SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2163928471> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W2163928471 endingPage "240" @default.
W2163928471 startingPage "224" @default.
W2163928471 abstract "We present results of upper mantle anisotropy derived from measurements of core refracted shear wave splitting (mainly SKS phases) recorded at 48 stations covering the major tectonic provinces in Central and SE Brazil, such as the Tocantins Province (Paraguay–Araguaia and Brasília belts between the Amazon and São Francisco cratons), the Paraná intracratonic basin, the southern part of the São Francisco craton, and the Mantiqueira province (with the coastal Ribeira belt). Although the fast polarization directions vary across the region, consistent orientations are observed over hundreds of kilometers. The fast polarization directions tend to be close to the absolute plate motion given by the hot-spot reference model HS3-NUVEL1A. However, correlations with geological structures are also observed in the southern Brasilia belt and in the Ribeira belt, respectively located SW and S of the São Francisco craton. On the other hand, in the northern Tocantins province, the fast shear-wave direction (∼ N60°S) is oblique to the SW–NE trend of the geological units and faults, and no anisotropy contribution from lithospheric sources can be clearly identified. Overall, the fast polarization directions show a fan-shaped pattern strongly suggesting asthenosperic flow around a thick and stiff keel in the southern part of the São Francisco craton, consistent with the high-velocity anomaly revealed by recent surface-wave tomography. The observed NW–SE directions in the southern part of the Brasília belt may also be interpreted as resulting from asthenospheric flow channeled between the São Francisco craton and a cratonic block beneath the Paraná basin. The largest splitting delays observed in the southern Brasília belt and in the Ribeira belt (up to 2.4 s) suggest contributions from both lithospheric and asthenospheric sources in those two areas. Our preferred model for the anisotropy causing the observed pattern of SKS splitting consists of flow-induced deformation in the asthenosphere caused by the absolute plate motion (roughly towards W or WSW) with flow channeled around a thick cratonic keel. In the southern Brasília and in the Ribeira fold belts, the large delays and the parallelism with geological structures indicate additional anisotropy contribution from lithospheric sources." @default.
W2163928471 created "2016-06-24" @default.
W2163928471 creator A5034405545 @default.
W2163928471 creator A5058841166 @default.
W2163928471 creator A5067154879 @default.
W2163928471 creator A5074097850 @default.
W2163928471 date "2006-10-15" @default.
W2163928471 modified "2023-10-03" @default.
W2163928471 title "Upper mantle anisotropy in SE and Central Brazil from SKS splitting: Evidence of asthenospheric flow around a cratonic keel" @default.
W2163928471 cites W1599507010 @default.
W2163928471 cites W1656703508 @default.
W2163928471 cites W1709979442 @default.
W2163928471 cites W1965013642 @default.
W2163928471 cites W1966747335 @default.
W2163928471 cites W1969232978 @default.
W2163928471 cites W1973191950 @default.
W2163928471 cites W1976207761 @default.
W2163928471 cites W1976403852 @default.
W2163928471 cites W1981087467 @default.
W2163928471 cites W1982210769 @default.
W2163928471 cites W1983091118 @default.
W2163928471 cites W1987006553 @default.
W2163928471 cites W1987194631 @default.
W2163928471 cites W1989093648 @default.
W2163928471 cites W1989342053 @default.
W2163928471 cites W1996316879 @default.
W2163928471 cites W1997437447 @default.
W2163928471 cites W2000175233 @default.
W2163928471 cites W2007408025 @default.
W2163928471 cites W2009645070 @default.
W2163928471 cites W2013360601 @default.
W2163928471 cites W2022965235 @default.
W2163928471 cites W2031084439 @default.
W2163928471 cites W2031981199 @default.
W2163928471 cites W2033889318 @default.
W2163928471 cites W2034753142 @default.
W2163928471 cites W2037208969 @default.
W2163928471 cites W2038188003 @default.
W2163928471 cites W2038669248 @default.
W2163928471 cites W2040123418 @default.
W2163928471 cites W2043336219 @default.
W2163928471 cites W2043838978 @default.
W2163928471 cites W2046365533 @default.
W2163928471 cites W2047040922 @default.
W2163928471 cites W2047402710 @default.
W2163928471 cites W2049793616 @default.
W2163928471 cites W2050682212 @default.
W2163928471 cites W2053761888 @default.
W2163928471 cites W2063054109 @default.
W2163928471 cites W2064252656 @default.
W2163928471 cites W2065111212 @default.
W2163928471 cites W2066439207 @default.
W2163928471 cites W2067396291 @default.
W2163928471 cites W2079187415 @default.
W2163928471 cites W2079294965 @default.
W2163928471 cites W2079777961 @default.
W2163928471 cites W2093663242 @default.
W2163928471 cites W2095862465 @default.
W2163928471 cites W2103670691 @default.
W2163928471 cites W2107469404 @default.
W2163928471 cites W2110525812 @default.
W2163928471 cites W2114109677 @default.
W2163928471 cites W2115980374 @default.
W2163928471 cites W2125139449 @default.
W2163928471 cites W2129023603 @default.
W2163928471 cites W2149578166 @default.
W2163928471 cites W2151658784 @default.
W2163928471 cites W2158663269 @default.
W2163928471 cites W2161104233 @default.
W2163928471 cites W2164943064 @default.
W2163928471 cites W2167380722 @default.
W2163928471 cites W2167431014 @default.
W2163928471 cites W2170081207 @default.
W2163928471 cites W2172000677 @default.
W2163928471 cites W2237268848 @default.
W2163928471 cites W2268610135 @default.
W2163928471 cites W2890347532 @default.
W2163928471 cites W2945180752 @default.
W2163928471 cites W574372148 @default.
W2163928471 cites W644720816 @default.
W2163928471 cites W1812594569 @default.
W2163928471 doi "https://doi.org/10.1016/j.epsl.2006.07.038" @default.
W2163928471 hasPublicationYear "2006" @default.
W2163928471 type Work @default.
W2163928471 sameAs 2163928471 @default.
W2163928471 citedByCount "57" @default.
W2163928471 countsByYear W21639284712012 @default.
W2163928471 countsByYear W21639284712013 @default.
W2163928471 countsByYear W21639284712014 @default.
W2163928471 countsByYear W21639284712015 @default.
W2163928471 countsByYear W21639284712016 @default.
W2163928471 countsByYear W21639284712017 @default.
W2163928471 countsByYear W21639284712018 @default.
W2163928471 countsByYear W21639284712019 @default.
W2163928471 countsByYear W21639284712020 @default.
W2163928471 countsByYear W21639284712021 @default.
W2163928471 countsByYear W21639284712022 @default.
W2163928471 countsByYear W21639284712023 @default.