Search

Your search keyword '"Seguin, M. K."' showing total 32 results
Start Over Author "Seguin, M. K."
32 results on '"Seguin, M. K."'

1. Mapping field-scale physical properties in soil with electrical resistivity

Author

Banton, O., Seguin, M.-K., and Cimon, M.-A.

Subjects
Soils -- Electric properties, Soil science -- Research, Earth sciences
Abstract

The spatial variability of physical properties that significantly influence the fate of water and solute in soils needs a large number of measurements to be quantified. Surface electrical resistivity techniques could be used as a simple and practical method to determine this spatial variability. Electrical sounding and profiling measurements were taken on a small agricultural field (30 by 60 m) under two different soil conditions (dry and wet conditions). The soil profile is composed of three layers: a highly permeable sandy loam (alluvial terrace) overlying a gravelly sandy till that covers a friable sandy to silty shale. The soil physical properties (grain size distribution, porosity, hydraulic conductivity, bulk density, and organic matter content) of the uppermost layer were measured in the laboratory on undisturbed soil cores taken at three different depths on a 6 by 15 m grid in the field. Correlations were established between these parameters and the electrical conductivity. The best correlations were between the electrical conductivity and the sand, silt, clay, and organic matter contents. Their correlation coefficients, r, were, respectively, 0.64. 0.53, 0.64, and 0.65 for the dry conditions and 0.54, 0.45, 0.53, and 0.52 for the wet conditions. No relation was established between the electrical conductivity and the porosity, the bulk density, or the hydraulic conductivity. The correlation coefficients were, respectively, 0.04, 0.16, and 0.10 for the dry conditions and 0.14, 0.12, and 0.14 for the wet conditions. Electrical conductivity seems to be more influenced by the soil texture, i.e., by the electrical properties of the soil constituents, than by the structure, i.e., the water-related properties. Besides, the two sets of electrical resistivities obtained in dry and wet conditions are not significantly different, as shown by the regression between them (slope = 0.92, r = 0.71) and by the isoresistivity maps. This study seems to indicate that the electrical method could be used to evaluate the spatial variability of some soil properties when their variability is sufficiently large, i.e., when the investigation scale or the level of contrast is large enough.

Published
1997

5. Book reviews

Author

Adams, W. M., Meissner, R., Vetter, U., Kunkel, G., Ritchie, W., Seibold, E., Bardach, John E., Orren, M. J., Seguin, M. K., Müller, G., and Karras, Matti

Published
1979
Full Text
View/download PDF

16. Palaeomagnetic constraints on the evolution of the Caledonian-Appalachian orogen

Author

Briden, J. C., Kent, Dennis V., Lapointe, P. L., Roy, J. L., Livermore, R. A., Smith, A. G., Seguin, M. K., Van Der Voo, Robert, and Watts, D. R.

Subjects
Geophysics, Plate tectonics
Abstract

Late Proterozoic and Palaeozoic (pre-Permian) palaeomagnetic data from all regions involved in, or adjacent to, the Caledonian-Appalachian orogenic belt are reviewed. Between about 1100 and about 800 Ma the Laurentian and Baltic shields were close together, prior to the opening phase of the Caledonian-Appalachian Wilson cycle. The problems of tectonic interpretation of Palaeozoic palaeomagnetic data from within and around the belt derive mostly from differences of typically 10°-20° between the pole positions. These can variously be interpreted in terms of (i) relative displacements between different continents or terranes, (ii) differences in ages of remanence and (iii) aberrations due to inadequacy of data or geomagnetic complexity, and it is not always easy to discriminate between these alternatives. If the Pangaea A2 reassembly of continents around the northern and central Atlantic is taken as the end-product of Caledonian-Appalachian orogenesis, the following conclusions can be drawn: 1. Lower Palaeozoic palaeolatitude differences between the N American and British-Scandinavian margins of the Caledonides are small; hence any convergence must have been mainly E-W. 2. There are additional differences which could be due to major pre-Carboniferous strike-slip (more than 1000 km), although later strike-slip on this scale is no longer considered likely. 3. The Lower Palaeozoic apparent polar wander paths for Northern Scotland and N America disagree on face value, but must be reconciled if their conventionally assumed geographic relation is correct. 4. Lower Old Red Sandstone data from Britain and Norway disagree, but this is more likely to be due to magnetic overprinting in the Norwegian rocks than to remnant oceans between the regions of Old Red Sandstone facies. 5. Armorica seems to have been far to the S, adjacent to Gondwana, in Ordovician time. The latest view is that it collided with Euramerica in early Devonian time to form the Old Red Continent. 6. The timing of Gondwana's collision with the Old Red Continent is controversial; it is within either the late Devonian or the Carboniferous. If it occurred early in that time range, much of Hercynian-Alleghanian orogeny post-dated it.

Published
1988
Full Text
View/download PDF

32. Magnetostatic field effect: stress syndrome pattern and functional relation with intensity.

Author

Laforge H, Sadeghi MR, and Seguin MK

Subjects
Animals, Body Weight, Mice, Electromagnetic Fields, Electromagnetic Phenomena, General Adaptation Syndrome etiology, Stress, Physiological complications, Stress, Physiological etiology
Abstract

The stressing action of a medium-intensity, magnetostatic field was studied for several levels of intensity. Our purpose was to verify a stressing action by display of the general adaptation syndrome pattern on the growth rate of mice and to establish the relation between effect and field intensity on the same variable. Eight groups of mice showed a linear relation. Moreover, stressing action was noticed at lower intensities than previously suggested.

Published
1986
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results