Hubbard Broiler Research Articles

Dose dependent effect of phytase supplementation on hematological parameters, serum biochemical analysis, carcass characteristics, and chemical meat analysis of Hubbard broiler chickens

Dose dependent effect of phytase supplementation on hematological parameters, serum biochemical analysis, carcass characteristics, and chemical meat analysis of Hubbard broiler chickens

Effect of different Energy and Protein levels in Hubbard broiler diet on Expression of some growth-related genes and Intestinal Morphology

Effect of different Energy and Protein levels in Hubbard broiler diet on Expression of some growth-related genes and Intestinal Morphology

Effect of different Energy and Protein levels in Hubbard broiler diet on growth performance and some related blood metabolic parameters

Effect of different Energy and Protein levels in Hubbard broiler diet on growth performance and some related blood metabolic parameters

Carcass Characteristics and Blood Biochemical Parameters of Cobb-500 and Hubbard Chicken Strains Fed on Commercial and Farm-Formulated Diets

The limits of commercial diets, their quality, and their rising costs are some of the major challenges to broiler production in Ethiopia. The purpose of this investigation was to evaluate carcass yield characteristics and blood biochemical parameters of Cobb-500 and Hubbard chicken strains fed on farm-formulated diets (T1) and three different commercial diets (T2, T3, and T4). A total of 384 mixed-sex day-old chicks (192 per strain) were randomly assigned to four dietary treatments with four replicates, each consisting of 12 broilers. The experiment was set up as a 2 × 4 factorial design, providing each strain with four diets in a completely randomized design. After 42 days of the experiment, one male and one female of each strain from each pen (eight birds per treatment) were slaughtered for carcass yield and hematological analysis. Although diets had a significant impact on live body weight, feed conversion ratio, and feed consumption among the study treatments, they had no significant effect on the mortality rate of the broilers as a whole. There was a significant effect of strains on the weight of eviscerate, dress, thigh, drumstick, breast, neck, back, and eviscerate yield percentage, with Cobb 500 showing higher values than Hubbard broilers. The farm-formulated diet (T1) significantly increased the weight of non-edible offal compared to the commercial diets, except for the weight of crops and lungs, which were similar to those in commercial diet group T4. The Hubbard strain showed a higher least square mean for packed cell volume than the Cobb-500 strain. Sex was found to have no significant impact on the hematological parameters. The farm-formulated diet (T1) also resulted in a higher marginal return rate than that of the commercial diet (T3) in the Cobb-500 strain. These findings suggest that locally sourced farm-formulated diets could be a viable alternative to commercial diets for broiler chickens in the study area. Keywords: Broiler chicken, biochemical parameter, Carcass trait, Farm-made diet, Haematology, Profitable

DIETARY EFFECT OF PEPPERFRUIT (DENNETTIA TRIPETALA) MEAL ON BLOOD PROFILE OF BROILER CHICKENS

The modern poultry production technique aimed at increasing production by increasing efficiency of nutrients utilization and health status of birds using organic materials like herbs and spices to decreasing reliant on antibiotics and other synthetic products that have residual effects on birds, their products and their consumers. Thus, an experiment was carried out to investigate effect of dried pepperfruit (Dennettia tripetala) meal (DPFM) on haematology and cholesterol components of broiler chickens. One hundred and fifty day-old Hubbard broiler chicks were randomly assigned to five treatments containing 30 chicks each. Each treatment was replicated three times, which contained 10 birds each. The experiment was arranged in a completely randomized design. Five diets were formulated to represent the treatments (T1 – T5). Treatment (T1) was the control diet containing no DPFM, while T2, T3, T4 and T5 contained 0.25, 0.50, 0.75 and 1% respectively. Diets were fed to birds starting from day old for 28 days (starter phase) and 21 days for finisher phase. Birds were allowed access to feed and water ad libitum. Parameter measured are the haematological indices like White blood cells, lymphocytes, monocytes, neutrophils, eosinophils, basophils, red blood cells, haemoglobin, packed cell volume, MCV, MCHC and platelets; and lipid parameters like Triglycerides, total cholesterol, high density, low density and very low density lipoproteins. At the end of 49 days, results indicated an increase in WBC, RBC and Hb by all the levels of pepper fruit meal. At 0.25% inclusion the neutrophils were reduced. The HDL (good cholesterol), VLDL were increased and LDL (bad cholesterol) was reduced by all levels of DPFM fed (0.25-1.0%) while the total cholesterol level was not affected. Inclusion of dried pepper fruit meal up to 1.0% in broiler chicken diets improved their haematology, immunity and good cholesterol levels while bad cholesterol levels was significantly reduced.

