SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3132214238> ?p ?o ?g. }

Showing items 1 to 100 of ±188 with 100 items per page.

W3132214238 abstract "Abstract The Quaternary Tarosero volcano is situated in the East African Rift of northern Tanzania and mainly consists of trachyte lavas and some trachytic tuffs. In addition, there are minor occurrences of extrusive basalts, andesites and latites, as well as peralkaline trachytes, olivine trachytes and phonolites. Some of the peralkaline phonolites contain interstitial eudialyte, making Tarosero one of the few known occurrences for extrusive agpaitic rocks. This study investigates the genetic relationships between the various rock types and focuses on the peculiar formation conditions of the extrusive agpaitic rocks using a combination of whole-rock geochemistry, mineral chemistry, petrography, thermodynamic calculations, and major and trace element modelling. The Tarosero rocks formed at redox conditions around or below the fayalite–magnetite–quartz buffer (FMQ). During multi-level magmatic fractionation at depths between ∼40 km and the shallow crust, temperature decreased from >1100 °C at near-liquidus conditions in the basalts to ∼700 °C in the peralkaline residue. Fractional crystallization models and trace element characteristics do not indicate a simple genetic relationship between the trachytes and the other rock types at Tarosero. However, the genetic relationships between the primitive basalts and the intermediate latites can be explained by high-pressure fractional crystallization of olivine + clinopyroxene + magnetite + plagioclase + apatite. Further fractionation of these mineral phases in addition to amphibole and minor ilmenite led to the evolution towards the peralkaline trachytes and phonolites. The eudialyte-bearing varieties of the peralkaline phonolites required additional low-pressure fractionation of alkali feldspar and minor magnetite, amphibole and apatite. In contrast to the peralkaline trachytes and phonolites, the peralkaline olivine trachytes contain olivine instead of amphibole, thus indicating a magma evolution at even lower pressure conditions. They can be modelled as a derivation from the latites by fractional crystallization of plagioclase, clinopyroxene, magnetite and olivine. In general, agpaitic magmas evolve under closed-system conditions, which impede the escape of volatile phases. In the case of the extrusive agpaitic rocks at Tarosero, the early exsolution of fluids and halogens was prevented by a low water activity. This resulted in high concentrations of rare earth elements (REE) and other high field strength elements (HFSE) and the formation of eudialyte in the most evolved peralkaline phonolites. Within the peralkaline rock suite, the peralkaline olivine trachytes contain the lowest HFSE and REE concentrations, consistent with mineralogical evidence for formation at a relatively high water activity. The lack of amphibole fractionation, which can act as a water buffer of the melt, as well as the evolution at relatively low-pressure conditions caused the early exsolution of fluids and loss of water-soluble elements. This prevented a strong enrichment of HFSE and REE before the magma was finally extruded." @default.
W3132214238 created "2021-03-01" @default.
W3132214238 creator A5019513237 @default.
W3132214238 creator A5057276671 @default.
W3132214238 creator A5069015609 @default.
W3132214238 creator A5078970573 @default.
W3132214238 creator A5079501399 @default.
W3132214238 date "2021-04-28" @default.
W3132214238 modified "2023-09-26" @default.
W3132214238 title "The Petrology of the Tarosero Volcanic Complex: Constraints on the Formation of Extrusive Agpaitic Rocks" @default.
W3132214238 cites W1014416916 @default.
W3132214238 cites W1523608885 @default.
W3132214238 cites W1524759453 @default.
W3132214238 cites W1641367876 @default.
W3132214238 cites W1660410253 @default.
W3132214238 cites W1830358639 @default.
W3132214238 cites W1963621169 @default.
W3132214238 cites W1968681946 @default.
W3132214238 cites W1971005311 @default.
W3132214238 cites W1972337416 @default.
W3132214238 cites W1973198812 @default.
W3132214238 cites W1973955501 @default.
W3132214238 cites W1976264605 @default.
W3132214238 cites W1977422357 @default.
W3132214238 cites W1977568850 @default.
W3132214238 cites W1980155029 @default.
W3132214238 cites W1981649132 @default.
W3132214238 cites W1981985585 @default.
W3132214238 cites W1984630236 @default.
W3132214238 cites W1984846057 @default.
W3132214238 cites W1985789130 @default.
W3132214238 cites W1986382569 @default.
W3132214238 cites W1987734384 @default.
W3132214238 cites W1987847827 @default.
W3132214238 cites W1989829455 @default.
W3132214238 cites W1991521847 @default.
W3132214238 cites W1992852035 @default.
W3132214238 cites W1995079566 @default.
W3132214238 cites W1995446222 @default.
W3132214238 cites W1996585656 @default.
W3132214238 cites W1997694414 @default.
W3132214238 cites W1998241851 @default.
W3132214238 cites W1998657981 @default.
W3132214238 cites W2000086220 @default.
W3132214238 cites W2001738078 @default.
W3132214238 cites W2004612592 @default.
W3132214238 cites W2006130501 @default.
W3132214238 cites W2012787543 @default.
W3132214238 cites W2014814915 @default.
W3132214238 cites W2015389586 @default.
W3132214238 cites W2016123227 @default.
W3132214238 cites W2021987309 @default.
W3132214238 cites W2022060797 @default.
W3132214238 cites W2024118386 @default.
W3132214238 cites W2027882575 @default.
W3132214238 cites W2031375188 @default.
W3132214238 cites W2034003688 @default.
W3132214238 cites W2035045796 @default.
W3132214238 cites W2037588390 @default.
W3132214238 cites W2040092205 @default.
W3132214238 cites W2042171553 @default.
W3132214238 cites W2046206679 @default.
W3132214238 cites W2047984198 @default.
W3132214238 cites W2048116571 @default.
W3132214238 cites W2049203552 @default.
W3132214238 cites W2049774276 @default.
W3132214238 cites W2053970916 @default.
W3132214238 cites W2056923522 @default.
W3132214238 cites W2058603063 @default.
W3132214238 cites W2063307814 @default.
W3132214238 cites W2064792258 @default.
W3132214238 cites W2064980952 @default.
W3132214238 cites W2068161390 @default.
W3132214238 cites W2079443292 @default.
W3132214238 cites W2080424264 @default.
W3132214238 cites W2084449016 @default.
W3132214238 cites W2084872965 @default.
W3132214238 cites W2087035217 @default.
W3132214238 cites W2088729389 @default.
W3132214238 cites W2099226696 @default.
W3132214238 cites W2102159895 @default.
W3132214238 cites W2102598847 @default.
W3132214238 cites W2103999221 @default.
W3132214238 cites W2106129266 @default.
W3132214238 cites W2115174258 @default.
W3132214238 cites W2117761731 @default.
W3132214238 cites W2119905303 @default.
W3132214238 cites W2123935214 @default.
W3132214238 cites W2125817863 @default.
W3132214238 cites W2132818915 @default.
W3132214238 cites W2133678589 @default.
W3132214238 cites W2144343420 @default.
W3132214238 cites W2149295856 @default.
W3132214238 cites W2155146104 @default.
W3132214238 cites W2157099954 @default.
W3132214238 cites W2165073556 @default.
W3132214238 cites W2167509242 @default.
W3132214238 cites W2178458301 @default.
W3132214238 cites W2239284222 @default.
W3132214238 cites W2246618185 @default.