UTILIZATION OF NUTRIENTS IN ANIMAL AND PLANT ALTERNATIVE FEED INGREDIENTS FOR BROILER CHICKENS AND PIGS

Abidemi Adekoya (17015808)

13 October 2023

<p dir="ltr">The objective of this thesis was to evaluate the nutrient digestibility in alternative animal and plant sources of feed ingredients for chickens and pigs. Therefore, 5 studies were carried out to determine the nutrient utilization in poultry meal (<b>PM</b>), faba beans (<b>FB</b>), and 3 cultivars field peas (<b>FP</b>).</p><p dir="ltr">In the first study, 2 experiments investigated the energy and phosphorus utilization of PM for broiler chickens. Poultry meal was used to substitute corn and soybean meal in the reference diet at 0, 80, or 160 g/kg in Experiment 1. Whereas PM was included in the diet at 0, 50, or 100 g/kg in Experiment 2. A total of 192 birds were allotted to 3 experimental diets in both experiments. The estimated ileal digestible energy (<b>IDE</b>), metabolizable energy (<b>ME</b>), and nitrogen-corrected metabolizable energy (<b>MEn</b>) for PM were 4,002, 3,756, and 3,430 kcal/kg DM, respectively. In Experiment 2, the true ileal digestibility (<b>TID</b>) and true total tract utilization (<b>TTTU</b>) of P in PM were 77.5 and 79.0%, respectively.</p><p dir="ltr">The second study consisted of 3 experiments. In the first experiment, 240 birds were assigned to 5 diets to determine the energy values of FB and DS admiral FP (<b>FPD</b>). In Experiment 1, the test ingredients were incorporated into a corn-soybean meal-based diet at 0, 150 or 300 g/kg. The IDE, ME, and MEn for FB were 2,541, 2,628, and 2,394 kcal/kg, respectively. The respective values for FPD were 2,254, 2,540, and 2,331 kcal/kg DM. In each of Experiments 2 and 3, 162 birds were assigned to 3 diets. Faba beans was included at 21, 42, or 63% and FPD at 16, 32, or 48% in Experiments 2 and 3, respectively. The TID and TTTU of P in FB were 66.5 and 66.7%, respectively. The corresponding values for FPD were 73.4 and 73.8%.</p><p dir="ltr">The third study consisted of 3 experiments. In Experiment 1, the energy values for Hampton FP (<b>FPH</b>) and 4010 FP (<b>FP4</b>) fed to broiler chickens were estimated. Two hundred and forty birds were assigned to 5 diets. The test ingredients were included at 0, 150 or 300 g/kg into a corn-soybean meal-based reference diet. With regression analysis, the determined IDE, ME, and MEn were 3,274, 3,033, and 2,850 kcal/kg DM in FPH, respectively, in FP4 the energy values were 3,019, 3,155, and 2,991 kcal/kg DM, respectively. The P utilization in FPH and FP4 were determined in Experiments 2 and 3, respectively. The corresponding TID and TTTU of P in FPH were 74.6% and 68.3%, and 74.3 and 61.7% in FP4.</p><p dir="ltr">Two experiments were conducted in the fourth study to estimate the digestible energy (<b>DE</b>) and ME in FB and FP fed to pigs. Twenty-four barrows were assigned to 3 dietary treatments in each of the experiments. Faba beans or FPD in Experiment 1 and FPH or FP4 in Experiment 2 were included in the diet at 0 or 300 g/kg. The determined DE and ME values for FB using the total collection method were 3,772 and 3,606 kcal/kg DM and in FPD were 3,683 and 3,589 kcal/kg DM, respectively. In Exp. 2, the respective DE and ME for FPH were 4,164 and 4,014 kcal/kg DM and for FP4 were 3,574 and 3,467 kcal/kg DM.</p><p dir="ltr">In the last study, standardized ileal digestibility (<b>SID</b>) of amino acids (<b>AA</b>) in faba beans and three cultivars of FP between broiler chickens and pigs were compared. The test ingredients were the only source of protein providing 160 g/kg crude protein and a nitrogen-free diet was prepared to estimate the basal endogenous losses of AA. The same set of five diets was used across both species. The SID of Lys in FB, FPD, and FPH exceeded 90% but in FP4 it was 85.1% for broiler chickens. Whereas for pigs the SID of Lys in FB, FPD, and FPH exceeded 80% but for FP4 it was 89.8%. The SID of Met in the test ingredients ranged from 72.1 to 89.8% and 68.1 to 81.8% for broiler chickens and pigs, respectively. In general, the SID of AA in the test ingredients were greater compared with chickens. The energy, P, and AA digestibility of the test ingredients determined in the five studies could be used in diet formulation for chickens and pigs.</p>

