322-21 Research on Magnetic Field Strength of Electromagnetic Soil Conductivity Meter and Correlation Coefficient Between Electromagnetic Response and Soil Analysis Value on Main Reclaimed Land Polder Soil in Korea.
Poster Number 1425
See more from this Division: SSSA Division: Soil Physics and Hydrology
See more from this Session: Soil Physics and Hydrology: II
Abstract:
1. In the vertical mode, the strength of the magnetic field showed a power function (y = 8940.5x-2.123). It was inversely proportional to the distance; i.e. it decreased by 50mG, 18mG, 10mG, 6.6mG, and 4.2mG with increasing distance in the vertical direction by 10 cm.
2. In the horizontal mode, the strength of the magnetic field showed a power function (y = 4503.2x-1.971). It was inversely proportional to the distance; i.e. it decreased by 35mG, 12mG, 7.8mG, 4.5mG, and 2.6mG with increasing distance in the vertical direction by 10 cm.
3. The correlation coefficient R2 between the measured electromagnetic fields and analyzed electrical conductivity with the soils from Yeongsangang reclaimed land collected on June 13th was 0.51 (topsoil) and 0.58 (subsoil). And The R2 with the soils collected on October 18th was below 0.1.
4. The correlation coefficient R2 between the measured electromagnetic fields and analyzed electrical conductivity with the soils from Iweon reclaimed land collected on June 19th was 0.64 (top soil) and 0.50 (subsoil). And The R2 with the soils collected on October 18th was 0.56 (top soil) and 0.72 (subsoil).
5. The correlation coefficient R2 between the measured electromagnetic fields and analyzed electrical conductivity with the soils from Hwaong reclaimed land collected on May 31st was below 0.1 both in the top soil and subsoil. And The R2 with the soils collected on October 16th was 0.23 (top soil) and 0.13 (subsoil).
See more from this Division: SSSA Division: Soil Physics and Hydrology
See more from this Session: Soil Physics and Hydrology: II