SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2998193792> ?p ?o ?g. }

Showing items 1 to 100 of ±197 with 100 items per page.

W2998193792 endingPage "211" @default.
W2998193792 startingPage "194" @default.
W2998193792 abstract "The short-lived 182Hf-182W isotope system (t1/2 = 9 Ma) left evidence in both ancient and modern terrestrial rock record of processes that took place during the earliest stages of Earth’s accretionary and differentiation history. We report µ182W values (the deviation of 182W/184W of a sample from that of laboratory standards, in parts per million) and corresponding 3He/4He ratios for rocks from 15 different hotspots. These rocks are characterized by µ182W values that range from ∼0 to as low as −23 ± 4.5. For each volcanic system that includes rocks with negative µ182W values, the values tend to be negatively correlated with 3He/4He. The W-He isotopic characteristics of all samples can be successfully modeled via mixing involving at least three mantle source reservoirs with distinct µ182W-3He/4He characteristics. One reservoir has 3He/4He ≈ 8 R/RA and μ182W ≈ 0, which is indistinguishable from the convecting upper mantle. Based on high 3He/4He, the other two reservoirs are presumed to be relatively un-degassed and likely primordial. One reservoir is characterized by µ182W ≈ 0, while the other is characterized by µ182W ≤ −23. The former reservoir likely formed from a silicate differentiation process more than 60 Myr after the origin of the solar system, but has remained partially or wholly isolated from the rest of the mantle for most of Earth history. The latter reservoir most likely includes a component that formed while 182Hf was extant. Mass balance constraints on the isotopic composition of the core suggest it has a strongly negative µ182W value of ∼−220. Thus, it is a candidate for the origin of the negative µ182W in the plume sources. Mixing models show that the direct addition of outer core metal into a plume rising from the core-mantle boundary would result in collateral geochemical effects, particularly in the abundances of highly siderophile elements, which are not observed in OIB. Instead, the reservoir characterized by negative µ182W most likely formed in the lowermost mantle as a result of core-mantle isotopic equilibration. The envisioned equilibration process would raise the W concentration and lower the µ182W of the resulting silicate reservoir, relative to the rest of the mantle. The small proportion (<0.3 %) of this putative core-mantle equilibrated reservoir required to account for the µ182W signatures observed in OIB is insufficient to result in observable effects on most other elemental and/or isotopic compositions. The presumed primordial reservoirs may be linked to seismically distinct regions in the lower mantle. Seismically imaged mantle plumes appear to preferentially ascend from the vicinity of large low-shear velocity provinces (LLSVPs), which have been interpreted as thermochemical piles. We associate the LLSVPs with the primordial reservoir characterized by high 3He/4He and µ182W = 0. Smaller, ultra-low velocity zones (ULVZs) present at the core-mantle boundary have been interpreted to consist of (partially) molten lower mantle material. The negative µ182W signatures observed in some plume-derived lavas may result from small contributions of ULVZ material that has inherited its negative µ182W signature through core-mantle equilibration." @default.
W2998193792 created "2020-01-10" @default.
W2998193792 creator A5004361222 @default.
W2998193792 creator A5016590748 @default.
W2998193792 creator A5018362944 @default.
W2998193792 creator A5035350706 @default.
W2998193792 creator A5053558688 @default.
W2998193792 creator A5066790259 @default.
W2998193792 date "2020-02-01" @default.
W2998193792 modified "2023-10-17" @default.
W2998193792 title "Anomalous 182W in high 3He/4He ocean island basalts: Fingerprints of Earth’s core?" @default.
W2998193792 cites W1501054080 @default.
W2998193792 cites W1519816591 @default.
W2998193792 cites W1556036204 @default.
W2998193792 cites W1561382453 @default.
W2998193792 cites W1643070427 @default.
W2998193792 cites W1674226957 @default.
W2998193792 cites W1801625845 @default.
W2998193792 cites W1968208484 @default.
W2998193792 cites W1969859799 @default.
W2998193792 cites W1974731988 @default.
W2998193792 cites W1975619655 @default.
W2998193792 cites W1977793670 @default.
W2998193792 cites W1977833674 @default.
W2998193792 cites W1977973393 @default.
W2998193792 cites W1979496533 @default.
W2998193792 cites W1986748506 @default.
W2998193792 cites W1990234081 @default.
W2998193792 cites W1990876991 @default.
W2998193792 cites W1995857854 @default.
W2998193792 cites W1997588990 @default.
W2998193792 cites W1998453907 @default.
W2998193792 cites W2000115188 @default.
W2998193792 cites W2003446704 @default.
W2998193792 cites W2005763069 @default.
W2998193792 cites W2007304116 @default.
W2998193792 cites W2008073536 @default.
W2998193792 cites W2008971893 @default.
W2998193792 cites W2010056906 @default.
W2998193792 cites W2010559299 @default.
W2998193792 cites W2011607179 @default.
W2998193792 cites W2015154867 @default.
W2998193792 cites W2021653469 @default.
W2998193792 cites W2023029317 @default.
W2998193792 cites W2027814963 @default.
W2998193792 cites W2028517507 @default.
W2998193792 cites W2028705646 @default.
W2998193792 cites W2030437775 @default.
W2998193792 cites W2031883353 @default.
W2998193792 cites W2034085949 @default.
W2998193792 cites W2034667531 @default.
W2998193792 cites W2038543720 @default.
W2998193792 cites W2040694056 @default.
W2998193792 cites W2042429462 @default.
W2998193792 cites W2043791721 @default.
W2998193792 cites W2049761146 @default.
W2998193792 cites W2050130236 @default.
W2998193792 cites W2050271934 @default.
W2998193792 cites W2054699417 @default.
W2998193792 cites W2057139586 @default.
W2998193792 cites W2060835690 @default.
W2998193792 cites W2061431160 @default.
W2998193792 cites W2063290440 @default.
W2998193792 cites W2069046631 @default.
W2998193792 cites W2069896015 @default.
W2998193792 cites W2070491486 @default.
W2998193792 cites W2072709625 @default.
W2998193792 cites W2075877487 @default.
W2998193792 cites W2078206071 @default.
W2998193792 cites W2081839958 @default.
W2998193792 cites W2082384972 @default.
W2998193792 cites W2082419764 @default.
W2998193792 cites W2084563913 @default.
W2998193792 cites W2085876181 @default.
W2998193792 cites W2090717522 @default.
W2998193792 cites W2091487625 @default.
W2998193792 cites W2093159256 @default.
W2998193792 cites W2098490586 @default.
W2998193792 cites W2099711290 @default.
W2998193792 cites W2106236486 @default.
W2998193792 cites W2106868218 @default.
W2998193792 cites W2111577014 @default.
W2998193792 cites W2113170614 @default.
W2998193792 cites W2119624500 @default.
W2998193792 cites W2121888333 @default.
W2998193792 cites W2125016637 @default.
W2998193792 cites W2127125460 @default.
W2998193792 cites W2131420658 @default.
W2998193792 cites W2132714367 @default.
W2998193792 cites W2134834914 @default.
W2998193792 cites W2139467916 @default.
W2998193792 cites W2139737137 @default.
W2998193792 cites W2140210098 @default.
W2998193792 cites W2142050274 @default.
W2998193792 cites W2145385939 @default.
W2998193792 cites W2146304514 @default.
W2998193792 cites W2148407978 @default.
W2998193792 cites W2156870432 @default.