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Your search keyword '"Bryant, M. M."' showing total 11 results
Start Over Author "Bryant, M. M." Publisher elsevier b.v.
11 results on '"Bryant, M. M."'

1. Effect of Nutrient Density on Performance, Egg Components, Egg Solids, Egg Quality, and Profits in Eight Commercial Leghorn Strains During Phase One.

Author

Wu, G., Bryant, M. M., Gunawardana, P., and Roland Sr., D. A.

Subjects
*LEGHORN chicken, *ANIMAL nutrition, *EGGS, *POULTRY, *ANIMAL culture
Abstract

This study was a 3 x 8 factorial arrangement of 3 nutrient densities (low, medium, and high) and 8 commercial Leghorn strains. The objective of this experiment was to determine the effect of increasing both dietary energy and other nutrients (amino acids, Ca, and available P) on performance, egg composition, egg solids, egg quality, and profits in 8 commercial Leghorn strains during phase 1 (from 21 to 36 wk of age). This experiment lasted 16 wk. Eight strains of hens (n = 270 of each strain) at 21 wk of age were randomly divided into 24 treatments (6 replicates of 15 birds/treatment). There were no interactions between strain and diet except for BW. Strain had a significant effect on all measured parameters except mortality, whole egg solids, and yolk color. As nutrient density increased, hens linearly adjusted feed intake to achieve similar energy intakes so that the similar quantities of dietary energy (5.8 to 5.9 kcal) were used to produce 1 g of egg. As nutrient density increased, egg mass linearly increased, and feed conversion linearly improved. Egg- specific gravity and Haugh unit linearly decreased with increasing nutrient density. There was a quadratic response of the percentage of albumen solids to the increased nutrient density. Increasing both dietary energy and other nutrient (amino acids, Ca, and available P) contents significantly increased yolk and albumen weight at the same time, resulting in a significant increase of egg weight during early egg production. Egg weight may be maximized to genetic potential by increasing both dietary energy and other nutrient (amino acids, Ca, and available P) contents during early egg production. Because egg prices and ingredient prices often change, there can be no fixed optimal nutrient density for optimal profits. [ABSTRACT FROM AUTHOR]

Published
2007
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2. Effect of Dietary Energy on Performance and Egg Composition of Bovans White and Dekalb White Hens During Phase I.

Author

Wu, G., Bryant, M. M., Voitle, R. A., and Roland Sr., D. A.

Subjects
*HENS, *ANIMAL nutrition, *LEGHORN chicken, *DIET, *EGGS, *EGG yolk
Abstract

A 4 × 2 factorial experiment with 4 dietary energy levels (2,719, 2,798, 2,877, and 2,959 kcal of ME/ kg) and 2 strains (Bovans White and Dekalb White) was conducted to determine the effect of dietary energy on reproductive performance, egg composition, and profits of 2 strains of commercial Leghorns. This experiment lasted 16 wk. Bovans White hens (n = 768) and Dekalb White hens (n = 768) in phase I (21 wk of age) were randomly assigned into 8 treatments (16 replicates of 12 birds/treatment). Bovans White had significantly higher feed intake, egg production, egg mass, body weight, percentage egg yolk, and yolk/albumen ratio than Dekalb White. Bovans White had significantly lower feed conversion, egg weight, egg specific gravity, percentage of albumen weight, percentage of shell weight, and Haugh unit than Dekalb White. When dietary energy increased from 2,719 to 2,956 kcal of ME/kg, hens adjusted feed intake from 107.6 to 101.1 g/hen per day to achieve a constant energy intake so that the same amount of dietary energy (5.8 kcal) was used to produce I g of egg. Increasing dietary energy by the addition of poultry oil increased early egg weight, which was mostly due to increased yolk weight. Increasing dietary energy by addition of poultry oil significantly decreased feed conversion and egg specific gravity but had no effect on egg production, egg mass, body weight, or mortality. Increasing dietary energy by addition of poultry oil to a ratio of 282 kcal of ME/g lysine maximized egg weight during phase I. The energy per lysine ratio required for optimal profits varied with egg price and feed ingredient prices, which were variable. [ABSTRACT FROM AUTHOR]

Published
2005
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3. Effects of β-Mannanase in Corn-Soy Diets on Commercial Leghorns in Second-Cycle Hens.

