SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2092643503> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W2092643503 endingPage "84" @default.
W2092643503 startingPage "55" @default.
W2092643503 abstract "We present petrographic, geochemical (major, traces and rare earth elements (REE)) and isotopic (Sm–Nd and Rb–Sr) data from ca. 1685 Ma mafic rocks of the Willyama Supergroup in the Broken Hill Block of western NSW, Australia. The mafic rocks occur throughout the lower Willyama Supergroup stratigraphy and are interpreted here as shallowly emplaced sills that were metamorphosed to upper amphibolite and granulite facies during the Olarian Orogeny (ca. 1600–1580 Ma). Our data indicate that the metabasites originated as a result of variable degrees of partial melting of a depleted mantle source, but slightly enriched with incompatible elements compared to present day N-MORB. This was followed by simple crystal fractionation or by an assimilation-fractional crystallisation (AFC) process involving only small degrees of crustal assimilation (rate of assimilation to rate of crystal fractionation, r = 0.05–0.2). Crystal fractionation proceeded along a tholeiitic trend of extreme primary iron and titanium enrichment, leading to melts with up to 25 wt% of total iron as Fe2O3 and 4.2 wt% of TiO2. Volumetrically minor intermediate rocks evolved from this fractionation, but the bulk of the contemporary felsic magmatic rocks (Rasp Ridge and Hores/Potosi Gneisses) are not linked by fractional crystallisation to the mafic melt that produced the meta-igneous amphibolites and are products of the anatexis of crustal material from the Willyama sedimentary pile. Based on the occurrence of bimodal magmatism, a depleted mantle source, partial melting modelling and minimal crustal contamination of the mafic rocks, we infer that the Broken Hill Block (ca. 1685 Ma) was the extensional axis and depositional centre of an advanced stage intra-cratonic rift with relatively thin crust and lithosphere. Data from the neighbouring Olary Domain, in contrast, imply smaller degrees of partial melting, higher degrees of crustal contamination and the presence of a subcontinental lithospheric mantle source, which suggests relatively thicker lithosphere and places the Olary Domain on the rift margin. Active faulting during the rift stage, coupled with submarine sedimentation and an anomalous geothermal gradient driven by lithospheric thinning, provide an ideal theoretical environment for the formation of the Broken Hill Pb–Zn–Ag orebody." @default.
W2092643503 created "2016-06-24" @default.
W2092643503 creator A5004188350 @default.
W2092643503 creator A5011781531 @default.
W2092643503 creator A5061872211 @default.
W2092643503 creator A5067070938 @default.
W2092643503 date "2007-06-01" @default.
W2092643503 modified "2023-09-27" @default.
W2092643503 title "High Fe–Ti mafic magmatism and tectonic setting of the Paleoproterozoic Broken Hill Block, NSW, Australia" @default.
W2092643503 cites W1928566219 @default.
W2092643503 cites W1943889029 @default.
W2092643503 cites W1964228532 @default.
W2092643503 cites W1964358899 @default.
W2092643503 cites W1967019161 @default.
W2092643503 cites W1971398816 @default.
W2092643503 cites W1979053860 @default.
W2092643503 cites W1990232650 @default.
W2092643503 cites W1990237142 @default.
W2092643503 cites W1991537732 @default.
W2092643503 cites W1994325032 @default.
W2092643503 cites W1996055672 @default.
W2092643503 cites W1999448338 @default.
W2092643503 cites W2000792676 @default.
W2092643503 cites W2001443300 @default.
W2092643503 cites W2004555211 @default.
W2092643503 cites W2008783408 @default.
W2092643503 cites W2012624791 @default.
W2092643503 cites W2014828526 @default.
W2092643503 cites W2015673714 @default.
W2092643503 cites W2021987309 @default.
W2092643503 cites W2024575502 @default.
W2092643503 cites W2027862110 @default.
W2092643503 cites W2034896492 @default.
W2092643503 cites W2035149499 @default.
W2092643503 cites W2036765668 @default.
W2092643503 cites W2041911594 @default.
W2092643503 cites W2042881387 @default.
W2092643503 cites W2054419752 @default.
W2092643503 cites W2055242142 @default.
W2092643503 cites W2057305327 @default.
W2092643503 cites W2058780954 @default.
W2092643503 cites W2060485732 @default.
W2092643503 cites W2063205632 @default.
W2092643503 cites W2063945760 @default.
W2092643503 cites W2064485941 @default.
W2092643503 cites W2068355095 @default.
W2092643503 cites W2070363219 @default.
W2092643503 cites W2070447246 @default.
W2092643503 cites W2073614486 @default.
W2092643503 cites W2073889251 @default.
W2092643503 cites W2077455611 @default.
W2092643503 cites W2083634344 @default.
W2092643503 cites W2084150033 @default.
W2092643503 cites W2086269294 @default.
W2092643503 cites W2088298798 @default.
W2092643503 cites W2088496938 @default.
W2092643503 cites W2089790929 @default.
W2092643503 cites W2090416219 @default.
W2092643503 cites W2092138183 @default.
W2092643503 cites W2093505723 @default.
W2092643503 cites W2093772677 @default.
W2092643503 cites W2097094305 @default.
W2092643503 cites W2102958726 @default.
W2092643503 cites W2103119280 @default.
W2092643503 cites W2108317467 @default.
W2092643503 cites W2114991673 @default.
W2092643503 cites W2125860465 @default.
W2092643503 cites W2134432981 @default.
W2092643503 cites W2141134686 @default.
W2092643503 cites W2145191782 @default.
W2092643503 cites W2149911147 @default.
W2092643503 cites W2151802570 @default.
W2092643503 cites W2285274212 @default.
W2092643503 cites W2486920962 @default.
W2092643503 cites W2504360911 @default.
W2092643503 cites W2990761043 @default.
W2092643503 cites W4229814417 @default.
W2092643503 cites W4244634768 @default.
W2092643503 cites W4245087046 @default.
W2092643503 cites W4245638129 @default.
W2092643503 cites W4246444912 @default.
W2092643503 cites W4247255930 @default.
W2092643503 doi "https://doi.org/10.1016/j.precamres.2007.02.006" @default.
W2092643503 hasPublicationYear "2007" @default.
W2092643503 type Work @default.
W2092643503 sameAs 2092643503 @default.
W2092643503 citedByCount "17" @default.
W2092643503 countsByYear W20926435032012 @default.
W2092643503 countsByYear W20926435032013 @default.
W2092643503 countsByYear W20926435032015 @default.
W2092643503 countsByYear W20926435032018 @default.
W2092643503 countsByYear W20926435032020 @default.
W2092643503 countsByYear W20926435032023 @default.
W2092643503 crossrefType "journal-article" @default.
W2092643503 hasAuthorship W2092643503A5004188350 @default.
W2092643503 hasAuthorship W2092643503A5011781531 @default.
W2092643503 hasAuthorship W2092643503A5061872211 @default.
W2092643503 hasAuthorship W2092643503A5067070938 @default.