As productive performance is improved by breed selection, amino acid requirements may change to support this higher performance in poultry. The first objective of this dissertation was to update the valine and tryptophan requirement of small-framed laying hens and the lysine requirement of young broilers using empirical dose-response methods. The tryptophan requirement was estimated as 155.8 mg/d for egg mass, 153.2 mg/d for egg production and 140.4 mg/d for feed conversion ratio using a linear broken line model. For valine, the requirement was highest for egg mass, 597.3 mg/d, followed by egg production, 591.9 mg/d and feed conversion ratio (FCR), 500.5 mg/d. The lysine requirement of young chicks was estimated by conducting four short term experiments from 1 to 3, 3 to 5, 5 to 8 and 8 to 11 days of age, respectively. The lysine requirement from 1 to 3, 3 to 5 and 5 to 8 days of age were not able to be estimated as no dose response was observed on growth performance most likely due to an overestimation of the lysine requirement. Digestible lysine requirement from 8 to 11 days of age was 1.057%, 1.050% and 1.016% based on body weight gain, FCR and pectoralis major weight using a linear broken line model, respectively. In addition to determining amino acid requirements, research was conducted to develop a new bacterial protein meal for use in laying hens diets. The data suggested that diets containing 7.5% of the bacterial protein meal was able to at least maintain egg production in laying hens, but 15% bacterial protein meal resulted in reduced performance.
The second objective of this dissertation was to investigate the effects of various concentrations of dietary vitamin D3 on pullet and laying hen performance, eggshell quality and bone health in laying hens. Pullets/hens were randomly assigned to five dietary treatments containing vitamin D3 from 1,681 to 68,348 IU/kg diet from day of hatch until 68 weeks of age. These data suggested that dietary vitamin D3 fed at 68,348 IU/kg resulted in reduced egg production, but vitamin D from 8,348 to 35,014 IU/kg diet maintained egg production, increased egg vitamin D content in a dose dependent manner, and generally increased both eggshell quality and pullet and hen bone mineral status. / Ph. D. / The goal of the poultry industry is to increase the efficiency of meat and egg production. To achieve this goal, laying hens with higher egg production and broilers with faster growth rates are genetically selected over time. By breed selection, laying hens are able to produce 2-3 additional eggs every year. The body weight of a broiler chicken raised today is approximately four times greater than one raised to the same age in 1958. This Increased egg production and body growth requires a higher nutrient intake, especially amino acids, to support protein production. One objective of this dissertation was to update the requirement of three amino acids (valine, tryptophan and lysine) in poultry production to provide current and accurate information to poultry producers. Valine, tryptophan and lysine are essential amino acids that cannot be synthesized by poultry in sufficient quanities and needs to be ingested from the diet. Three experiments were conducted to determine the valine and tryptophan requirement in laying hens and lysine requirement in broilers. The results of the current experiment show that a laying hen require at least 156 mg tryptophan and 597 mg valine per day to maximize egg production from 41 to 60 weeks of age. The broiler chicks need to ingest rations containing at least 1.06% lysine to support growth from 8 to 11 days of age.
Bacterial protein meal is a feed ingredient that has been proposed for use in poultry diets. It is usually produced via the fermentation process by converting various substrates such as methane, methanol, or agriculture by-products into protein-rich biomass. The advantage of using bacterial protein meal in the poultry industry is to decrease feed cost and alleviate the demand on croplands. A novel bacterial protein meal, generated from waste water purification, was evaluated as a feedstuff for laying hens. Two levels of bacterial protein meal, 7.5 or 15%, were added to a regular laying hen diet to replace soybean. The results indicated that replacing soybean meal with 7.5% bacterial protein meal was a feasible solution for egg production but a 15% inclusion rate may result in a decreased egg production.
During egg production, bone structural health can be reduced as laying hens age. This loss of bone structural health is due to the loss of bone mineral content, especially calcium and phosphorus, as laying hens produce the calcium rich eggshell. With age, decreased bone mineral mass will induce a higher probability of bone structural failure. Vitamin D plays an important role on calcium absorption and bone mineral deposition. In addition to benefits to skeletal health, the addition of vitamin D₃ in the diet will result in increased vitamin D₃ content in eggs used for human consumption. An experiment was conducted to evaluate the use of high concentrations of vitamin D to increase egg vitamin D content, improve eggshell quatility and increase hen skeletal health. The data suggest that adding vitamin D₃ from 8,300 to 35,000 IU/kg diet will increase egg viatimn D content, and generally improve eggshell and bone quality; however, adding vitamin D₃ at 68,000 IU/kg diet resulted in negative effects on pullet growth and subsequent egg production of adult hens.
Identifer | oai:union.ndltd.org:VTETD/oai:vtechworks.lib.vt.edu:10919/83506 |
Date | 08 June 2018 |
Creators | Wen, Jinlei |
Contributors | Animal and Poultry Sciences, Persia, Michael E., Johnson, Sally E., Lilburn, Michael S., Wong, Eric A., El-Kadi, Samer Wassim |
Publisher | Virginia Tech |
Source Sets | Virginia Tech Theses and Dissertation |
Detected Language | English |
Type | Dissertation |
Format | ETD, application/pdf |
Rights | In Copyright, http://rightsstatements.org/vocab/InC/1.0/ |
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