A total of (90) day old broilers were used for the study to determine the carcass characteristics and organ weight changes of broiler finisher fed graded levels of acid soaked Cajanus cajan seed meal diet. The birds were randomly assigned into 3 dietary treatments of 30 birds consisting of 3 replicates of (10) birds per replicates in a completely randomized design experiment. The seeds used were purchased from Towobowo market in Igboora. The raw pigeon pea seeds were pre-treated by soaking at the rate of 1 kg/3L of water for 12 hours after which the soaked seeds were soaked at the rate of 1 kg/3L of raw pap water filtrate for 24 hours, initial and final pH was taken. The sample was sundried for 3 days, milled and then included in the diet accordingly. Birds on T1 received the control diet, T2 received 10% level of processed pigeon pea, while T3 received 20% level of processed pigeon pea. The experiment lasted for eight weeks. At the end of the 8 weeks feeding trial, three (3) birds per treatment were sacrificed for carcass analysis and internal organs were harvested to determine the weight changes in the internal organs. Results showed that there was significant (P > 0.05) difference in the live weight, dress weight, plugged weight, dressing percentage, neck, wing, breast muscle, thigh, drum stick and shank. However, there was no significant (P < 0.05) difference in the value recorded for head and back. Birds on T2 recorded the highest value of live weight (2850.50 g), dress weight (2565%), plucked weight (285.50%), neck (5.00%), back (11.59%) while the lowest value of live weight was recorded for birds on T1 (2481.50 g), dress weight (2285%), plucked weight (196.50%), back (11.10%). Birds on T1 recorded the highest value of thigh (10.69%), drum stick (10.94%) and shank (5.14%) while birds on T3 recorded the lowest value of thigh (10.04%) and drum stick (10.59%) with birds on T2 recording the lowest value of shank (4.44%). For internal organs however, result showed that there were significant differences (P > 0.05) in liver, lungs, spleen, kidney, bile, GIT weight, open gizzard, empty gizzard, Proventriculus and GIT length and there was no significant (P < 0.05) difference in live weight and heart. Birds on T2 had the highest value of liver (2.15%), lungs (0.56%), GIT weight (4.72%) and GIT length (5.53%) while birds on T3 had the lowest value of liver (1.84%), lungs (0.37%), GIT weight (4.01%). It can be concluded that pigeon pea soaked in acidic medium can be fed to birds without having any negative effect on carcass characteristics and organ weight changes of broiler finisher.
In spite of the enormous natural and human resources at her disposal, Nigeria still remains amongst the least consumer of animal protein in Africa [
Nutrition is the most important consideration in poultry industry and its survival is dependent on the availability of feedstuffs which are mainly component of human food e.g. soybean [
It is in light of the above that pigeon pea is considered for its feeding value. Pigeon pea (Cajanus cajan) is a tropical leguminous plant with high seeds and foliage yield. The legume is potentially suitable for feeding with a protein content ranging between 20.2% and 21.2%.
However, the nutritive value of pigeon pea is masked by the occurrence of anti-nutritional factors such as tannins, trypsin inhibitors hydrogen cyanide, saponins and phytic acid [
Processing methods such as heating, soaking or fermentation can be used to reduce the anti-nutritional factors and improve the nutritional value and its by-products. Boiling, toasting and soaking are some of the processing methods which had been used [
The experiment was carried out at the Teaching and Research Farm, Oyo State College of Agriculture and Technology Igboora, Oyo state in the derived Savannah zone of Nigeria. The College is located at 7˚15N and 303˚E of the equator with average annual rain fall 1278 mm and average temperature of 27˚C.
Collection and processing of test ingredients: Pigeon pea was purchased from Towobowo market in Igboora. The raw pigeon pea seeds were soaked at the rate of 1 kg/3L of water for 12 hours. The soaked seeds were soaked at the rate of 1 kg/3L of raw pap water filtrate for 24 hours, initial and final pH were taken. The samples were sundried for 3 days, milled and then included in the diet accordingly.
CCSO: Cajanus canjan soaked in ogi liquor.
Anti-Nutrient DeterminationThe test material raw and processed pigeon pea were analysed for anti-nutrient content such as oxalate, tannin, trypsin inhibitors, phytate and saponin.