Animal nutrition

broiler chicken

pigs

energy

phosphorus

amino acid

poultry meal

faba beans

field peas

Space, Walking Ability, and Broiler Chicken Behavior and Welfare

Hailee Yoder (17198953)

18 October 2023

<p dir="ltr">Stocking density, space availability, and lameness are important aspects affecting broiler chicken behavior and welfare. Stocking density refers to the weight of broiler chickens per a set area of space typically measured as kg/m2. Space availability is the amount of space per individual broiler chicken typically measured as m2/bird. Stocking density and space availability can contribute to lameness and other aspects of welfare such as footpad dermatitis, hock burn, and feather cleanliness. The behavior of broiler chickens can also be modified by stocking density, space availability, and lameness. All of these aspects are typically related to a change in activity levels which could be used as an indicator of animal welfare. To date, the majority of research that has examined the walking ability of broiler chickens has assessed how stocking density influences the development of gait problems when applied during the grower phase. However, not all broilers develop gait problems at the same point in time and it is unknown whether broilers that initially have sound gait develop gait problems at a similar rate to broilers that are initially classified as having affected gait. Further, the influence of stocking density on the progression of gait abnormalities of broilers with sound and poor gait is unknown. Finally, since space becomes more and more limited as broiler chickens increase in body weight and age, it is unknown how the provision of space during the finisher phase, when broiler chickens are gaining weight rapidly, can influence their walking ability and welfare outcomes. Stocking density is calculated based on projected final weights of broiler chickens from the time they are placed on a commercial farm, and that projected stocking density remains the same from the chick placement date. As stocking densities are increased, there is also an increase in the prevalence of lameness. Age is also known to be related to walking ability, and as broiler chickens age, there is an increase in the prevalence of lameness. While it is known that increasing stocking density and aging are both contributing factors to broiler chicken lameness, there is no previous research on if reducing stocking density at a later age can help alleviate the prevalence of lameness. To address this knowledge gap, two studies were conducted. In the first study, 784 mixed-sex Ross 708 broiler chickens in commercial barns were placed into of four treatment groups. · SOUND: Consisted of broiler chickens that were considered to have sound gait (scores of 0 and 1) and the broilers were housed at farm stocking density (6lb/ft2, 29.29 kg/m2), · AFFECTED: Consisted of broiler chickens that were considered to have affected gait (scores of 2 or higher) and were housed at farm stocking density (6lb/ft2, 29.29 kg/m2) · MIXED-F: Consisted of 50% of broiler chickens that were considered to have sound gait and 50% that were considered to have affected gait and were housed at farm stocking density (6lb/ft2, 29.29 kg/m2) · MIXED-L: Consisted of 50% of broiler chickens that were considered to have sound gait and 50% that were considered to have affected gait and were housed at half of the farm stocking density (3lb/ft2, 14.65 kg/m2) Broiler chickens were randomly selected at 33 days of age from each of four commercial barns for welfare assessments, which included gait scoring to assess walking ability, as well as the assessment of footpad dermatitis and hock burn. Broilers were then assigned to one of two gait categories based on their gait scores. Broilers were either considered to have sound gait meaning they had no or unidentifiable abnormalities, or affected gait meaning there were identifiable abnormalities. To separate treatment groups, custom-built pens (4 ft x 12 ft, 1.22 m x 3.66 m) were constructed. At 37 days of age welfare assessments were conducted again, and then the broiler chickens were placed back into the flock (Chapter 2). The behavior of the broiler chickens was recorded from the evening of day 33 to the morning of day 37 and video was analyzed using scan sampling. The proportion of broiler chickens performing target behaviors