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Menzies 1989
Menzies, M.A. (1989). Cratonic, circumcratonic and oceanic mantle domains beneath the western United States. Journal of Geophysical Research 94: doi: 10.1029/89JB00231. issn: 0148-0227.

Seismic tomography, heat flow data, and xenolith thermobarometry allow one to broadly define the architecture of the lithosphere beneath the western United States. More precise information about domain geometry is forthcoming from basalt-borne and kimberlite-borne xenoliths and volcanic rocks. Basalt-borne and kimberlite-borne xenoliths provide fundamentally important information about the timing of chemical ''processes'' responsible for the formation of domains and, as such, constrain their temporal evolution. On the basis of isotopes the following compositional analogs can be identified in the mantle beneath the western United States: (1) two enriched mantle domains (EM1 and EM2), (2) depleted mid-ocean ridge basalt (MORB) mantle (DMM), and (3) a domain similar to the source of ocean island basalts (OIB). In the western United States the EM1 domain appears to be restricted to sub-Archean terrains (2.7 b.y.) crust (heat flow 40 km thick), volcanic rocks tap an Archean subcratonic domain (EM1), whereas in areas of Proterozoic crust (heat flow >2 HFU and <40 km thick), volcanic rocks tap circumcratonic (EM2) and oceanic (OIB) domains. No evidence exists for the presence of domain EM1 in Proterozoic regions, perhaps indicating that is is unique to the Archean cratons. Interplay of domains is apparent throughout the region except in the southern Basin and Range, where OIB domains predominate.

This is consistent with the existence of (1) upwelled asthenosphere in the south, (2) thicker lithosphere (EM2) elsewhere beneath the Proterozoic crust, and (3) and Archean keel (EM1) beneath Wyoming and Montana. The depleted MORB mantle (i.e., DMM) is believe to represent the sub-Proterozoic lithospheric wedge that existed prior to its modification by subduction processes during production of one of the enriched mantle domains (i.e., EM2). This is consistent with the close spatial association of the DMM and EM2 domains in the xenolith record. Certain aspects of tectonic history are believed to have been responsible for the lateral continuity of mantle domains. Stabilization of crustal regions in the Archen may have helped mature EM1 domains in the underlying lithosphere. Under Proterozoic terrains, subduction may have been responsible for the production of EM2 domains at the expense of preexistent DMM domains. Similarly, asthenospheric upwelling (OIB) in the Phanerozoic appears to have locally transformed the sub-crustal lithosphere with the partial eradication of the DMM and EM2 domains. ¿ American Geophysical Union 1989

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Abstract

Keywords
Tectonophysics, Dynamics of lithosphere and mantle—general, Information Related to Geographic Region, North America
Journal
Journal of Geophysical Research
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Publisher
American Geophysical Union
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