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Changes in soil physical properties (bulk density, cone penetration resistance, and infiltration rate) were used to investigate the effect of three different vehicle parameters. These parameters include tillage treatments (no-till, rotary tillage, and moldboard plowing), axle load (loaded and unloaded grain cart), and tire inflation pressure (high and low inflation pressures). Soil response to these parameters was measured between 0-480 mm depth. The results obtained from the experimental data showed that dry bulk density and cone penetration resistance were affected from 0-240 mm depth by axle load and tillage treatments. However, dry bulk density and cone penetration resistance were affected from 240-480 mm depth by tire inflation pressure and axle load. The loaded vehicle with high tire inflation pressure on no-till plot had the greatest effect while, the unloaded vehicle with low tire inflation pressure on rotary tilled plots had the lowest effect.

The soil response to traffic loads as affected by tire inflation pressure, track width and drawbar pull was measured. The change in soil physical properties caused by a John Deere 8870 tractor at two tire pressure settings and CATERPILLAR Challenger 65 and 75 tractors with 64 and 89 cm wide belt tracks, were measured at two load levels; no draft (tractor only) and tractor pulling a 12.5 m field cultivator. The Ohio State University Soil Physical Properties Measurement System was used to measure cone penetration resistance, air permeability, air-filled porosity, and bulk density. The results show the dual overinflated tires caused the greatest change, followed by the CATERPILLAR Challenger 65 track, then the CATERPILLAR Challenger 75 track, and finally dual correctly inflated tires caused the least effect on soil physical properties. These results were consistent at each depth. The effects of the two draft levels give the same ranking of the tractive units.

Soil response to differences in tire size and inflation pressure was measured for a JD 9600 combine with 18.4R38 dual tires, 30.5L32 single tires, 68x50.00-32 single tires at 103 and 166 kPa inflation pressure and a John Deere half-track system on two different soils (Kokomo and Crosby) near Urbana, Ohio. A loaded 42.3 m3 grain cart was included on the Kokomo soil for comparative purposes. The Ohio State Soil Physical Properties Measurement System was used to sample and measure the bulk density, air-filled porosity, air permeability and cone penetration resistance between 10 and 50 cm depths. The results for Kokomo soil show the grain cart had the greatest effect with an average decrease in total porosity of 12.90 percent, compared to 7.95%, 6.05%, 4.56%, 3.06%, and 2.04% for singles, tracks, duals, wide overinflated, and wide rated pressure tires, respectively, on the combine.