Summary
The proportion of the N that was volatilized as ammonia during 8 days, following the application of simulated livestock urine to soil, increased from 25 to 38% as the temperature of incubation was increased from 4° to 20°C in a system with a continuous flow of air at 70% relative humidity. However, volatilization was reduced if the application was followed by simulated rain; the reduction was greater as the amount of rain increased (up to at least 16 mm) and became less with an increasing length of time (up to 2–3 days) after the application of the urine. The effects of the soil water content before application of the urine, and of the relative humidity of the air, were generally small but volatilization was reduced by a combination of air-dry soil with a low relative humidity. Volatilization was slight (7%) when the flow of air was restricted to 0.5 h in every 12 h but, with an air flow for 12 h in every 24 h, the volatilization was much closer to that with a continuous flow for the whole 8-day period. When cool or dry conditions were imposed for 8 days and then more favourable conditions were instituted for a second period of 8 days, there was a substantial increase in volatilization following the change.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Allen SE, Grimshaw HM, Parkinson JA, Quarmby C (1974) Chemical analysis of ecological materials. Blackwell Scientific Publications, Oxford
Ball PR, Ryden JC (1984) Nitrogen relationships in intensively managed temperate grasslands. Plant and Soil 76:23–33
Ball PR, Keeney DR, Theobald PW, Nes P (1979) Nitrogen balance in urine-affected areas of a New Zealand pasture. Agron J 71:309–314
Black AS, Sherlock RR, Smith NP (1987) Effect of timing of simulated rainfall on ammonia volatilization from urea, applied to soil of varying moisture content. J Soil Sci 38:679–687
Bremner JM, Mulvaney RL (1978) Urease activity in soils. In: Burns RG (ed) Soil enzymes. Academic Press, London, pp 149–196
Carran RD, Ball PR, Theobald PW, Collins ME (1982) Soil nitrogen balances in urine-affected areas under two moisture regimes in Southland. NZ J Exp Agric 10:377–381
Fox RH, Hoffman LD (1981) The effect of N fertilizer source on grain yield, N uptake, soil pH and line requirement in no-till corn. Agron J 73:891–895
Freney JR, Simpson JR, Denmead OT (1983) Volatilization of ammonia. In: Freney JR, Simpson JR (eds) Gaseous loss of nitrogen from plant-soil systems. Martinus Nijhoff, The Hague, pp 1–32
Haynes RJ, Sherlock RR (1986) Gaseous losses of nitrogen. In: Haynes RJ (ed) Mineral nitrogen in the plant-soil system. Academic Press, London, pp 242–302
Kalembasa SJ, Jenkinson DS (1973) A comparative study of titrimetric and gravimetric methods for the determination of organic carbon in soil. J Sci Food Agric 24:1085–1090
Kissel DE, Brewer HL, Arkin GF (1977) Design and test of a field sampler for ammonia volatilization. Soil Sci Soc Am J 41:1133–1138
Lockyer DR, Whitehead DC (1990) The volatilization of ammonia from cattle urine applied to grassland. Soil Biol Biochem 22:1137–1142
Low AJ, Piper FJ (1961) Urea as a fertilizer: Laboratory and pot-culture studies. J Agric Sci (Cambridge) 57: 249–255
McGarry SJ, O'Toole AJ, Morgan MA (1987) Effects of soil temperature and moisture content on ammonia volatilization from urea-treated pasture and tillage soils. Ir J Agric Res 26:173–182
Reynolds CM, Wolf DC (1987) Effect of soil moisture and air relative humidity on ammonia volatilization from surface-applied urea. Soil Sci 143:144–152
Stevens RJ, Laughlin RJ, Kilpatrick DJ (1989) Soil properties related to the dynamics of ammonia volatilization from urea applied to the surface of acidic soils. Fert Res 20:1–9
Vertregt N, Rutgers B (1987) Ammonia volatilization from urine patches in grassland. In: Nielsen VC, Voorburg JH, L'Hermite P (eds) Volatile emissions from livestock farming and sewage operations. Elsevier, London, pp 85–91
Vlek PLG, Carter MF (1983) The effect of soil environment and fertilizer modifications on the rate of urea hydrolysis. Soil Sci 136:56–63
Watkins SH, Strand RF, De Bell DS, Esch J (1972) Factors influencing ammonia losses from urea applied to Northwestern forest soils. Soil Sci Soc Am Proc 36:354–357
Weatherburn MW (1967) Phenol-hypochlorite reaction for determination of ammonia. Anal Chem 39:971–974
Whitehead DC, Lockyer DR, Raistrick N (1989) Volatilization of ammonia from urea applied to soil: Influence of hippuric acid and other constituents of livestock urine. Soil Biol Biochem 21:803–808
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Whitehead, D.C., Raistrick, N. Effects of some environmental factors on ammonia volatilization from simulated livestock urine applied to soil. Biol Fertil Soils 11, 279–284 (1991). https://doi.org/10.1007/BF00335848
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00335848