Author

Wu, G., Bryant, M. M., Voitle, R. A., and Roland, Sr., D. A.

Subjects
*ENZYMES in animal nutrition, *FEED additives, *SOYBEAN as feed, *VETERINARY diet therapy, *DIETARY supplements, *LEGHORN chicken, *POULTRY
Abstract

β-Mannanase (Hemicell) is a unique enzyme-based feed ingredient that can hydrolyze β-mannan, an antinutritional fiber in feed. Because soybean meal contains β-mannan and its derivatives, addition of β-mannanase may improve soybean-meal utilization. The purpose of this study was to evaluate the effect of β-mannanase on performance of commercial Leghorns fed corn-soybean meal based diets. In this experiment, 3 diets were formulated. The metabolizable energy content for diet 1 (high-energy diet) was 2,951 kcal/kg, which was 120 kcal/kg higher than diet 2 (low-energy diet supplemented with β-mannanase) and diet 3 (low-energy diet without β-mannanase). Hy-Line W-36 hens (n = 720, 98 wk old) were randomly divided into 3 dietary treatments (16 replicates of 15 hens per treatment). The trial lasted for 12 wk. Overall average feed conversion of hens fed the low-energy diet supplemented with β-mannanase was similar to that of hens fed the high-energy diet, and both were significantly lower than that of hens fed the low- energy diet without β-mannanase. There were no significant differences in overall average egg production and egg mass among 3 dietary treatments for the 12-wk period. However, the addition of β-mannanase significantly increased average egg production and egg mass of hens fed the low-energy diet from wk 5 to 8. There were no significant differences in feed intake, egg specific gravity, egg weight, mortality, body weight, and body weight variability among the 3 dietary treatments, β-Mannanase supplementation improved energy utilization of corn-soybean layer diets and has potential to reduce the cost of practical laying hen diets containing β-mannan. [ABSTRACT FROM AUTHOR]

Published
2005
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4. Effect of increasing dietary energy while maintaining a constant energy/lysine ratio on performance, egg components, egg solids, egg quality and profits in seven commercial leghorn strains during second cycle.

Author

Gunawardana, P. K., Bryant, M. M., Roland, Sr., D. A., and Wu, G.

Subjects
*POULTRY feeding
Abstract

The article presents an abstract of the study "Effect of Increasing Dietary Energy While Maintaining a Constant Energy/Lysine Ratio on Performance, Egg Components, Egg Solids, Egg Quality and Profits in Seven Commercial Leghorn Strains During Second Cycle," by P. K. Gunawardana and colleagues.

Published
2008

6. Production control I: The key to profits.

Author

Roland, D. A., Bryant, M. M., Farmer, M., and Roland, A.

Subjects
*PRODUCTION control, *POULTRY
Abstract

An abstract of the article "Production Control I: The Key to Profits," by D. A. Roland and colleagues is presented.

Published
2008

7. Effect of peptides on performance, egg components, egg solids and egg shell quality of Hy-line W-36 Hens fed different protein levels in second cycle.

Author

Gunawardana, P. K., Bryant, M. M., Roland, Sr., D. A., and Wu, G.

Subjects
*EGGSHELLS
Abstract

The article presents an abstract of the study "Effect of Peptides on Performance, Egg Components, Egg Solids and Egg Shell Quality of Hy-line W-36 Hens Fed Different Protein Levels in Second Cycle," by P. K. Gunawardana and colleagues.

Published
2008

9. Production control II: The key to profits, a software demonstration.

Author

Roland, D. A., Bryant, M. M., Farmer, M., and Roland, A.

Subjects
*PRODUCTION control, *POULTRY
Abstract

An abstract of the article "Production Control II: The Key to Profits, a Software Demonstration," by D. A. Roland and colleagues is presented.

