Threshold and endemic behaviour of spatial contact models

Kuulasmaa, Kari

January 1982

No description available.

631.8

Agricultural chemistry & fertilizers

Biofuel production systems on UK farms

Jones, M. R.

January 1984

No description available.

631.8

Agricultural chemistry & fertilizers

Studies on the role of floodwater algae and green manure on the transformations of 15N-urea applied to floodwater under lowland rice conditions

Thind, Harmit Singh

January 1991

Rice accounts for 21% of the total energy content of the world's food and about 40% of the world's population depend on it. Nitrogen fertilization, mainly as urea, has played a major role in increasing rice production. But the fertilizer use efficiency is low. Therefore, the present investigation was undertaken to understand the effect of floodwater algae and green manure on the transformations of labelled urea applied to floodwater. The pertinent literature was reviewed. The experiments were carried out in the growth chamber using 4 to 5 cm soil columns covered with 4 to 5 cm floodwater. Algae growing in floodwater increased the pH of floodwater during the day and it cane back to its original level during the night. The magnitude of the daily increase in pH was influenced by the alkalinity and the pH of the floodwater. The application of green manure depressed this daily increase in floodwater pH. The production of 02 during photosynthetic activity increased the depth of the aerobic soil layer under the soil-water interface during the early period of algal growth but it was eliminated by subsequent settling of algae on the soil surface. The application of green manure eliminated the aerobic soil layer even in the presence of algae. Algae growing in floodwater increased urea hydrolysis. Large quantities of applied N assimilated by growing algae resulted in lower total gaseous losses of applied N. The application of urea in floodwater where algae was already growing enhanced NH3 volatilization and denitrification. A large portion of N assimilated by algae can mineralize and be available to the same crop and this mineralization is further enhanced by the exclusion of light by the crop canopy. When urea was applied 17 days after incorporation of green manure it increased urea hydrolysis significantly but urea hydrolysis was not effected when urea was applied immediately after incorporation. Application of green manure caused less nitrification and subsequent denitrification which encouraged NH3 volatilization. Further investigation is needed to confirm these findings when growing rice plants are present.

631.4

Agricultural chemistry & fertilizers

The solubility of rice straw silica and its use as a silicon source in paddy cultivation

Wickramasinghe, Dharmakeerthi Bandara

January 1994

No description available.

631.8

Agricultural chemistry & fertilizers

Interaction of deamidated soluble wheat protein (SWP) With other food proteins and metals

Friedli, Georges-Louis

January 1996

No description available.

631.8

Agricultural chemistry & fertilizers

Effect of processing and feed enzyme inclusion in wheat-based diets for broilers

Preston, Carolyn Margaret

January 1997

No description available.

631.8

Agricultural chemistry & fertilizers

Chemistry and methodology of a commercial enzyme retting system for green and sulphur dioxide pretreated flax

Molloy, Roisin Margaret

January 1996

No description available.

631.8

Agricultural chemistry & fertilizers

The effects of protein supplementation and forage to concentrate ratio on the performance and carcass composition of beef heifers offered grass silage-based diets

Robson, Alice Evelyn

January 1989

No description available.

631.8

Agricultural chemistry & fertilizers

An examination of some factors which may influence the production potential of grazed and conserved forages by ruminants

Cushnahan, Aidan

January 1993

No description available.

631.8

Agricultural chemistry & fertilizers

Behavioural characteristics of offals used in dried petfood manufacture

Martin, Raymond Samuel John

January 1994

No description available.

631.8

Agricultural chemistry & fertilizers