Improving Broiler Performance and Carcass Quality with Mint Leaves and Enzyme Additives

The present experiment was conducted at Poultry Experimental Station, Department of Poultry Husbandry, Faculty of Animal Husbandry and Veterinary Sciences, Sindh Agriculture University Tandojam. Three hundred (300) day old Hubbard broilers were equally distributed in 4 groups each having 75 chicks and 3 replicates with15 chicks each. Group A kept as control group - basal diet; Group B fed on basal diet + Mint leaves (1% of total feed composition by weight); Group C fed on basal diet + enzyme (recommended concentration 1.01 gm/kg of feed); Group D fed on basal diet + mint leaves + enzyme (combination of 1% mint leaves and 1.01 gm/kg of the enzyme). The trial was ended up to 42 days. The growth performance and carcass characteristics of broiler were determined. Results showed that fed intake was non-significant (P>0.05) between the A, B and C groups, while significant (P<0.05) among group D and A, B, C groups. Slightly higher feed intake (3785.0g/b) was noted in D group followed by C group (3771.0g/b), B group (3765.0g/b) and A group (3723.7g/b), respectively. Significantly (P<0.05) maximum live body weight (2306.7g/b) was noted in D group followed by C group (2217.7g/b), B group (2198.7g/b) and A group (2092.3g/b), respectively. Significantly (P<0.05) carcass weight was noted high in D group (1606.7g/b) followed by C group (1517.7g/b), B group (1498.7g/b) and A group (1492.3g/b), respectively. Significantly (P<0.05) dressing was noted high in A group (71.32%) followed by D group (69.65%), C group (68.43%) and B group (68.16%), respectively. Better FCR (1.64) was noted in D group followed by C group (1.70), B group (1.71) and A group (1.77), respectively. FCR was non-significant (P>0.05) between the A, B and C groups, while significant (P<0.05) among group D and A, B, C groups. Maximum Water Holding Capacity (56.71%) was noted in D group followed by C group (51.74%), B group (47.13%) and A group (41.64%), respectively. Maximum cooking loss (20.32%) was noted in A group followed by B group (17.99%), C group (17.63%) and D group (17.60%), respectively. Maximum drip loss (23.62%) was noted in A group followed by B group (19.55%), C group (19.40%) and D group (18.63%), respectively. Maximum fat content (4.36%) was noted in D group followed by C group (3.72%), B group (3.32%) and A group (2.19%), respectively. Maximum glycogen content (1.32%) was noted in D group followed by C group (1.05%), B group (0.88%) and A group (0.45%), respectively. In conclusion, the supplementation of mint leaves and enzymes (Group D) significantly improved various performance parameters and carcass characteristics of broilers, including feed intake, live body weight, carcass weight, FCR, WHC, and reduced cooking and drip losses. The combination of mint leaves and enzymes in the diet of broilers proves to be beneficial for enhancing overall growth performance and meat quality

A MOLECULAR MARKER FOR FATTY ACID BINDING PROTEIN 4 (FABP4) GROWTH DETERMINANT FUNCTION IN NIGERIAN FULANI ECOTYPE CHICKENS

