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Technical Paper

Modeling Studies of Ammonia Dispersion and Dry Deposition at Some Hog Farms in North Carolina

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Pages 1198-1207 | Published online: 24 Jan 2012

References

  • Aneja, V.P.; Murray, G.C.; Southerland, J. Atmospheric Nitrogen Compounds: Emissions, Transformation, Deposition and Assessment; EM, 1998, April, 22–25.
  • Walker, J.T.; Aneja, V.P.; Dickey, D.A. Atmospheric Transport and Wet Deposition of Ammonium in North Carolina; Atmos. Environ. 2000, 34, 3407–3418.
  • Galloway, J.; Cowling, E.; Erisman, J.W.; Wisniewski, J.; Jordan, C. Optimizing Nitrogen Management in Food and Energy Production and Environmental Protection. In Proceedings of the Second International Nitrogen Conference, A.A. Balkema: Potomac, MD, 2001.
  • Fowler, D.; Cape, J.N.; Unsworth, M.H. Deposition of Atmospheric Pollutants on Forests; Phil. Trans. Roy. Soc. B 1989, 324, 247–265.
  • Grennfelt, P.; Thornelof, E., Eds.; Critical Loads for Nitrogen: a Workshop Report; Nord 19912:41; Nordic Council of Ministers: Copenhagen, 1992.
  • Paerl, H.W. Coastal Eutrophication in Relation to Atmospheric Nitrogen Deposition: Current Perspectives; Ophelia 1995, 41, 237–259.
  • Asman, W.A.H. Factors Influencing Local Dry Deposition of Gases with Special Reference to Ammonia; Atmos. Environ. 1998, 32, 415–421.
  • Krupa, S.V.; Moncrief, J.F. An Integrative Analysis of the Role of Atmospheric Deposition and Land Management Practices on Nitrogen in U.S. Agricultural Sector; Environ. Pollut. 2002, 118, 273–283.
  • Asman, W.A.H. Modeling the Atmospheric Transport and Deposition of Ammonia and Ammonium: an Overview with Special Reference to Denmark; Atmos. Environ. 2001, 35, 1969–1983.
  • Hanson, P.J.; Lindberg, S.E. Dry Deposition of Reactive Nitrogen Compounds: a Review of Leaf, Canopy and Non-Foliar Measurements; Atmos. Environ. 1991, 25A, 1615–1634.
  • Philips, S.B.; Arya, S.P.; Aneja, V.P. Ammonia Flux and Dry Deposition Velocity from Near-Surface Concentration Gradient Measurements over a Grass Surface in North Carolina; Atmos. Environ. 2004, 38, 3469–3480.
  • Warneck, P. Chemistry of the Natural Atmosphere; International Geophysical Series 71. Academic Press: San Diego, CA, 1999.
  • Jansen, A.J.; Asman, W.A.H. Effective Removal Parameters in Long Range Air Pollution Transport Models; Atmos. Environ. 1988, 22, 359–367.
  • Asman, W.A.H.; Van Jaarsveld, H.A. In Ammoniak in der Umwelt; Hartung, J., Paduch, M., Schirz, S., Dobler, H., van der Weghe, H., Eds.; Vol. 2.; Landwirtschaftsverlag GmbH, Munster, Germany 1990, 1–35.
  • Loubet, B.; Pierre, C.; Genermont, S.; Laville, P.; Flura, D. Measurement of Short-Range Dispersion and Deposition of Ammonia over a Maize Canopy; Agri. Forest Meteorol. 2003, 114, 175–196.
  • Fowler, D.; Pitcairn, C.E.R.; Sutton, M.A.; Flechard, C.; Loubet, B.; Coyle, M.; Munro, R.C. The Mass Budget of Atmospheric Ammonia within 1 km of Livestock Buildings and Deposition Pattern within Adjacent Woodland; Environ. Pollut. 1998, 102, 343–348.
  • Sutton, M.A.; Nemitz, E.; Milford, C.; Fowler, D.; Moreno, J.; San Jose, R.; Wyers, G.P.; Otjes, R.P.; Harrison, R.; Husted, S.; Schjoerring, J.K. Micrometeorological Measurements of Net Ammonia Fluxes over Oil-seed Rape during Two Vegetation Periods; Ag. Forest. Meteorol. 2000, 105, 351–369.
  • Wyers, G.P.; Erisman, J.W. Ammonia Exchange over Coniferous Forest; Atmos. Environ. 1998, 32, 441–451.
  • Duygers, J.H.; Verhagen, H.L.M.; Weststrate, J.H. The Dry Deposition of Ammonia onto a Douglas Fir Forest in the Netherlands; Atmos. Environ. 1994, 28, 1241–1253.
