Tuesday, 24 August 2004: 3:45 PM
Sharon B. Phillips, North Carolina State University, Research Triangle Park, NC; and S. P. S. Arya and V. P. Aneja
Presentation PDF
(209.0 kB)
An experimental study was conducted on the emission and dry deposition fluxes of ammonia (NH3) under different meteorological conditions, using a micrometeorological technique (micrometeorological gradient and modified Bowen-ratio methods in conjunction with the Monin-Obukhov similarity theory) over natural surfaces in North Carolina where intensively managed agriculture/animal farms are located. Ammonia concentrations were measured simultaneously with mean wind speeds, wind directions and temperatures during Fall 2001, Winter, Spring and Summer 2002 at two heights (2 and 6m) employing a technologically advanced mobile laboratory. Diurnal and seasonal variations of ammonia flux and dry deposition velocity were investigated under a wide range of wind and atmospheric stability conditions yielding hourly variation of NH3 flux and deposition velocity. Greater NH3 concentrations were measured during the fall measurement campaign, which were directly related to spray-effluent irrigation practices; whereas the winter season had the lowest overall concentrations, collected during each seasonal campaign (effect of colder temperatures). The largest average NH3 deposition velocities were estimated during the summer measurement campaign, whereas the winter season estimated the lowest daytime velocities.
This evaluation of nitrogen species was extended to addressing the total nitrogen budget for North Carolina during summer season. The portion of atmospherically deposited nitrogen, which reaches either land or water bodies is highly variable depending upon meteorological and seasonal conditions. Modeled dry deposition rates of NO (nitric oxide), NO2 , HNO3 and NH3, using a third generation Eulerian model (the United States Environmental Protection Agencys Models-3/Community Multiscale Air Quality (CMAQ) modeling system) in conjunction with measured wet deposition rates of nitrate (NO3-) and ammonium (NH4+), were evaluated in order to characterize the factors controlling the total nitrogen budget. In North Carolina, approximately 50% of NHX or NO3- flux occurs in the form of dry and wet deposition during the summer season. In addition, the Neuse River watersheds largest contributor to dry deposition flux of nitrogen (nitrogen loading) was determined to be NH3, making up approximately 47% of the total atmospheric deposition.
- Indicates paper has been withdrawn from meeting
- Indicates an Award Winner