Special Map 2002
DOI: 10.3133/70211067
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Magnetic anomaly map of North America

Abstract: This digital Magnetic Anomaly database and map for the North American continent is the result of a joint effort by the Geological Survey of Canada (GSC), U.S. Geological Survey (USGS), and Consejo de Recursos Minerales of Mexico (CRM). The database and map represent a substantial upgrade from the previous compilation of Magnetic Anomaly data for North America, now over a decade old (Committee for the Magnetic Anomaly Map of North America, 1987). This integrated, readily accessible, modern digital database of … Show more

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Cited by 11 publications
(6 citation statements)
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“…(1967) (which closely follows magnetic anomaly peaks of the North American magnetic anomaly map created by Bankey et al. (2002)) to 1 km. Based on these magnetic anomaly picks, we estimate the strikes and standard deviations of abyssal‐hill faults that may be reactivated during slab bending in 1° wide bins using four distinct anomalies in the study area (Figures 2c and 3).…”
Section: Methodssupporting
confidence: 73%
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“…(1967) (which closely follows magnetic anomaly peaks of the North American magnetic anomaly map created by Bankey et al. (2002)) to 1 km. Based on these magnetic anomaly picks, we estimate the strikes and standard deviations of abyssal‐hill faults that may be reactivated during slab bending in 1° wide bins using four distinct anomalies in the study area (Figures 2c and 3).…”
Section: Methodssupporting
confidence: 73%
“…Rupture patches are shown on the overriding plate with colors matching those shown in Figure 1. (c) Mapped bending‐related faults (thin black lines) overlain on a magnetic anomaly grid (Bankey et al., 2002). Note the rotation in the spreading direction from N‐S west of ∼156°W to E‐W east of ∼156°W.…”
Section: Methodsmentioning
confidence: 99%
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“…Only faults with minimum scarps of ±5 m in the detrended grid are included in this mapping effort. (Bankey et al, 2002). Note the rotation in spreading direction from N-S west of ~156ºW to E-W east of ~156ºW.…”
Section: Characterizing Bending Faulting In Bathymetry Datamentioning
confidence: 99%
“…Second, crustal temperatures can be estimated from the depth to where crustal rocks reach their Curie temperature and become largely nonmagnetic, using spectral analyses of aeromagnetic data. The boundary between the North American Cordillera hot backarc and the adjacent cratonic regions is generally well defined by the spatial wavelength and character of the magnetic variations (Figure 12) (e.g., Bankey et al., 2002; Geological Survey of Canada, 2020). In northwestern Canada, the Cordillera backarc has generally shorter wavelength variations, from some combination of small scale magnetic mafic oceanic and arc terranes, and from the magnetization thermal limit being shallower (e.g.,Cook et al., 2004, 2005; Lynn et al., 2005; Pilkington & Saltus, 2009; Saltus & Hudson, 2007).…”
Section: Magnetic and Gravity Definition Of The Hot Backarcmentioning
confidence: 99%