Paul A. Bedrosian Jeffrey J. Love 2018 <p><span>Maps of geoelectric amplitude covering about half the continental United States are presented that will be exceeded, on average, once per century in response to an extreme-intensity geomagnetic disturbance. These maps are constructed using an empirical parameterization of induction: convolving latitude-dependent statistical maps of extreme-value geomagnetic disturbances, obtained from decades of 1-minute magnetic observatory data, with local estimates of Earth-surface impedance obtained at discrete geographic sites from magnetotelluric surveys. Geoelectric amplitudes are estimated for geomagnetic waveforms having a 240-s (and 1200-s) sinusoidal period and amplitudes over 10&nbsp;min (1&nbsp;h) that exceed a once-per-century threshold. As a result of the combination of geographic differences in geomagnetic variation and Earth-surface impedance, once-per-century geoelectric amplitudes span more than two orders of magnitude and are a highly granular function of location. Specifically for north-south 240-s induction, once-per-century geoelectric amplitudes across large parts of the United States have a median value of 0.34&nbsp;V/km; for east-west variation, they have a median value of 0.23&nbsp;V/km. In Northern Minnesota, amplitudes exceed 14.00&nbsp;V/km for north-south geomagnetic variation (23.34&nbsp;V/km for east-west variation), while just over 100&nbsp;km away, amplitudes are only 0.08&nbsp;V/km (0.02&nbsp;V/km). At some sites in the northern-central United States, once-per-century geoelectric amplitudes exceed the 2&nbsp;V/km realized in Québec during the March 1989 storm.</span><br></p> application/pdf 10.1016/B978-0-12-812700-1.00009-1 en Elsevier Extreme-event geoelectric hazard maps: Chapter 9 chapter