Ghiorse, W. C., and Alexander, M., 1976, Effect of microorganisms on the sorption and fate of sulfur dioxide and nitrogen dioxide in soil. Download preview PDF. 0000073455 00000 n Grice, H. W., Yates, M. L., and David, D. J., 1970, Response characteristics of the Melpar flame photometric detector. Very little is known, however, about the forms and amounts of volatile sulfur released to the atmosphere through microbial activity in the pedosphere or hydrosphere. Bohn, H. L., and Miyamoto, S., 1974, Sou as a sorbent and filter of waste gases, in: Bremner, J. M., 1977, Role of organic matter in volatilization of sulfur and nitrogen from soils, in: Bremner, J. M., and Banwart, W. L., 1974, Identifying volatile S compounds by gas chromatography. Freney, J. R., 1967, Sulfur-containing organics, in: sFreney, J. R., and Swaby, R. J., 1975, Sulphur transformations in soils, in: Fried, M., 1948, The absorption of sulfur dioxide by plants as shown by the use of radioactive sulfur. Brody, S. S., and Chaney, J. E., 1966, The application of a specific detector for phosphorus and for sulfur compounds—sensitive to subnanogram quantities. Ruiz-Herrera, J., and Starkey, R. L., 1969, Dissimilation of methionine by fungi, Ruiz-Herrera, J., and Starkey, R. L., 1970, Dissimilation of methionine by, Sachdev, M. S., and Chhabra, P., 1974, Transformation of S. Sandalls, F. J., and Penkett, S. A., 1977, Measurements of carbonyl sulphide and carbon disulphide in the atmosphere. 0000076796 00000 n Last, F. T., and Warren, R. C., 1972, Non-parasitic microbes colonizing green leaves: their form and functions. Kunert, J., 1973, Keratin decomposition by dermatophytes. The sulfur cycle is the collection of processes by which sulfur moves between rocks, waterways and living systems. The turnover rates during … Deevey, E. S., Jr., 1973, Sulfur, nitrogen, and carbon in the biosphere, in: Deuser, W. G., 1970, Carbon-13 in Black Sea waters and implications for the origin of hydrogen sulfide, Dittrich, H. H., and Staudenmayer, T., 1970. Microorganisms play key roles in the oxidation-reduction and assimilation-dissimilation steps of the sulfur cycle in nature. The bacteria of the sulphur cycle Philos Trans R Soc Lond B Biol Sci. Ishida, Y., 1968, Physiological studies on evolution of dimethyl sulfide from unicellular marine algae, Iverson, W. P., 1967, Disulfur monoxide: production by. Postgate, J. R., 1959, Sulphate reduction by bacteria. Seim, E. C., 1970, Sulfur dioxide absorption by soil, Ph.D. Thesis, University of Minnesota, St. Paul. Chaudhry, I. Part II. Bremner, J. M., and Banwart, W. L., 1976, Sorption of sulfur gases by soils. Nicolson, A. J., 1970, Soil sulfur balance studies in the presence and absence of growing plants. Their occurrence, sources and effects, in: Vámos, R., 1959, “Brusone” disease of rice in Hungary. Morita, R. Y., 1974, Temperature effects on marine microorganisms, in: Moss, M. R., 1976, Biogeochemical cycles as integrative and spatial models for the study of environmental pollution (the example of the sulphur cycle). Burnett, W. E., 1969, Air pollution from animal wastes. 6. Hitchcock, D. R., 1976a, Atmospheric sulfates from biological sources. Harter, R. D., and McLean, E. O., 1965, The effect of moisture level and incubation time on the chemical equilibria of a Toledo clay loam soil, Herbert, R. A., and Shewan, J. M., 1976, Roles played by bacterial and autolytic enzymes in the production of volatile sulphides in spoiling North Sea cod. Metabolism of amino acids. 1. sulphur cycle but as active biogeochemical agents of the carbon cycle. Levy, H., 1974, Photochemistry of the troposphere, in: Lewis, J. Rasmussen, R. A., 1974, Emission of biogenic hydrogen sulfide. 1. Starkey, R. L., 1956, Transformations of sulfur by microorganisms. Hitchcock, D. R., Spiller, L. L., and Wilson, W. E., 1977, Biogenic sulfides in the atmosphere in a North Carolina tidal marsh, Paper presented before the Division of Environmental Chemistry, American Chemical Society, New Orleans, Louisiana, March 20–25, 1977. Manning, D. J., Chapman, H. R., and Hosking, Z. D., 1976, The production of sulphur compounds in cheddar cheese and their significance in flavour development. It is abundant in the soil in proteins and, through a series of microbial transformations, ends up as sulfates usable by plants. On the assimilatory side inorganic sulfur in reduced or oxidized form is taken up into microbes, plants and animals (via plants) and transformed there into amino acids, proteins, and coenzymes that function there until they are excreted or the organisms die and are decomposed. 0000044779 00000 n Bacteria of the sulphur cycle, in particular sulphate reducing and sulphide oxidizing bacteria, are of immense importance from the industrial and environmental point of views. Simán, G., and Jansson, S. L., 1976b, Sulphur exchange between soil and atmosphere, with special attention to sulphur release directly to the atmosphere. Babich, H., and Stotzky, G., 1974, Air pollution and microbial ecology. Alway, F. J., Marsh, A. W., and Methley, W. J., 1937, Sufficiency of atmospheric sulfur for maximum crop yields. Grundon, N. J., 1975, Release of volatile sulphur compounds by plants: development of techniques for studying release by intact plants and oven-drying plant material, Ph.D. Thesis, University of Queensland, Brisbane, Australia.
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