Effects of Soil Moisture Variations on Deposition Velocities Above Vegetation

The parameterized subgrid-scale surface flux (PASS) modelprovides a simplified means of using remote sensing data from satellites and limited surface meteorological information to estimate the influence of soil moisture on bulk canopy stomatalresistances to the uptake of gases over extended areas.PASS-generated estimates of bulk canopy stomatal resistance were usedin a dry deposition module to compute gas deposition velocitieswith a horizontal resolution of 200 m for approximately 5000 km² of agricultural crops and rangeland. Results were compared with measurements of O₃ flux and concentrations made during April and May 1997 at two surface stations and from an aircraft. The trend in simulated O₃ deposition velocityduring soil moisture drydown over a period of a few days matchedthe trend observed at the two surface stations. For areas underthe aircraft flight paths, the variability in simulated O₃ deposition velocity was substantially smaller than the observedvariability, while the averages over tens of kilometers were usually in agreement within 0.1 cm s^-1. Model results indicated that soil moisture can have a major role in depositionof O₃ and other substances strongly affected by canopy stomatal resistance.