J. D. Summers scite author profile

Male broiler chickens were fed corn-soybean diets providing 2,700, 2,900, 3,100 or 3,300 kcal ME/kg. In all experiments, each treatment was tested with three replicate groups of 30 birds grown to 49 d of age. In Experiment 1, birds consumed the various diets ad libitum whereas in Experiment 2, all birds received identical and restricted quantities of feed so as to ensure variable intakes of energy. In a third experiment, after 7 d of age, broilers had access to feed in two feeders that contained only the highest level of energy, or the 3,300 kcal ME/kg diet in combination with one of the other diets previously described. Providing diets of 2,700 to 3,300 kcal ME/kg for ad libitum consumption had no effect on growth rate (P > 0.05) and energy intake was constant; however, reducing the energy level of the diet did result in reduced carcass fatness (P < 0.01). When feed intake was controlled in Experiment 2, there was reduced growth (P < 0.01) rate as energy level of the diet was reduced. This reduced growth was associated with dramatic reduction in carcass fatness (P < 0.01), although breast meat yield was not affected. When broilers were offered a choice of diets, they showed remarkably precise control of intake, such that energy intake was again constant across all treatments. However, even though energy intake was constant, broilers consuming the choice diets involving the lower energy content diets tended to have less carcass fat. It is concluded that the broiler still possesses a good ability to control its feed intake based on desire to normalize energy intake. As energy intake is decreased, or there is increased protein intake, the bird deposits less carcass fat.

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Commercial Poultry Nutrition Third Edition

Leeson¹,

Summers²

2009

134

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Accelerated imidization reactions using microwave radiation

Lewis

Summers

Ward

et al. 1992

J. Polym. Sci. A Polym. Chem.

174

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SYNOPSISMicrowave radiation has been clearly shown to result in enhancement of the rate of reaction for an imidization reaction. Analysis of the kinetic parameters showed that the apparent activation energy for the reaction was reduced from 105 to 55 kJ/mol, under the conditions of this experiment. The mechanism which has been proposed to explain this enhancement is based on the concept of a nonuniform temperature on a molecular scale, rather than a true reduction in the activation energy. 0 1992 John Wiley & Sons, Inc.

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Structure-property behaviour of soluble polyimide-polydimethylsiloxane segmented copolymers

Arnold

Summers

Chen

et al. 1989

Polymer

146

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J. D. Summers

Preface

Broiler Response to Diet Energy

Commercial Poultry Nutrition Third Edition

Accelerated imidization reactions using microwave radiation

Structure-property behaviour of soluble polyimide-polydimethylsiloxane segmented copolymers

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