SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4309632155> ?p ?o ?g. }

Showing items 1 to 100 of ±220 with 100 items per page.

W4309632155 endingPage "140" @default.
W4309632155 startingPage "120" @default.
W4309632155 abstract "The generation, transport, and recrystallization of slab-derived melts/fluids play a critical role in the deep recycling of elements in subduction zones. While boron (B) isotope systematics have been invoked as an important tracer of these processes, its behavior during metamorphic dehydration and partial melting of deeply subducted continental slabs, and the partitioning of B isotopes between minerals and melts/fluids is not fully understood. Here, we investigate these processes through an in situ study of the major, trace-element, and B-Sr isotope variations in different occurrences of tourmaline in migmatite from the Yuka terrane, North Qaidam orogen (China), which resulted from partial melting of a continental slab at different stages during subduction and exhumation. Based on textural and detailed high-resolution X-ray mapping studies, tourmaline was classified into four paragenetic generations (Tur-I, Tur-II, Tur-III, and Tur-IV). Dravitic Tur-I occurs in melanosomes and shows increasing Fe, Ca, and Ti contents from the core to the outer rim. In addition, it has relatively homogeneous Sr isotope values (0.7407–0.7416) and decreasing δ11B values (-3.8 to −8.6 ‰) and XMg (Mg/(Mg + Fe)) ratios, indicating formation in a rock buffered by an aqueous fluid during the prograde to peak metamorphism. Schorlitic Tur-II occurs within selvage zones between melanosomes and leucosomes, and yields high-Fe values and low δ11B (-13.5 to −10.9 ‰) and more variable 87Sr/86Sr (0.7343–0.7418) values, indicating crystallization in the presence of a hydrous melt external derived from breakdown of Fe-rich mineral(s) during partial melting of the subducted slab. Dravitic Tur-III formed in the matrix and also enveloped Tur-II. It shows homogeneous 87Sr/86Sr values (0.7411–0.7420) and decreasing δ11B values (-6.8 to −9.9 ‰) and XMg ratios as well as increasing Fe and Ti contents from core to outer rim. Formation of Tur-III reflects a transitional stage from hydrous melt to aqueous fluid during exhumation. Tur-IV in the leucosomes is essentially a schorl-dravite solid solution with small amounts of Ca. Its 87Sr/86Sr values (0.7402–0.7416) and δ11B values (-11.4 to −8.5 ‰) are intermediate between the respective values of Tur-II and Tur-III. The formation of Tur-IV likely results from interaction between melt and fluid and, based on its chronological sequence, and is interpreted to have formed during the exhumation stage of the Yuka terrane. Overall, the variable XMg ratios and δ11B values in the different generations of tourmalines are a consequence of the evolution of the melt/fluid at different depths within the deeply subducted slab. Decreasing δ11B values from Tur-I to Tur-II and Tur-III are controlled by the breakdown of different minerals during partial melting or metamorphic dehydration of the subducted slab, while the co-variations of the elemental geochemistry and B isotopic compositions of tourmaline reflect different depths of formation during subduction and exhumation of the lithosphere. These observations suggest tourmaline may serve as a useful tracer of multiple melt/fluid–rock interactions and of boron cycling in continental subduction zones. The heterogeneity of δ11B in melts/fluids at different depth levels of the continental subducted slab may also result in locally variable B isotope values in syn- and post-collisional magmas." @default.
W4309632155 created "2022-11-28" @default.
W4309632155 creator A5013542909 @default.
W4309632155 creator A5019295590 @default.
W4309632155 creator A5049115819 @default.
W4309632155 creator A5053235297 @default.
W4309632155 creator A5053293571 @default.
W4309632155 creator A5067721560 @default.
W4309632155 creator A5070321498 @default.
W4309632155 creator A5082919794 @default.
W4309632155 creator A5086249813 @default.
W4309632155 date "2023-01-01" @default.
W4309632155 modified "2023-10-14" @default.