Published
2008

10. Effect of Molting Method and Dietary Energy on Postmolt Performance, Egg Components, Egg Solid, and Egg Quality in Bovans White and Dekalb White Hens During Second Cycle Phases Two and Three.

Author

Wu, C., Gunawardana, P., Bryant, M. M., Voitle, R. A., and Roland Sr., D. A.

Subjects
*POULTRY feeding, *HENS, *CHICKEN embryos, *EGGSHELLS, *ANIMAL feeding behavior
Abstract

Two experiments of 4 × 2 × 2 factorial arrangements of 4 dietary energy levels, 2 molting methods (feed withdrawal and no salt diet), and 2 strains (Bovans White and Dekalb White) were conducted to determine the effect of dietary energy and molting method on long-term postmolt performance of 2 strains of commercial Leghorns. In experiments 1 and 2, Bovans White hens (n = 576) and Dekalb White hens (n = 576) were randomly divided into 16 treatments (6 replicates of 12 birds per treatment). Experiment 1 lasted from 86 to 96 wk of age, and experiment 2 lasted from 100 to 110 wk of age. Bovans White hens had significantly higher egg production than Dekalb White hens, whereas Bovans White hens had significantly lower egg weight, percentage of eggshell, and egg specific gravity than Dekalb White hens. Based on improved feed conversion, dietary energy of 2,846 kcal of ME/kg appeared to be enough for optimal performance during second cycle phase 2. Based on BW of hens, dietary energy level for optimal performance should be less than 2,936 kcal of ME/kg during second cycle phase 3. There can be no fixed ideal dietary energy level for optimal profits for postmolt egg production. Molting method had no effect on egg production and egg mass during the early and middle stages of the postmolt production period. However, hens molted by feed withdrawal had significantly higher egg production and egg mass during the later stage of the postmolt production period compared with hens molted by a no salt diet. There was no significant difference in egg specific gravity due to molting method. Feeding a no salt diet resulted in reasonable long-term postmolt performance and eggshell quality, rather than optimal performance and eggshell quality. [ABSTRACT FROM AUTHOR]

Published
2007
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11. Comparison of Natuphos and Phyzyme as Phytase Sources for Commercial Layers Fed Corn-Soy Diet.

Author

Wu, C., Liu, Z., Bryant, M. M., and Roland Sr, D. A.

Subjects
*PHYTASES, *LEGHORN chicken, *ANIMAL nutrition, *HENS, *ANIMAL feeding behavior
Abstract

The objective of this experiment was to compare the effects of 2 sources of phytase on performance of commercial Leghorns fed corn-soy diets. Seven diets were fed to fly-line W-36 hens (n = 840; 8 replicates of 15 hens per treatment) from 21 to 33 wk of age. The treatments consisted of a control diet containing 0.38% nonphytate P (NPP) and a 2 × 3 factorial arrangement of 2 dietary NPP concentrations (0.11 and 0.26%) with 2 phytase sources [Natuphos (BASF, Mt. Olive, NJ) and Phyzyme (Danisco Animal Nutrition, Carol Stream, IL)] and without phytase. Dietary NPP had significant effects on feed intake, NPP intake, total P intake, egg production, egg weight, egg mass, egg specific gravity, and excreta P. The addition of Phyzyme or Natuphos significantly increased egg production and egg mass of hens fed the P-deficient diet (0.11% NPP) to levels that were similar to hens fed the control diet containing 0.38% NPP. Feed intake of hens fed the diets supplemented with Phyzyme or Natuphos was significantly less than that of hens fed the control diet containing 0.38% NPP. Phyzyme or Natuphos supplementation in the diets containing 0.11% NPP had significantly reduced excreta P of the control diet (approximately 58 and 54%, respectively) with no adverse effect on egg production and egg mass. There were no significant differences in feed intake, NPP intake, total P intake, egg production, egg weight, egg mass, feed conversion, egg specific gravity, mortality, BW, and excreta P between the diets supplemented with Natuphos and the diets supplemented with Phyzyme. In conclusion, Phyzyme had the same positive effects on performance of commercial Leghorns fed corn-soy diets as Natuphos. [ABSTRACT FROM AUTHOR]

Published
2006
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