was recorded every 10 minutes in the morning (6:00 – 8:00) and evening (19:00 – 21:30). Better gait scores were observed at 37 days of age in broiler chickens in the MIXED-L group and broiler chickens in the SOUND group. The presence of hock burn was lower in broiler chickens in the SOUND group. Cleanliness scores were better for broiler chickens in the MIXED-L group and in broiler chickens in the SOUND. Stocking density impacted the proportion of broilers performing eating, drinking, sitting, and walking (P < 0.05). Walking ability impacted the proportion of broiler chickens standing, walking, and sitting (P < 0.05). To continue investigating the implementation of housing changes later in the broiler chickens’ life, a second study was conducted using 705 mixed-sex Ross 708 broiler chickens. At 7 d, broiler chickens were randomly assigned to 1 of 16 pens (46-47 birds/pen). At 28 d, half of the pens doubled in size after welfare assessments were completed (measuring 8 ft x 10 ft, 3.05 m x 2.44 m, DOUBLE), while the other half remained at the original dimensions (8 ft x 5 ft, 2.44 m x 1.5 m, SINGLE). The DOUBLE pens had an expected stocking density of 15.2 - 15.5 kg/m2 (3.11 - 3.17 lb/ft2) and an estimated space availability of 0.15 to 0.16 m2/bird while the SINGLE pens had an estimated stocking density of 30.4 - 31.1 kg/m2 (6.23-6.37 lb/ft2) and an estimated space availability of 0.07-0.08 m2/bird. Welfare assessments consisting of scoring gait, feather cleanliness and for the presence of FPD and hock burn were conducted at 22 d, 28 d, and 38 d (Chapter 4). At 38 d, broiler chickens in SINGLE pens were less likely to have a score of 0 for FPD (Wald c2 = 15.45, P < 0.0001), hock burn (Wald c2 = 7.26, P = 0.0071), and feather cleanliness (Wald c2 = 11.77, P = 0.0006) than broiler chickens in DOUBLE pens. However, broiler chickens in SINGLE pens were more likely to have a gait score of 0 compared to broiler chickens in DOUBLE pens (Wald c2 = 11.34, P = 0.0008). Broiler chicken behavior was recorded at 23-26 d (Period 1: before space increase), 28-31 d (Period 2: time of space increase), and 36-37 d (Period 3: after space increase). Behavior data were collected using focal sampling for two broiler chickens per each of the 16 pens in the morning, afternoon, and evening (Chapter 5). Broiler chickens housed in double pens had an increased frequency of leg extensions compared to broiler chickens housed in single pens (P < 0.05). Period had a significant impact on the frequency of eating, sitting, and walking and the durations of sitting, environmental pecking, standing, and walking (P < 0.05). Time of day had a significant impact on the frequency of eating, sitting, walking, preening, and leg extensions and the durations of sitting, eating, preening, and standing (P < 0.05). The interaction of age and time of day had a significant impact on the frequency of drinking and leg extensions and the durations of sitting, eating, and walking (P < 0.05). The interaction of age and treatment had a significant impact on the frequency of eating and walking and the duration of preening (P < 0.05). In conclusion, broiler chickens housed in DOUBLE pens did not exhibit a difference in behaviors compared to those in SINGLE pens, other than broilers in the DOUBLE pens performing leg extensions more often. While the first study indicated that having more space available per broiler chicken led to better walking ability, the second study showed the opposite to be true as those with more space had reduced walking ability. This indicates that changing the stocking density through manipulating space in the finisher phase may impact welfare, but further investigation is needed. Future research should first examine the effects of adding space in the finisher phase with 3 treatment groups. While the two discussed here would remain the same, the third group should start with broilers in a pen that is already the size of the DOUBLE pens and remains that way for the entire project. This will ensure that increasing space during the finisher period is beneficial rather than the additional space availability in general accounting for the differences in treatments. All treatment groups should also get fresh bedding with the pen increase to ensure the welfare measurement results are due to the changes in space availability rather than the provision of fresh litter.</p>