A candidate gene for growth determination (Adipocyte Fatty Acid Binding Protein (A-FABP/FABP4) was examined for polymorphisms which can serve as markers of its differential functional status and role in growth performance between genetically slow growing indigenous chickens (Fulani Ecotype, and Yoruba Ecotype Nigeria Local Chicken, FE-NLC and Y-NLC) and fast growing exotic commercial chicken (Hubbard broiler) breeds. Primers for amplification of each exon of the predicted primary transcript of A-FABP of Red Jungle Fowl and the 50 base sequences immediately preceding and following each exon were designed, synthesised and used to amplify their target region in Hubbard and FE-NLC genomic DNA by use of the Polymerase Chain Reaction (PCR). PCR products were sequenced using ABI 3500XL Genetic Analyzer (Applied Biosystems). Exon sequences were subjected to multiple sequence alignment (MultAlin software). Phylogeny trees were constructed using Phylogeny.fr. Multiple sequence alignment (MSA) of Hubbard broiler and FE-NLC FABP4 exon 3 DNA sequences against FABP4 exon 3 of the Red Jungle Fowl primary transcript (ENSGALT00000025427.3 nt 1746 -1847) and flanking intron DNA revealed the existence of a purine to purine Single Nucleotide Polymorphism (SNP) in position 1765 (position 266 of the mature transcript predicted from NM_204290; position 20 of exon 3) of the primary transcript. The Red Jungle Fowl and Fulani Ecotype chicken carried an Adenine (A) base and Hubbard broiler carried Guanine (G) which led to an Asparagine to Serine change at an evolutionarily conserved region of codon 7 of exon 3 of the gene. Phylogenetic analysis of the predicted peptide sequence of exons using the order aves (within superorder Palaeognathae) as in-group and eutherian and non eutherian mammals as out-group revealed that exon 3 of Hubbard broiler was the most recently emerged in the examined group of bird. The location of the FABP4 polymorphism within the coding portion of the gene (exon) and specifically its location within an evolutionarily conserved codon, coupled with its non-synonymous nature suggest that the broiler variant may affect function of the encoded protein and the mutation might contribute to differential fat deposition and early growth rate in Hubbard Broilers relative to NLC chickens carrying the consensus/ancestral variant.

THE RELATIONSHIP BETWEEN BEHAVIOUR AND MORPHOMETRIC TRAITS IN YOUNG CHICKENS

The correlation between behavioural (anxiety, sociality and cognition in Open Field, T-Maze, Forced Approach and Voluntary Approach tests) traits on the one hand and morphometric traits including body weight, length of body parts (Body length, Body girth, Shank length, Keel length, Wing length) and associated growth rates, Body mass Index, and Body girth: Body length ratio) from age 1 to age 8 weeks on the other, was examined in a cohort of 44 chickens consisting of 22 local (Yoruba Nigerian Local Chicken) and 22 exotic (11 Hubbard Broiler and 11 Isa Brown Layer) chickens. The levels of correlation between 160 directly measured and derived traits (of which 44 were behavioural) was determined by the use of the Pearson's method. A matrix of correlation coefficients of all 12,720 possible unique pairwise comparisons was generated. Of the 5104 Behavioural vs. Morphometric trait correlations, Low (-0.3< r < 0.3), Medium (0.3 <r< 0.7 and -0.3>r<-0.7) and High (0.7<r<1.0 and -0.7 r < -0.7) inter-trait correlations were observed in 83%, 16% and 1% of cases respectively, and the highest Positive and Negative Coefficients observed were 0.75 and +0.75 respectively By contrast, in the 6730 unique Behavioural vs. Behavioural plus Morphometric vs. Morphometric trait correlations, Low, Moderate and High inter-trait correlations were observed in 18%, 26% and 56% of cases respectively, and the highest Positive and Negative Coefficients observed were 1.00 and + 1:00 respectively. Consideration of absolute coefficient values revealed a median coefficient of 0.27 (Low Correlation). All coefficients of correlation equal to or exceeding +0.33/- 0.33 were significant (p < 0.05). The highest positive coefficients of correlations (r 0.7, High Positive Correlation) between behavioural and non-behavioural traits correspond to a link between Latency to cross the first square in an Open Field Test (which embodies anxiety and locomotory components) at age 7 weeks and Body size (BW, BL, SL, WL, BG) as shown in Table 2 and Figure 1. High coefficients of correlation were also observed between Latency to cross the first square in an Open Field Test (which embodies anxiety and locomotory components) at age 7 days and Body size (BW, WL, KL, SL, BMI) as shown in Table 2 and Figure 1. In addition, high positive correlation (r0.7) was observed between Time resting in an OFT at age 48 days on the one hand, and body size (BW, BG, GLR, BMI) as shown in Table 2 and Figure 1. The high negative coefficients of correlation occurred between Time ambulating in an Open Field Test (Behavioural traits) at age 6 weeks on the one hand and body weight, body shape and fatness indices (Morphometric traits) including BW, BG. GLR and BMI (Figure 1 and Table 2). These data point to the potential utility of morphometric traits as heurictic/surrogate markers for behavioural traits in poultry breeding and management. Further, they suggest that determinants of activity in a stressful environment may determine body weight and size of chickens as has been observed in humans and laboratory animals with consequences for the incidence and progression of non-communicable metabolic dysfunction/diseases and their sequelae., and/or alternatively, that determinants of early body weight and size determine activity in under anxiety inducing stress, as has been shown in the relationship between obesity and stress related health conditions in humans. Further studies will partition the genotype and environmental influences on the high correlation between behaviour and morphometric traits reported here, and will define the underlying molecular basis of the former.

