Abstract
The effectiveness of sphagnum peat, zeolite (clinoptilonite) and basalt in reducing ammonia losses during aerobic manure decomposition was determined in an incubation experiment. Peat placed in the spent air-stream adsorbed all of the ammonia volatilized during the first 8 days of decomposition, and reduced overall ammonia losses by 59%. Zeolite reduced total ammonia losses by 16%, and basalt by 6%.
All adsorbents were considerably less effective in reducing ammonia losses when mixed with the manure. Reductions in ammonia losses of 24% and 1.5% were obtained with the peat and zeolite, respectively. The addition of basalt increased losses.
Ammonia and ammonium adsorption isotherms were determined for the three materials. The adsorption capacities and affinity terms of the adsorbents calculated from the isotherms, reflected their ability to reduce ammonia losses in the incubation experiment. Zeolite had both the highest affinity for ammonium and the highest ammonium adsorption capacity. The peat had a very high affinity for ammonia and a high adsorption capacity (23.4 mg NH3−N g−1), whereas zeolite and basalt had a much lower adsorption capacity (1.8 and 0.05 mg NH3−N g−1, respectively) compared with their capacity to adsorb ammonium (18.1 and 0.18 mg NH4−N g−1).
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References
Barbarick K A and Pirela H J 1984 Agronomic and horticultural uses of zeolites: A review.In Zeo-Agriculture: Use of Natural Zeolites in Agriculture and Aquaculture. Eds. W G Pond and F A Mumpton. pp 93–104. Westview Press, Boulder, Colorado.
Breck D W 1974 Zeolite Molecular Sieves Structure, Chemistry and Use. John Wiley and Sons, London.
Bremner J M and Mulvaney C S 1982 Nitrogen-Total.In Methods of Soil Analysis. Second Edition. Ed. A L Page. pp 595–624, Agronomy Monograph 9, Madison, Wisconsin.
Chapman H D 1965 Total exchangeable bases.In Methods of Soil Analysis, Part 2. Eds. C A Blacket al. pp 902–904. Agronomy 9, Madison, Wisconsin.
Cihacek L G and Bremner G M 1979 A simplified ethylene glycol mono-ethyl ether procedure for assessment of soil surface area. Soil Sci. Soc. Am. J. 43, 821–822.
Dyer A 1984 Uses of natural zeolites. Chemistry and Industry 7, 241–245.
Ehrenberg G and Heimann H 1930 German patent 545923. November 1930, Issued March 1932.
Harter R D 1984 Curve-fit errors in Langmuire adsorption maxima. Soil Sci. Soc. Am. J. 48, 749–752.
Hunt H W and Adamsen F J 1985 Empirical representation of ammonium adsorption in two soils. Soil Science 139, 205–210.
Kempers A J and Zweers A 1986 Ammonium determination in soil extracts by the salicylate method. Commun. Soil Sci. Plant Anal. 17, 715–723.
Kemppainen E 1987 Ammonia binding capacity of peat, straw, sawdust and cutter shavings. Ann. Agric. Fenn. 26, 89–94.
Kirchmann H 1985 Losses, plant uptake and utilization of manure nitrogen during a production cycle. Acta Agric. Scand. Suppl. 24.
Kirchmann H and Witter E 1989 Ammonia volatilization during aerobic and anaerobic manure decomposition. Plant and Soil 115, 35–41.
Koelikker J K, Hellickson M L, Miner J R and Nakane H S 1978 Improving poultry house environments with zeolite. American Society of Agricultural Engineers. Paper No. 78-4044. St Joseph, Michigan.
Liberti L, Boari G and Petruzelli D 1981 Nutrient removal and recovery from waste water by ion exchange. Water Research 15, 337–342.
Miner J R 1984 Use of natural zeolites in the treatment of animal wastes.In Zeo-Agriculture: Use of Natural Zeolites in Agriculture and Aquaculture. Eds. W G Pond and F A Mumpton. pp 257–262. Westview Press, Boulder, Colorado.
Mortland M M 1955 Adsorption of ammonia by clays and muck. Soil Science 80, 11–18.
Mortland M M and Wolcott A R 1965 Sorption of inorganic nitrogen compounds by soil materials.In Soil Nitrogen. Eds. W V Bartholomew and F E Clark. pp 150–197. Agronomy 10. Madison, Wisconsin, American Society of Agronomy.
Nömmik H and Vahtras K 1982 Retention and fixation of ammonium and ammonia in soils.In Nitrogen in Agricultural Soils. Ed. F J Stevenson. pp 123–252. Agronomy Monograph 22. Madison, Wisconsin.
Peltola I 1986 Use of peat as litter for milking cows.In Odour Prevention and Control of Organic Sludge and Livestock Farming. Eds. V C Nielsen et al. pp 181–187. Elsevier Applied Science Publishers, London.
Scholtens R, Klarenbeek J V and Bruins M A 1987 Control of ammonia emissions with biofilters and bio-scrubbers.In Volatile Emissions from Livestock Farming and Sewage Operations. Proceedings of a FAO/COST681 Workshop, Uppsala, 1987. (In press.).
Statistical Analysis System (SAS) Institute Inc. 1985 SAS User's Guide: Statistics, 1985 edition. Cary, North Carolina, USA.
Umz R F and Davis J A 1975 On removal of minerals as a third sewage effluent treatment process. Water Poll. Control Fed. 47, 185–194.
Virri T J 1941 Investigations about farmyard manure. I. Nitrogen losses in form of ammonia volatilization. Valt. Maatalouskoetoiminnan Julkaisuja 116, 1–113.
Weber M A, Barbarick K A and Westfall D G 1983 Ammonium adsorption by a zeolite in a static and dynamic system. J. Environ. Qual. 12, 549–552.
Witter E and Lopez-Real J 1988 Nitrogen losses during composting of sewage sludge and the effectiveness of clay soil, zeolite and compost in adsorbing the volatilized ammonia. Biol. Wastes 23, 279–294.
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Witter, E., Kirchmann, H. Peat, zeolite and basalt as adsorbents of ammoniacal nitrogen during manure decomposition. Plant Soil 115, 43–52 (1989). https://doi.org/10.1007/BF02220693
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DOI: https://doi.org/10.1007/BF02220693