animal behavior

animal welfare

broiler chicken

gait

Evaluation of novel litter amendments for use in the commercial broiler industry

Urrutia, Jorge A

09 December 2022

Poultry litter amendments (LA) are commonly used to maintain good litter quality; the most common ones; are acidifiers. However, concern over the lifespan of LA acidifiers (d) and corrosive nature revealed a need for alternative LA. Products of interest include biochar (BC), superabsorbent polymers (SAPs), and alum mud (AM). Experiment 1 was a screening study (n=17 treatments, no birds) conducted to determine the optimal application rate/method of BC, SAPs, and AM vs.commercial LA and a control. Most SAPs treatments measured metrics may be similar (i.e., bacteria, water activity) or better (pH) vs. commercial LA (PLT). High inclusions of novel LA elicited the most litter quality benefit; therefore, were chosen for experiment 2 to determine their effects on 60 d litter quality and broiler performance and processing. Overall, novel LA improved litter quality parameters (i.e., moisture content, pH water activity) without negatively affecting live performance and processing parameters vs. control

Litter

Amendments

Broiler

Water Activity

Novel

Agriculture

Animal Sciences

Biology

Microbiology

Establishing the relationship between broiler beak size, starter feed particle size selection and performance

Alvarenga Ramirez, Maria Jose

09 December 2022

Starter feed particle size (FPS) is typically small (~1200 µm) due to bird beak capacity (BC). Recent research has found that chicks can consume a larger FPS than previously thought; however, preferred FPS and its relationship with BC has not been established. Experiment 1 was conducted to determine the effect of breeder flock age (BFA) and feeding strategy (FS) on 0-14 d performance, BC and FPS preference. These data found that BC was dependent upon BFA and FPS consumed was dependent upon FS. Also, chicks could consume increased FPS without impacting starter performance; thus Experiment 2 was conducted to determine the effects of BFA and Starter FS on carryover performance (0-61 d), BC and processing metrics. Significant BFA differences occurred, though no FS carryover impact occurred for the measured variables. Overall, these data suggest that chicks can consume a FPS of ~2600 µm without negatively affecting starter or carryover performance.

pellet

crumble

particle size

feed form

broiler performance

feed quality

feed manufacture

Evaluation of Cobb MV × Cobb 500 broiler response to various nutrient regimens to maximize performance and economics

Hirai, Rosana

09 August 2019

To maximize the economics of a new commercial broiler cross, research on its nutritional specifications is necessary. Study 1 investigated the effects of feeding four amino acid densities (AAD) on performance and yield of Cobb MV × Cobb 500 broilers at d 33 and 36. Data demonstrated a stepwise decrease in feed conversion ratio (FCR) as AAD level increased. Improvements in performance, processing, and economic return were observed when feeding higher AAD levels. Study 2 estimated the digestible lysine (dLys) requirements of Cobb MV × Cobb 500 broilers from d 0-14 and evaluated the impact of varying starter dLys levels on their performance, processing, and economic return during a 42 d grow-out. Data suggested that d 0-14 dLys requirements varied based on broiler response and statistical model. Improvements in overall performance was observed when feeding ≥1.12% dLys during the starter phase. The greatest economic return was associated with feeding starter dLys of 1.20%. Due to the potential interaction between AA and apparent metabolizable energy (AME), Study 3 examined the response of Cobb MV × Cobb 500 to varying dLys and AME levels from d 0-14 on d 0-42 performance and processing. A dLys × AME interaction was observed for d 0-28 FCR and for dLys and AME for early performance parameters. However, this significance was lost by the end of the study. Due to the variation in broiler response to feeding strategies at different ages, Study 4 evaluated the impact of varying dLys and AME levels from d 14-28 on performance and processing of 42-day old Cobb MV × Cobb 500 broilers. Data demonstrated significant dLys × AME interactions for d 14-28 and 14-35 FCR, as well as significances for main effect of dLys and AME for performance and processing (d 42). Feeding grower diets formulated to 1.18% dLys + 3028 kcal/kg AME was the most profitable diet. Overall, this research demonstrates that higher AAD improved broiler performance, especially ≥1.12% starter dLys. Varying dLys and AME during the starter phase did not affect performance at d 42; however, it did when this regimen was exercised during the grower phase.

new commercial broiler cross

amino acids

apparent metabolizable energy

growth performance

processing yield

economic return

Novel approaches in monitoring and determining the relationships between pre- and post-hatch metabolic parameters in progeny of young broiler breeders