Effects of hempseed (Cannabis sativa L.) in diet on growth, gut health, and immunity in broilers

The aim of the present study was to assess the effects of different levels of hempseed (HS) on growth performance, immunity and gut health in broiler chickens. A total of 192 Hubbard broiler chicks were divided into four groups and fed HS as follow: control (HS0), HS 10% (HS-10), HS 15% (HS-15) and HS 20% (HS-20). The study on HS supplementation in broilers revealed no significant impacts on feed intake during the starter (p = .2294) and finisher phases (p = .2294), or overall (p = .0944), though numerical increases were noted with higher HS levels. Body weight gain showed no significant influence in the starter and finisher phases, with overall weight gain also not significantly different (p = .0944), but numerically higher with increased HS. Feed conversion ratio was unaffected in the starter (p = .6986) and finisher phases (p = .6425), and overall (p = .2218). Dressing percentage (p = .1062) and mortality (p = .1631) were not significantly altered, but HS-20 had the highest dressing percentage and lowest mortality numerically. White blood cell counts increased significantly (p = .0377), especially in HS-15 and HS-20 groups. IgM and IgG production was higher in HS-20 on day 28 (p = .021). Gut pH (p > .05) and intestinal histomorphology (p > .05) were not significantly affected, although villus height increased numerically with higher HS levels. These results suggest potential benefits of HS, especially at higher inclusion levels. In conclusion, the obtained results indicated that HS incorporation into the diet of broilers did not affect the growth performance and gut health; however, the immune responses were significantly higher at 15 and 20% levels.

Effect of coconut shell extract on the growth performance and some haemato-biochemical parameters of broiler chicken

This experiment was carried out at Sumitra Research Institute, Gujarat, India to evaluate the effect of coconut shell extract on the growth performance and some haemato-biochemical parameters of broiler chicken. 240 – 1 day old Hubbard broiler chicks of mixed sex were randomly distributed to six treatments with six replicates containing ten birds each in a completely randomized design. Birds in treatment 1(T1) was fed standard diet with no coconut shell extract; T2: standard diet with 1.0 mL coconut shell extract per liter of water; T3: standard diet with 2.0 mL coconut shell extract per liter of water and T4: standard diet with 3.0 mL coconut shell extract per liter of water. Standard diet was formulated according to the nutritional needs of broilers. The study lasted for fifty-six day and birds were offered fresh clean water and feed ad libitum. Phenols (410.3 mg/g-1), tannins (98.21 mg/g-1), alkaloids (100.6 mg/g-1), flavonoids (309.5 mg/g-1), saponins (71.4 mg/g-1) and steroids (28.7 mg/g-1) were identified coconut shell extract. Overall weight gains of birds fed T3 (2506.3 g) and T4 (2527.6 g) had a numerical and a remarkable significant improvement if feed conversion ratio from 1.92 to 1.59 compared to T2 (2210.0 g) and T1 (1996.1 g). Mortality was only recorded among birds in T1 (2.00 %) (p < 0.05). Pack cell volume, red blood cell, white blood cell, haemoglobin, mean corpuscular volume, mean corpuscular haemoglobin and mean corpuscular haemoglobin concentrations were influenced (p < 0.05) by the treatments. However, values were within the normal range for healthy birds. Total protein, albumin and globulin values were higher in T2, T3 and T4 except for alanine phosphatase, aspartate transaminase and alanine transaminase values which were not significantly (p > 0.05) different among the treatment. Total cholesterol was higher (p < 0.05) in T1 relative to the other treatments. It was concluded that coconut shell extract can be fed to broilers up to 3.0 mL without causing any negative effect on the health status of animals.

