The release of NO←x during the combustion of coals, E.F.R. chars and model carbons

Brown, Stephen D.

January 1994

No description available.

628.53

Nitrogen and sulphur oxides

Effect of foliar applied elemental sulphur upon the growth, development and yield of sugar beet

Martin, A. D. E.

January 1990

No description available.

631.8

Agricultural use of sulphur

Dimethylsulphoxide in seawater

Hatton, Angela

January 1995

No description available.

551.46

Sulphur cycle

Photolithotrophic thiosulphate oxidation in a purple 'non-sulphur' bacterium

Little, Philip John

January 2000

No description available.

572

Bacteria; Sulphur

Biogenic sulphur in Antarctic ice cores

Pasteur, Elizabeth

January 1996

No description available.

551.5

Sulphur emissions

The distribution and mobilisation of sulphur and nitrogen in leaves of Triticum aestivum approaching senescence

Bates, Nicholas John

January 1998

No description available.

580

Sulphur deficiency

Characterisation of microbial release of available sulphur from soil to plants

Banerjee, Manas Ranjan

January 1992

The discovery of sulphur-deficient agricultural soils has focussed concern on the dynamics of sulphur transformations in soils and on the important role of the soil microbial population in mineralising organic sulphur to forms more available to plants. This thesis reports a study carried out to investigate the dynamics of supply of plant available sulphur from soils and includes development of a method for determination of microbial biomass S, comparison of a perfusion system with a plant bioassay to assess soil S-supply, characterisation of a fertilizer S budget for a crop-soil system and assessment of the role of VA mycorrhizas in plant S uptake. The first experiment was carried out to investigate the factors involved in determination of microbial biomass S in soil in order to develop a more reliable assay. Biomass S-concentrations were determined by chloroform fumigation/direct extraction (with determination of the Ks calibration constant using 35S labelled microorganisms). The effects of period of fumigation, the need for chloroform evacuation, the type of extractant, and the time of extraction were investigated. The optimium values for biomass-S were obtained using a 5 day fumigation period without chloroform evacuation (use of 35S labelled microorganisms demonstrated that there is a vacuum sensitive non-biomass S pool), with CaC12 as an extractant over a 1 h extraction period. The second experiment consisted of a simple, open perfusion system for studying the S-supplying capacity of soils. A range of soils were perfused at frequent intervals and the leachates analysed for inorganic and total sulphur. Results were compared with plant S-offtake from the same soils. Although greater amounts of sulphur were removed in the perfusion system, data from the techniques correlated strongly, suggesting the perfusion system can be effectively used to estimate the S-supplying capacity of soils.

631.4

Soil sulphur cycle

Sulphur removal from coal or from products? Is prevention better than cure - a technical review of the prevention option

Koper, Edward Ludovicus

11 August 2008

Abstract will not load on to DSpace

sulphur removal from coal

Metabolism of sulphate in wheat

Ascano, Annabelle Francisco.

January 1978

No description available.

Wheat

Sulphur metabolism

Sulphate metabolism in normal and cancerous tissue

Meaney, Maxwell Francis.

January 1972

No description available.

Cancer cells

Sulphur metabolism