SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1885673864> ?p ?o ?g. }

Showing items 1 to 100 of ±143 with 100 items per page.

W1885673864 endingPage "17" @default.
W1885673864 startingPage "1" @default.
W1885673864 abstract "[1] We use offshore multichannel seismic (MCS) reflection and wide-angle seismic data sets to model the velocity structure of the incipient arc-continent collision along two trench perpendicular transects in the Bashi Strait between Taiwan and Luzon. This area represents a transition from a tectonic regime dominated by subduction of oceanic crust of the South China Sea, west of the Philippines, to one dominated by subduction and eventual collision of rifted Chinese continental crust with the Luzon volcanic arc culminating in the Taiwan orogeny. The new seismic velocity models show evidence for extended to hyperextended continental crust, ~10–15 km thick, subducting along the Manila trench at 20.5°N along transect T1, as well as evidence indicating that this thinned continental crust is being structurally underplated to the accretionary prism at 21.5°N along transect T2, but not along T1 to the south. Coincident MCS reflection imaging shows highly stretched and faulted crust west of the trench along both transects and what appears to be a midcrustal detachment along transect T2, a potential zone of weakness that may be exploited by accretionary processes during subduction. An additional seismic reflection transect south of T1 shows subduction of normal ocean crust at the Manila trench." @default.
W1885673864 created "2016-06-24" @default.
W1885673864 creator A5007527683 @default.
W1885673864 creator A5032535282 @default.
W1885673864 creator A5059158543 @default.
W1885673864 creator A5059483345 @default.
W1885673864 creator A5063606519 @default.
W1885673864 creator A5069674221 @default.
W1885673864 creator A5087393901 @default.
W1885673864 date "2014-01-01" @default.
W1885673864 modified "2023-10-12" @default.
W1885673864 title "Crustal-scale seismic profiles across the Manila subduction zone: The transition from intraoceanic subduction to incipient collision" @default.
W1885673864 cites W1495115150 @default.
W1885673864 cites W1586873887 @default.
W1885673864 cites W1963648072 @default.
W1885673864 cites W1968166571 @default.
W1885673864 cites W1981923014 @default.
W1885673864 cites W1985630048 @default.
W1885673864 cites W1990940588 @default.
W1885673864 cites W1993318699 @default.
W1885673864 cites W1996450020 @default.
W1885673864 cites W1996653784 @default.
W1885673864 cites W1998125659 @default.
W1885673864 cites W1999190028 @default.
W1885673864 cites W1999267088 @default.
W1885673864 cites W1999282809 @default.
W1885673864 cites W1999813262 @default.
W1885673864 cites W2000548341 @default.
W1885673864 cites W2006345319 @default.
W1885673864 cites W2009892449 @default.
W1885673864 cites W2009941491 @default.
W1885673864 cites W2015144105 @default.
W1885673864 cites W2016301670 @default.
W1885673864 cites W2023039137 @default.
W1885673864 cites W2028824043 @default.
W1885673864 cites W2029817256 @default.
W1885673864 cites W2029946721 @default.
W1885673864 cites W2030727148 @default.
W1885673864 cites W2032034753 @default.
W1885673864 cites W2041042958 @default.
W1885673864 cites W2043462526 @default.
W1885673864 cites W2045627460 @default.
W1885673864 cites W2047850677 @default.
W1885673864 cites W2052377525 @default.
W1885673864 cites W2056368446 @default.
W1885673864 cites W2056880305 @default.
W1885673864 cites W2058269792 @default.
W1885673864 cites W2058977086 @default.
W1885673864 cites W2059231219 @default.
W1885673864 cites W2066633655 @default.
W1885673864 cites W2076803851 @default.
W1885673864 cites W2077837684 @default.
W1885673864 cites W2083125257 @default.
W1885673864 cites W2088223195 @default.
W1885673864 cites W2088418975 @default.
W1885673864 cites W2089734385 @default.
W1885673864 cites W2106170078 @default.
W1885673864 cites W2114415077 @default.
W1885673864 cites W2114660893 @default.
W1885673864 cites W2124343231 @default.
W1885673864 cites W2134946466 @default.
W1885673864 cites W2142259352 @default.
W1885673864 cites W2151289207 @default.
W1885673864 cites W2156244293 @default.
W1885673864 cites W2156841285 @default.
W1885673864 cites W2167397063 @default.
W1885673864 cites W2169390933 @default.
W1885673864 cites W2170534144 @default.
W1885673864 cites W2323365704 @default.
W1885673864 cites W2331532909 @default.
W1885673864 cites W2336913679 @default.
W1885673864 cites W2978010076 @default.
W1885673864 cites W4214685881 @default.
W1885673864 cites W4300998818 @default.
W1885673864 doi "https://doi.org/10.1002/2013jb010395" @default.
W1885673864 hasPublicationYear "2014" @default.
W1885673864 type Work @default.
W1885673864 sameAs 1885673864 @default.
W1885673864 citedByCount "60" @default.
W1885673864 countsByYear W18856738642014 @default.
W1885673864 countsByYear W18856738642015 @default.
W1885673864 countsByYear W18856738642016 @default.
W1885673864 countsByYear W18856738642017 @default.
W1885673864 countsByYear W18856738642018 @default.
W1885673864 countsByYear W18856738642019 @default.
W1885673864 countsByYear W18856738642020 @default.
W1885673864 countsByYear W18856738642021 @default.
W1885673864 countsByYear W18856738642022 @default.
W1885673864 countsByYear W18856738642023 @default.
W1885673864 crossrefType "journal-article" @default.
W1885673864 hasAuthorship W1885673864A5007527683 @default.
W1885673864 hasAuthorship W1885673864A5032535282 @default.
W1885673864 hasAuthorship W1885673864A5059158543 @default.
W1885673864 hasAuthorship W1885673864A5059483345 @default.
W1885673864 hasAuthorship W1885673864A5063606519 @default.
W1885673864 hasAuthorship W1885673864A5069674221 @default.
W1885673864 hasAuthorship W1885673864A5087393901 @default.
W1885673864 hasBestOaLocation W18856738641 @default.