Influence of Boiled Cassia Tora Seed Meal on Carcass and Internal Organs Characteristics of Starter Broiler Chickens

An experiment was conducted to evaluate the effect of 30 minutes boiled Cassia tora seed meal in starter broiler chicken diets on carcass and internal organs characteristics, using one hundred and twenty day-old Hubbard broiler chicks. Five starter broiler chicken diets were formulated such that 30 minutes of boiled Cassia tora seed meal were included at 0%, 5%, 10%, 15% and 20% designated as treatments T1, T2, T3, T4 and T5 respectively. The chicks were randomly divided into five groups of twenty-four (24) chicks each and allocated to the five dietary treatments replicated three times with 8 birds per replicate in a Completely Randomized Design (CRD). The parameters measured were live weight; dressed weight, carcass weight and internal organs weights. Feed and water were given ad libitum throughout the 28 days of the research period. The results showed that all the carcass characteristics parameters measured were not significantly different (P>0.05) across treatment means except for wings which had values ranging from 10.32kg for T 1 to 8.93kg for T2. Live weights were 1165.00kg, 1298.67kg, 1206.60kg, 1158.67kg and 1006.33 kg for birds fed diets T1, T2, T3, T4 and T5. The dressed weights were 1084.67kg, 1194.67kg, 1108.00kg, 1078.00g and 936.00kg for birds fed T1, T2, T3, T4 and T5 diets. The values obtained from the dressing percentage were 93.13%, 91.90%, 91.70%, 93.06% and 92.96% for birds fed T1, T2, T3, T4 and T5 respectively. The result of breast weight numerically showed that birds fed T5 diet had the least value of 21.35kg while birds fed T2 had the highest value 24.57kg.Thigh weight showed that birds fed T5 diet recorded 11.05kgas the lowest value and T2which was 12.24kg as the highest value. Drumstick evaluation showed birds fed T5 as the poorest performed and T4 as the best performed and the back cut values showed T1 as the poorest performed with a weight of 14.12kg and T4 as the best performed with the weight of 15.55kg. Small intestine, large intestine, proventriculus and pancreas had significant differences (P<0.05) among the treatments while supplementing 30 minutes of boiled CTSM in broiler feed at 5% to 20 % inclusion levels had no significant difference (P>0.05):on the heart, liver, kidney, lungs, spleen, empty gizzard and gall bladder across the respective treatments. It was concluded from the results obtained that 30 minutes of boiled Cassia tora seed meal (BCTSM) could be included up to 20% in broiler starter chicken diets without any adverse effects on the carcass and internal organs characteristics.

Dietary Effect of Zinc on Growth Performance, Carcass Characteristics and Immune Response in Hubbard Broilers Raised under Hot Climate

Dietary Effect of Zinc on Growth Performance, Carcass Characteristics and Immune Response in Hubbard Broilers Raised under Hot Climate

Dracaena Mannii Leaf Meal Supplementation in Broiler Chicks: Effects on Growth Performance, Haematology and Serum Biochemical Indices

The study aimed to investigate the impact of Dracaena mannii leaf meal on the growth performance and haematological and biochemical indices of Hubbard broiler chicks. 200 chicks were divided into four groups, each with a different diet. The diets were based on corn-soya meal without Dracaena mannii leaf (DMF), with DMF added at different amounts. The study found that DMF contained flavonoids, phenols, tannins, alkaloids, steroids, and saponins. The average daily feed intake was similar in diets 3 and 4, but significantly higher than in diets 1 and 2, with no mortality recorded. The diets significantly influenced pack cell volume, red blood cell, haemoglobin, white blood cell, leucocytes, and monocyte counts, but within the optimal range for healthy birds. The study concluded that DMF supplementation up to 600 g can optimize broiler performance without negatively impacting their health status.The study aimed to investigate the impact of Dracaena mannii leaf meal on the growth performance and haematological and biochemical indices of Hubbard broiler chicks. 200 chicks were divided into four groups, each with a different diet. The diets were based on corn-soya meal without Dracaena mannii leaf (DMF), with DMF added at different amounts. The study found that DMF contained flavonoids, phenols, tannins, alkaloids, steroids, and saponins. The average daily feed intake was similar in diets 3 and 4, but significantly higher than in diets 1 and 2, with no mortality recorded. The diets significantly influenced pack cell volume, red blood cell, haemoglobin, white blood cell, leucocytes, and monocyte counts, but within the optimal range for healthy birds. The study concluded that DMF supplementation up to 600 g can optimize broiler performance without negatively impacting their health status.

