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Handa, S., Camfield, P. A. (1984) Crustal electrical conductivity in north-central Saskatchewan: the North American Central Plains anomaly and its relation to a Proterozoic plate margin. Canadian Journal of Earth Sciences, 21 (5) 533-543 doi:10.1139/e84-058

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Reference TypeJournal (article/letter/editorial)
TitleCrustal electrical conductivity in north-central Saskatchewan: the North American Central Plains anomaly and its relation to a Proterozoic plate margin
JournalCanadian Journal of Earth Sciences
AuthorsHanda, S.Author
Camfield, P. A.Author
Year1984 (May 1)Volume21
Issue5
PublisherCanadian Science Publishing
DOIdoi:10.1139/e84-058Search in ResearchGate
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Mindat Ref. ID478261Long-form Identifiermindat:1:5:478261:6
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Full ReferenceHanda, S., Camfield, P. A. (1984) Crustal electrical conductivity in north-central Saskatchewan: the North American Central Plains anomaly and its relation to a Proterozoic plate margin. Canadian Journal of Earth Sciences, 21 (5) 533-543 doi:10.1139/e84-058
Plain TextHanda, S., Camfield, P. A. (1984) Crustal electrical conductivity in north-central Saskatchewan: the North American Central Plains anomaly and its relation to a Proterozoic plate margin. Canadian Journal of Earth Sciences, 21 (5) 533-543 doi:10.1139/e84-058
In(1984, May) Canadian Journal of Earth Sciences Vol. 21 (5) Canadian Science Publishing
Abstract/Notes Seven recording magnetometers monitored time-varying fields at points on a northwest–southeast line 280 km long in north-central Saskatchewan during July 1981. The experiment was designed to test the hypothesis advanced in 1975 by Alabi, Camfield, and Gough that the electrical conductivity anomaly in the North American Central Plains links with the Wollaston Domain in the exposed Precambrian Shield of Saskatchewan. From clear reversals in the phase of vertical variations, it is evident that the conductor passes between two stations straddling the Rottenstone–La Ronge Magmatic Belt, to the immediate east of the Wollaston Domain. Enhanced horizontal variations transverse to the belt at a third, intermediate, station reinforce this interpretation. Vertical-field response arrows obtained from daytime events in the period range 1–40 min clearly indicate the existence of a major conductor that extends to lower crustal depths beneath the belt. To the northwest across the Cree Lake Zone, reversals in the direction of response arrows at short periods (up to 4 min) imply complex electrical structures in the shallow part of the crust.Lewry termed the Rottenstone–La Ronge Belt a Hudsonian "Cordillera-type" arc massif, and described strong geological evidence for collisional suturing and microplate interaction in this part of the Churchill Province. A similar scenario seems to apply in Wyoming, from the work of Hills and Houston. Thus the conductor appears to trace a Proterozoic plate margin 1500 km from a subduction zone in Wyoming along a transform fault to a subduction zone in northern Saskatchewan.

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Gupta, J. C., Kurtz, R. D., Camfield, P. A., Niblett, E. R. (1985) A geomagnetic induction anomaly from IMS data near Hudson Bay, and its relation to crustal electrical conductivity in central North America. Geophysical Journal International, 81 (1) 33-46 doi:10.1111/j.1365-246x.1985.tb01349.x
Camfield, P. A., Gough, D. I. (1977) A possible Proterozoic plate boundary in North America. Canadian Journal of Earth Sciences, 14 (6) 1229-1238 doi:10.1139/e77-112
Alabi, A. O., Camfield, P. A., Gough, D. I. (1975) The North American Central Plains Conductivity Anomaly. Geophysical Journal International, 43 (3) 815-833 doi:10.1111/j.1365-246x.1975.tb06197.x
Jones, Alan G., Craven, James A. (1990) The North American Central Plains conductivity anomaly and its correlation with gravity, magnetic, seismic, and heat flow data in Saskatchewan, Canada. Physics of the Earth and Planetary Interiors, 60 (1). 169-194 doi:10.1016/0031-9201(90)90260-5
Irwin, James J., García, Carlos, Hervé, Francisco, Brook, Maureen (1988) Geology of part of a long-lived dynamic plate margin: the coastal cordillera of north-central Chile, latitude 30°51′–31°S. Canadian Journal of Earth Sciences, 25 (4) 603-624 doi:10.1139/e88-058
Southwick, D. L., Day, W. C. (1983) Geology and petrology of Proterozoic mafic dikes, north-central Minnesota and western Ontario. Canadian Journal of Earth Sciences, 20 (4) 622-638 doi:10.1139/e83-058
Jones, Alan G, Ledo, Juanjo, Ferguson, Ian J (2005) Electromagnetic images of the Trans-Hudson orogen: the North American Central Plains anomaly revealed. Canadian Journal of Earth Sciences, 42 (4) 457-478 doi:10.1139/e05-018
Bedard, Jean H., Francis, Donald M., Hynes, Andrew J., Nadeau, Serge (1984) Fractionation in the feeder system at a Proterozoic rifted margin. Canadian Journal of Earth Sciences, 21 (4) 489-499 doi:10.1139/e84-052
Cook, Frederick A. (1984) Harmonic distortion on a seismic reflection profile across the Quebec Appalachians: relation to Bouguer gravity and implications for crustal structure. Canadian Journal of Earth Sciences, 21 (3) 346-353 doi:10.1139/e84-036
Colman-Sadd, S. P., Swinden, H. S. (1984) A tectonic window in central Newfoundland? Geological evidence that the Appalachian Dunnage Zone may be allochthonous. Canadian Journal of Earth Sciences, 21 (12) 1349-1367 doi:10.1139/e84-141
Evans, Shane, Jones, Alan G., Spratt, Jessica, Katsube, John (2005) Central Baffin electromagnetic experiment (CBEX): Mapping the North American Central Plains (NACP) conductivity anomaly in the Canadian arctic. Physics of the Earth and Planetary Interiors, 150 (1). 107-122 doi:10.1016/j.pepi.2004.08.032
 
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