W4309632155 title "Tourmaline chemistry, boron, and strontium isotope systematics trace multiple melt–fluid–rock interaction stages in deeply subducted continental crust" @default.
W4309632155 cites W108956026 @default.
W4309632155 cites W1734990329 @default.
W4309632155 cites W1847069267 @default.
W4309632155 cites W1861818323 @default.
W4309632155 cites W1914582446 @default.
W4309632155 cites W1964977415 @default.
W4309632155 cites W1967950238 @default.
W4309632155 cites W1968013772 @default.
W4309632155 cites W1968350159 @default.
W4309632155 cites W1973355836 @default.
W4309632155 cites W1975047680 @default.
W4309632155 cites W1976193132 @default.
W4309632155 cites W1976553155 @default.
W4309632155 cites W1976766407 @default.
W4309632155 cites W1977876964 @default.
W4309632155 cites W1979496533 @default.
W4309632155 cites W1981238025 @default.
W4309632155 cites W1981278331 @default.
W4309632155 cites W1981363871 @default.
W4309632155 cites W1981678861 @default.
W4309632155 cites W1984787349 @default.
W4309632155 cites W1985251766 @default.
W4309632155 cites W1986074436 @default.
W4309632155 cites W1987646385 @default.
W4309632155 cites W1987647377 @default.
W4309632155 cites W1989727520 @default.
W4309632155 cites W1993130046 @default.
W4309632155 cites W1998718633 @default.
W4309632155 cites W1999371392 @default.
W4309632155 cites W1999751711 @default.
W4309632155 cites W2000027357 @default.
W4309632155 cites W2001264228 @default.
W4309632155 cites W2005145483 @default.
W4309632155 cites W2006315052 @default.
W4309632155 cites W2010110349 @default.
W4309632155 cites W2013799352 @default.
W4309632155 cites W2015155734 @default.
W4309632155 cites W2016069722 @default.
W4309632155 cites W2016245690 @default.
W4309632155 cites W2022628471 @default.
W4309632155 cites W2026889131 @default.
W4309632155 cites W2029243975 @default.
W4309632155 cites W2032784772 @default.
W4309632155 cites W2033742513 @default.
W4309632155 cites W2035283420 @default.
W4309632155 cites W2035487382 @default.
W4309632155 cites W2039020827 @default.
W4309632155 cites W2039099919 @default.
W4309632155 cites W2045575225 @default.
W4309632155 cites W2046013135 @default.
W4309632155 cites W2046803393 @default.
W4309632155 cites W2049606755 @default.
W4309632155 cites W2049958968 @default.
W4309632155 cites W2051841330 @default.
W4309632155 cites W2056860684 @default.
W4309632155 cites W2058264694 @default.
W4309632155 cites W2059837535 @default.
W4309632155 cites W2060177679 @default.
W4309632155 cites W2060963469 @default.
W4309632155 cites W2067349075 @default.
W4309632155 cites W2068957660 @default.
W4309632155 cites W2069141764 @default.
W4309632155 cites W2071112507 @default.
W4309632155 cites W2075083532 @default.
W4309632155 cites W2075328050 @default.
W4309632155 cites W2086560977 @default.
W4309632155 cites W2087968744 @default.
W4309632155 cites W2088223235 @default.
W4309632155 cites W2088303537 @default.
W4309632155 cites W2090412363 @default.
W4309632155 cites W2090615171 @default.
W4309632155 cites W2094713336 @default.
W4309632155 cites W2101912063 @default.
W4309632155 cites W2106781946 @default.
W4309632155 cites W2120057150 @default.
W4309632155 cites W2122966356 @default.
W4309632155 cites W2132508573 @default.
W4309632155 cites W2133042542 @default.
W4309632155 cites W2135889783 @default.
W4309632155 cites W2137242057 @default.
W4309632155 cites W2154804984 @default.
W4309632155 cites W2162648370 @default.
W4309632155 cites W2164064298 @default.
W4309632155 cites W2164924649 @default.