Dracaena Mannii Leaf Meal Supplementation In Broiler Chicks: Effects On Growth Performance, Haematology And Serum Biochemical Indices

Medicinal plants have been associated with many activities including antimicrobial, antioxidant, osmoregulatory, immune-modulating, hepato-protective and anti-fungal properties due to the presence of phytochemicals which are eco-friendly and effective. This experiment was carried out to examine the dietary supplementation of Dracaena mannii leaf meal on the growth performance and some haematological and biochemical indices of broiler chicks. 200 one-day old Hubbard broiler chicks (mixed sex) were used in a 28 days’ experiment. Chicks were distributed over four groups of 50 birds with 5 replicates containing 10 birds each. Experimental diet was adequate in all nutrients (NRC, 1994). Birds in group 1: corn-soya meal basal diet without Dracaena mannii leaf (DMF), group 2, 3 and 4 were given basal diet with DMF at 200 g, 400 g and 600 g respectively. Phytochemical evaluation of DMF revealed the presence of flavonoids (1005.1 mg/g), phenols (842.9 mg/g), tannins (341.2 mg/g), alkaloids (211.7 mg/g), steroids (133.1 mg/g) and saponins (21.70 mg/g) in order of abundance. The findings also revealed that average daily were similar (P>0.05) in diet 3 and 4 but significantly higher (P<0.05) than other groups. Conversely, average daily feed intake of birds fed diet 1 were similar (P>0.05) to those given diet 2 but significantly (P<0.05) greater than the other groups. No mortality was recorded in all the groups (P>0.05). Pack cell volume, red blood cell, haemoglobin, mean corpuscular volume, mean corpuscular haemoglobin, mean corpuscular haemoglobin concentration, white blood cell, leucocytes and monocytes counts were significantly (P<0.05) influenced by the diets. However, values were within the optimum range for healthy birds. Similarly, total protein, albumin, globulin and albumin/globulin ratio were significantly different (P<0.05) among the groups excepts for creatinine, urea, alkaline phosphatase, aspartate transaminase and alanine transaminase values (P>0.05). The researcher came to the conclusion that dietary supplementation of DMF up to 600 g can optimize the performance of broilers without causing any negative effect on their health status.

Effects of copper nanoparticles on performance, muscle and bone characteristics and serum metabolites in broilers.

Three hundred and twenty day old Hubbard broilers were randomly allocated to four treatments (8 replicates, 10 birds/pen) and were raised under standard management conditions. Birds in the first group served as control and were fed a corn based diet, while birds in the remaining three groups i.e.; A, B and C were fed with a basal diet supplemented with copper nanoparticles (CuNP) at 5, 10 and 15 mg /kg of diet respectively for 35 days. Supplementation of CuNP linearly increased (P≤0.05) body weight (BW), average daily weight gain (ADWG) and feed intake (FI) in broilers. Uric acid, glucose levels in blood and feed conversion ratio (FCR) reduced linearly (P≤0.05) with CuNP supplementation in diet. Supplementation of CuNP in the diet also linearly increased (P≤0.05) tibia weight, length, diameter, weight/length index (W/L) and Tibiotarsal index (TT index). Inclusion of CuNP in broilers diet linearly increased the measured parameters of muscle i.e.; pH, fiber diameter, fiber cross-sectional area, fascicle diameter, fascicle cross-sectional area (P≤0.05). Concentration of copper, iron, calcium and phosphorous in blood also increased line-arly (P ≤ 0.05) with CuNP supplementation. Overall, CuNP positively affected the growth performance, histological characteristics of muscles, bone strength and serum metabolites in broilers.

Effect of express soymeal and full fat soymeal addition in diet of Hubbard broiler chicks on biochemical blood analysis and liver histomorphology

Effect of express soymeal and full fat soymeal addition in diet of Hubbard broiler chicks on biochemical blood analysis and liver histomorphology

Response to dietary methionine and organic zinc in broilers against coccidia under Eimeria tenella-challenged condition

