GRAVITY AND MAGNETIC FRAMEWORK OF WESTERN NORTH AMERICA AT LITHOSPHERIC SCALE
We present and discuss lithospheric-scale features of gravity and magnetic compilations for western North America. In Alaska and the Canadian Cordillera integrated modeling studies of very large amplitude magnetic anomalies strongly suggest a relationship between these features and significant zones of lithospheric strength that limit the craton-ward extent of backarc tectonic effects. Combined gravity and magnetic studies over the Pacific Northwest forearc reveal lower crust and upper mantle petrologic effects that contribute to our understanding of enigmatic deep earthquakes. Subtle long-wavelength characteristics of magnetic anomalies and scattered heat-flow data help explain the long-debated high elevations of the highly extended northern Basin and Range. Detailed study of magnetic anomaly gradients and trends within the Precambrian craton maps important, lithospheric-scale zones of weakness that have repeatedly localized tectonic strain within the mid continent. Challenges for the better utilization of potential-field data for lithospheric studies include better integration with regional seismic tomography, deep drill holes to provide control for deep modeling, and improved integrated regional datasets.