @default.
W4384831460 cites W2049061564 @default.
W4384831460 cites W2054791696 @default.
W4384831460 cites W2054962384 @default.
W4384831460 cites W2060695810 @default.
W4384831460 cites W2066592876 @default.
W4384831460 cites W2070096426 @default.
W4384831460 cites W2080539747 @default.
W4384831460 cites W2084317102 @default.
W4384831460 cites W2088143372 @default.
W4384831460 cites W2089284097 @default.
W4384831460 cites W2092929038 @default.
W4384831460 cites W2097184483 @default.
W4384831460 cites W2101458885 @default.
W4384831460 cites W2102413566 @default.
W4384831460 cites W2103108238 @default.
W4384831460 cites W2105208562 @default.
W4384831460 cites W2105427450 @default.
W4384831460 cites W2110894585 @default.
W4384831460 cites W2113248441 @default.
W4384831460 cites W2128728535 @default.
W4384831460 cites W2138769772 @default.
W4384831460 cites W2149433394 @default.
W4384831460 cites W2153687162 @default.
W4384831460 cites W2157430657 @default.
W4384831460 cites W2165976294 @default.
W4384831460 cites W2170205984 @default.
W4384831460 cites W2172005127 @default.
W4384831460 cites W2260443986 @default.
W4384831460 cites W2316359733 @default.
W4384831460 cites W2341033995 @default.
W4384831460 cites W2599956746 @default.
W4384831460 cites W2619053046 @default.
W4384831460 cites W2734784662 @default.
W4384831460 cites W2761439567 @default.
W4384831460 cites W2764638598 @default.
W4384831460 cites W2804573503 @default.
W4384831460 cites W2805949856 @default.
W4384831460 cites W2883664542 @default.
W4384831460 cites W2902266156 @default.
W4384831460 cites W2905319335 @default.
W4384831460 cites W2999870794 @default.
W4384831460 cites W3042341367 @default.
W4384831460 cites W3087153054 @default.
W4384831460 cites W3090049386 @default.
W4384831460 cites W3158293623 @default.
W4384831460 cites W3198633432 @default.
W4384831460 cites W3204580846 @default.
W4384831460 cites W3208440489 @default.
W4384831460 cites W3216172124 @default.
W4384831460 cites W3216522413 @default.
W4384831460 cites W4212778801 @default.
W4384831460 cites W4221087131 @default.
W4384831460 cites W4225409047 @default.
W4384831460 cites W4283166990 @default.
W4384831460 cites W4283820621 @default.
W4384831460 doi "https://doi.org/10.1016/j.gca.2023.07.015" @default.
W4384831460 hasPublicationYear "2023" @default.
W4384831460 type Work @default.
W4384831460 citedByCount "1" @default.
W4384831460 countsByYear W43848314602023 @default.
W4384831460 crossrefType "journal-article" @default.
W4384831460 hasAuthorship W4384831460A5015423253 @default.
W4384831460 hasAuthorship W4384831460A5060181712 @default.
W4384831460 hasAuthorship W4384831460A5071247100 @default.
W4384831460 hasBestOaLocation W43848314601 @default.
W4384831460 hasConcept C107832698 @default.
W4384831460 hasConcept C112764850 @default.
W4384831460 hasConcept C127313418 @default.
W4384831460 hasConcept C151730666 @default.
W4384831460 hasConcept C17409809 @default.