  • Walker, J.T.; Robarge, W. Dry Deposition of Ammonia in the Vicinity of a Swine Production Facility. In Proceedings of Workshop on Agricultural Air Quality: State of the Science; Potomac, MD, 2006.
  • Dennis, R.L.; Mathur, R.; Donna, S.; Walker, J.T.; Robarge, W. The Fate and Transport of Ammonia at the Local and Regional Level. In Proceedings of Workshop on Agricultural Air Quality: State of the Science, Potomac, MD, 2006.
  • Loubet, B.; Celia, M.; Mark, A.S.; Cellier, P. Investigation of the Interaction between Sources and Sink of Atmospheric Ammonia in an Upland Landscape Using Simplified Dispersion-Exchange Model; J. Geophys. Res. 2001, 106, 24183–24196.
  • Willis, G.E.; Deardoff, J.W. A Laboratory Study of Dispersion in the Middle of the Convectively Mixed Layer; Atmos. Environ. 1981, 15, 109–117.
  • Cimorelli, A.J.; Perry, S.G.; Venktaram, A.; Weil, J.C.; Paine, R.J.; Wilson, R.B.; Lee, R.F.; Peters, W.D.; Brode, R.W. AERMOD. A Dispersion Model for Industrial Source Applications Part 1: General Model Formulation and Boundary Layer Characterization. J. Appl. Meteorol. 2005, 44, 682–693.
  • Seinfeld, J.H. Atmospheric Chemistry and Physics of Air Pollution; Wiley-Interscience: New York, 1986.
  • Walcek, C.J. A Theoretical Estimate of O3 and H2O Dry Deposition over Northeast United States; Atmos. Environ. 1987, 21, 2649–2659.
  • Wesely, M.L.; Doskey, P.V.; Shannon, J.D. Deposition Parameterizations for the Industrial Source Complex (ISC3) Model; Draft ANL report ANL/ER/TR-01/003; Argonne National Laboratory: Argonne, IL, 2002.
  • Thermo Environmental Instruments Inc. Instruction’s Manual Model 17 C: Chemiluminescence NH3 Analyzer; 2000; available athttp://www.thermoei.com/ (accessed 2008).
  • User’s Guide for the AERMOD Meteorological Preprocessor (AERMET); U.S. Environmental Protection Agency: Research Triangle Park, NC, 1998.
  • Furquhar, G.D.; Firth, P.M.; Wetselaar, R.; Weir, B. On the Gaseous Exchange of Ammonia between Leaves and the Environment: Determination of the Ammonia Compensation Point; Plant Physiol. 1980, 66, 710–714.
  • Sutton, M.A.; Burkhardt, D.G.; Nimitz, E.; Fowler, D. Development of Resistance Models to Describe Measurements of Bi-Directional Ammonia Surface-Atmosphere Exchange; Atmos. Environ. 1998, 32, 473–480.
  • Perry, S.G.; Cimorelli, A.J.; Paine, R.J.; Brode, R.W.; Weil, J.C.; Venktaram, A.; Wilson, R.B.; Lee, R.F.; Peters, W.D. AERMOD: a Dispersion Model for Industrial Source Applications. Part 2: Model Performance against 17 Field Study Databases; J. Appl. Meteorol. 2005, 44, 694–708.
  • Van Ulden, A.P. Simple Estimates for Vertical Diffusion from Sources near the Ground; Atmos. Environ. 1978, 12, 2125–2129.
  • Lamb, R.G. Diffusion in Convective Boundary Layer. Atmospheric Turbulence and Air Pollution Modeling; Nieuwstadt, F.T.M., van Dop, H., Eds.; Reidel: Dordrecht, the Netherlands, 1982; 159–229.
  • Weil, J.C. In Lectures on Air Pollution Modeling; Venkatram, A., Wyngaard, J.C., Eds.; American Meteorological Society: Boston, MA, 1988; 167–227.
  • Arya, S.P. Air Pollution Meteorology and Dispersion; Oxford University: New York, 1999.
  • Nieuwstadt, F.T.M. Application of the Mixed-Layer Similarity to the Observed Dispersion from a Ground-Level Source; J. Appl. Meteorol. 1980, 19, 157–162.
  • Briggs, G.A. Prairie Grass Revisited: Optimum Indicators of Vertical Spread. In Proceedings of 9th NATO-CCMS International Technical Symposium on Air Pollution Modeling and Its Application; Toronto, Ontario, Canada, 1978.
  • Venkatram, A. Vertical Dispersion of Ground Level Releases in the Surface Boundary Layer; Atmos. Environ. 1992, 26, 947–949.
  • Willis, G.E.; Deardoff, J.W. A Laboratory Model of Diffusion into the Convective Planetary Boundary Layer; Quart. J. Roy. Meteorol. Soc. 1976, 102, 427–445.

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