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Goodwin et al. 1989
Goodwin, E.B., Fus, G.S., Nokleberg, W.J. and Ambos, E.L. (1989). The crustal structure of the Wrangellia terrane along the East Glenn Highway, eastern-southern Alaska. Journal of Geophysical Research 94: doi: 10.1029/88JB04067. issn: 0148-0227.

Recently acquired seismic refraction data from eastern-southern Alaska provide new information on the structure and composition of the Wrangellia and ajacent terranes. The data comprise a 160-km-long refraction profile along the East Glenn (Tok-cutoff) Highway that was collected as part of the U.S. Gelogical Survey's multidisciplinary Trans-Alaska Crustal Transect program. The upper 3 km of the Wrangellia terrane and associated rocks is characterized by low compressional wave velocities (Vp=1.9, 3.3 4.6 5.6 km s-1) and high-velocity gradients common to most onshore seismic refraction profiles. There is also clear seismic expression of the West Fork fault system as a steep, down-to-the-southwest fault that separates the Peninsular terrane to the southwest and the metamorphic complex of Gulkana River to the northeast. In contrast, no seismic expression occurs for the Paxson Lake fault, which separates the Wrangellia terrane from the metamoprhic complex of Gulkana River. Adjacent to the Denali fault, within the Wrangellia terrane, two high-velocity bodies (Vp=6.6 km s-1) occur in the upper crust. One of these extends to ~10-km depth and correlates with a late Paleozoic dioritic complex, suggesting that the Wrangellia terrane is at least 10 km thick in this part of Alaska.

From 5 to 23 km depth, the crust appears seismically homogeneous, with velocity increasing from Vp=6.2 to Vp=6.6 km s-1. Beneath this level, the crust is less well resolved, although evidence exists for a low-velocity zone between 23 and 26 km and a possible southwest dipping interface at 35 km. No identifiable mantle refraction or reflection is observed, possibly indicating a crust as thick as 55 km. The relatively low seismic velocities in the upper 23 km of the crust compare favorably with laboratory-measured velocites on pelitic schists and intermediate-composition plutonic rocks (granites and granodiorites), both of which are recognized in Wrangellia. We interpret the seismic velocities to indicate that silicic-to-intermediate-composition rocks are important constituents of the basement of this part of Wrangelia. Geologic evidence indicates that the Alaskan part of the Wrangellia terrane is a Paleozoic and Mesozoic Island arc: our seismic evidence indicates it may have been built mostly on continental crust as opposed to the fragment of Wrangellia from Vancouver Island which was probably built on oceanic crust. ¿ American Geophysical Union 1989

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Abstract

Keywords
Seismology, Continental crust, Information Related to Geographic Region, North America
Journal
Journal of Geophysical Research
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American Geophysical Union
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