Pulikanti, Radhakrishna

06 August 2011

Seven experimental trials were conducted to develop and use novel techniques to examine the relationships between pre- and post-hatch physiological parameters in the progeny of young broiler breeders. Trials 1, 2 and 3 together examined the safer and effective use of transponders to determine embryonated egg air cell temperature (Temb) as an estimation of broiler embryo temperature during incubation, and to subsequently calculate eggshell water vapor conductance (GH2O), specific GH2O (gH2O) and GH2O constants (KH2O) in modern broiler strains. Trials 4 and 5 together examined the relationships of early, middle and late post-hatch growth quality parameters and tissue nutritional profiles of broilers with the corresponding Temb, GH2O, gH2O and KH2O. Furthermore, Trials 6 and 7 together examined the changes in nutritional profiles and histological structures of the broiler embryonic pipping muscle between 15 and 19 days of incubation. Based on the results from Trials 1, 2 and 3, it was concluded that transponders may be effectively implanted in the embryonated egg air cells with minimal invasion to the broiler embryo to efficiently determine Temb, and to subsequently calculate GH2O, gH2O and KH2O of modern broiler strain eggs during incubation. The results from Trials 4 and 5 also suggested that within physiological limits, an increased gH2O results in increased embryo metabolism, which subsequently increases growth and yolk sac absorption in the corresponding broiler chicks through 3 days post-hatch. Moreover, it was also observed that a higher gH2O was negatively associated with chick hydration status on day 28 post-hatch; although such effects were not observed through day 48 of the post-hatch grow out period. It was concluded that the effects of gH2O on post-hatch broiler physiology may be more pronounced during early and middle post-hatch periods and may subside as the chick reaches marketing age. Furthermore, the results from Trials 6 and 7 indicated that changes in the nutritional profiles of the pipping muscle occur in accordance with corresponding changes in liver metabolism, and that these together with associated morphological changes in the pipping muscle, as observed through histological techniques may be critical for the broiler embryo’s preparation for hatch.

broiler

eggshell water vapor conductance

embryo

pipping muscle

temperature transponder

post-hatch performance

Molecular, somatic, and performance characteristics of broilers exhibiting woody breast myopathy, and the effects of dietary and challenge intervention strategies

Jia, Linan

10 December 2021

Woody breast (WB) is a meat quality problem that has caused significant economic losses for the poultry industry. Ross × Ross 708 chicks were randomly assigned to a 3 (diet) × 2 (cocci challenge) × 2 (sex) factorial arrangement of treatments. The three diets included the control diet (corn-soybean meal basal diet), antibiotic diet (basal diet + 6.075 mg bacitracin /kg feed), and probiotic diet (basal diet + 2.2 × 108 CFU Bacillus subtilis PB6 /kg feed). Birds in the cocci challenge treatment group received 20 × the live cocci vaccine as an inoculum on d 14. Growth performance and WB score were measured to understand the effects of management factors (diet and coccidiosis) on broiler growth and WB development. Results indicated that dietary bacitracin and Eimeria spp. increased WB incidence, body weight, and growth rate. Bacillus subtilis increased WB incidence in male broilers without affecting body weight and growth rate. The association of the development of the internal organs and skeletal muscle with WB myopathy incidence in broilers were evaluated. The digestion organs (proventriculus and gizzard) and the skeletal muscles (drumsticks, thighs, and wings) developed at lower rates in birds with WB. In addition, the effects of the dietary and challenge interventions on the gut microbiota diversity and composition associated with WB in broilers were investigated. Results showed that cocci challenge altered gut microbiota composition and various biosynthetic pathways. Maintaining a healthy gut ecosystem is critical for the reduction of WB incidence in broilers. Gene expression related to oxidative stress, gut barrier function, and inflammation in jejunal mucus was investigated. Results showed that WB is related to decreased mucin expression (MUC6) in mucus, indicating a correlation between WB incidence and a lessening of the secretion of gel-forming mucin. In conclusion, dietary antibiotic and probiotic and challenge intervention strategies increased WB incidence, and microbiota composition and gut health gene expression differed in broilers exhibiting WB myopathy.

antibiotics

probiotics

broiler

woody breast

myopathy

gut health

gut microbiota

organ development

Poultry or Avian Science

Effects of Litter Reuse on Performance, Welfare, and the Microbiome of the Litter and Gastrointestinal Tract of Commercial Broiler Chickens

Cressman, Michael David

02 June 2014

No description available.

Animal Sciences

broiler

litter reuse

ammonia

moisture

welfare

litter composting

Illumina sequencing

Effects of Induced Moisture Loss on Broiler Chicks Immune Response Post Salmonella enteritidis Lipopolysaccharide Challenge

Gregorich, Jenna L.

January 2017

No description available.

Animal Sciences

Effects of feed restriction and duration of the reproduction period on reproduction hormones and follicular development in broiler breeder hens

Liu, Han-Ken

29 September 2004

No description available.

Biology, Animal Physiology

luteinizing hormone

progesterone

estradiol

ovulation

laying hen

broiler breeder hen

feed restriction