The primary objective of this study is to explore whether organic zinc (OZn) and augmenting dietary methionine (Met) levels can enhance the anticoccidial effects in broilers when subjected to Eimeria tenella infection. Coccidiosis, induced by E. tenella. A total of 280 one-day-old Hubbard broilers in a coccidia-free environment were divided into seven groups. The first group served as the negative control and the second group E. tenella challenged. The third group was infected + amprolium treated. The fourth group was infected +50 mg/kg OZn. The fifth group was challenged and +0.56% Met. The sixth group was infected +OZn (50 mg/kg) + 0.56% Met. The seventh group was infected + OZn (25 mg/kg) + 0.28% Met. Growth performance was superior in combination of OZn (50 mg/kg) and 0.56% Met compared to positive control. Mortality, lesion score and oocyst count were significantly (P < 0.05) higher in positive control but significantly improved in OZn 50 mg/kg and 0.56% Met. Cecal morphological parameters were improved in OZn 50 mg/kg and 0.56% Met. We concluded that OZn 50 mg/kg and 0.56% Met improved growth performance of chickens under E. tenella challenge. From the results of the present study, it was concluded that OZn (50 mg/kg) in combination of methionine (0.56%) supplementation resulted in attenuation of negative effect of coccidial challenge and maintained the growth of broilers.

Medicinal plant feeding impact with different levels on meat quality in Hubbard broiler chicken

At the confluence of food science and animal science, using dietary techniques to improve the quality of meat may be a cutting-edge strategy. In this experiment, 200 chickens were separated into 20 cages, with each cage covering 10 chickens. Six chickens were chosen randomly to evaluate research parameters, and the findings were applied to a CRD (completely randomized design), which included five treatment groups and four replications. The effects of dietary (T1) control without Supplementation (T2) garlic powder, (T4) hot red pepper, (T3) dark pepper, and (T5) a mixture of them on the qualitative characteristics of chicken thigh and breast meat were assessed. Meat's chemical characteristics and quality assessments included assessments of the meat's quality (PH, moisture, protein, fat, and ash). Plant supplementations exhibited a significant (P≤0.05) impact on most of the evaluated chicken meat quality criteria, with black pepper being the exception. In conclusion, plant supplementations had a favorable impact on the quality of chicken meat.

Mitigating heat stress in broiler chickens using dietary onion (Allium cepa) and ginger (Zingiber officinale) supplementation

The objective of this study was to evaluate the effect of dietary onion (Allium cepa) and ginger (Zingiber officinale) supplementation on growth, carcass quality, antioxidant status, and immune response in broilers under heat stress. A total of 700 day-old Hubbard broiler chicks were weighed and assigned to five treatments and five replicates. Broilers were maintained in a thermoneutral (TN) environment or were exposed to heat stress (HS). For 35 days, HS birds were fed a control diet and three levels of onion and ginger powder as: 5 g/kg ginger + 1.5 g/kg onion (T1), 10 g/kg ginger + 2.5 g/kg onion (T2), and 15 g/kg ginger + 3.5 g/kg onion (T3). Body weight, feed conversion ratio (FCR), dressing percentage, and the weight of immune-related organs improved in T2 compared to the control. Blood concentrations of malondialdehyde (MDA) and paraoxonase-1 (PON1) were substantially higher in T2 than the control. Similarly, in the same dietary group, the antibody titre against Newcastle disease (ND) and total leucocyte count (TLC) were greater than the control diet. The findings of this research indicate that 10 g of ginger combined with 2.5 g of onion in the diet enhance broiler growth performance, carcass quality, antioxidant status, and immunological response under heat stress conditions.

Central nervous system syndrome associated with Marek’s disease in Hubbard broilers

Marek’s disease (MD) has a high economic impact in poultry production worldwide. MD consists of several pathologic syndromes of which the most commonly encountered are lymphoproliferative syndromes such as acute MD. Sporadically, MD leads to central nervous system syndromes characterized by non-neoplastic brain pathology. In this case report, an onset of neurological signs on two different broiler farms, housing ‘slow-growing’ Hubbard JA 757 broilers, is described. On the first farm, clinical signs were observed from 42 days of age onwards and on the second farm, respectively from 42 (stable 1) and 30 days (stable 2) of age onwards. The neurological symptoms consisted of acute central nervous system signs, which started with flaccid neck paralysis. Histopathological examination revealed multifocal perivascular cuffing of CD3 positive mononuclear cells in the brain tissues. These findings pointed towards the development of transient paralysis. qPCR analysis confirmed the diagnosis. In broiler flocks, which only have a limited life span, vaccination is not common practice. In flocks of slow-growing breeds, outbreaks of MD might become more important again. Therefore, vaccination of slow-growing broilers against MD seems recommended.