A total of ninety birds were used for the study, they were randomly assigned into 3 dietary treatments of 30 birds consisting of 3 replicate often [
Birds on T1 received the control diets; T2 received 10% level of pigeon pea, while T3 received 20% level of pigeon pea. The experiment lasted for eight weeks.
| Ingredient | T1 (0%) | T2 (10%) | T3 (20) |
|---|---|---|---|
| Maize | 60.00 | 60.00 | 60.00 |
| Soybean | 28.89 | 26.00 | 23.12 |
| Cajanus cajan | 0.00 | 2.89 | 5.77 |
| Bone meal | 4.00 | 4.00 | 4.00 |
| Lime stone | 6.11 | 6.11 | 6.11 |
| Lysine | 0.25 | 0.25 | 0.25 |
| Methionine | 0.25 | 0.25 | 0.25 |
| Salt | 0.25 | 0.25 | 0.25 |
| Broiler premix | 0.25 | 0.25 | 0.25 |
| Total | 100 | 100 | 100 |
| Metabolizable Energy (Kcal/kg) | 2840.43 | 2847.82 | 2855.20 |
| Crude Protein (%) | 19.00 | 18.22 | 17.44 |
A kg premix contains vitamin A; 110,000,000 iµ Vitamin D; 250,000 iµ, Vitamin E; 20,000 mg Vitamin K3; 3000 mg, Vitamin B3; 3.00 mg Vitamin B2; 7000 mg, Vitamin B6; 500 mg Vitamin B12; 25 mg, Panthotenic acid; 10,000 mg, folic acid; 800 mg, Biotin; 50 mg Manganese; 80,000 mg, Iron; 4000 mg, Zinc; 60,000 mg, Copper; 800 mg Cobalt; 250 mg, Iodine; 1000 mg, Selenium (1%); 150 mg, Chlorine, 200,000 mg and Anti oxidant; 10,000 mg.
At the end of the experiment which lasted for 8 weeks, three birds per replicate were selected from the treatment groups, they were weighed and slaughtered by severing the jugular vein, they were then thoroughly bled and scalded by dipping in warm water with temperature of 50˚C - 55˚C before defeathering. The internal organs were removed. After evisceration, warm carcass was weighed immediately to determine the carcass yield. The weights of the carcass; breast, thigh, drumstick, back cut, wing were recorded individually. The weights of these selected parts were expressed as percentage of live weight of broilers, while the weight of selected organs; gizzard, liver, spleen, heart, proventriculus were recorded and expressed as a percentage of live weight.
Proximate composition of the experimental diets was determined according to the methods of AOAC 2003 [
| Parameters | T1 (0%) | T2 (10%) | T3 (20%) |
|---|---|---|---|
| Crude protein | 20.75 | 20.21 | 20.03 |
| Ash | 10.70 | 8.10 | 14.10 |
| Crude fibre | 8.10 | 7.70 | 8.30 |
| Ether extract | 3.80 | 3.50 | 3.50 |
| Dry matter | 92.28 | 92.02 | 92.70 |
| Anti-nutritional factors | Raw | Processed | Percentage reduction |
|---|---|---|---|
| Tannin | 0.07 | 0.0052 | 27.71 |
| Oxalate | 0.0014 | 0.00055 | 60.7 |
| Phytate | 0.0028 | 0.0016 | 42.8 |
| Saponin | 0.00245 | 0.00180 | 26.5 |
| Trypsin inhibitors | 12.105 | 8.10 | 33.08 |
| Parameters | T1 (0%) | T2 (10%) | T3 (20%) | SEM |
|---|---|---|---|---|
| Live weight (g/bird) | 2481.50c | 2850.50a | 2721.00b | 88.25 |
| Dressed weight (g/bird) | 2285.00c | 2565.00a | 2501.50b | 69.20 |
| Plucked weight (g/bird) | 196.50c | 285.50a | 219.50b | 21.78 |
| Dress (%) | 92.09a | 93.99c | 92.91b | 0.55 |
| Head (%) | 2.48 | 2.48 | 2.40 | 0.02 |
| Neck (%) | 4.53b | 5.00a | 3.93c | 0.25 |
| Wing (%) | 9.02a | 8.53c | 8.99b | 0.13 |
| Breast muscle (%) | 28.20b | 25.74c | 29.24a | 0.85 |
| Back (%) | 11.10 | 11.59 | 11.44 | 0.12 |
| Thigh (%) | 10.69a | 10.47ab | 10.04c | 0.16 |
| Drum stick (%) | 10.94a | 10.93a | 10.59b | 0.09 |
| Shank (%) | 5.14a | 4.44c | 4.60b | 0.18 |
a, b, c: Means within the same row with the different superscript are significantly (P < 0.05) difference, S.E.M: Standard error of mean.
| Parameters | T1 | T2 | T3 | SEM± |
|---|---|---|---|---|
| Live Weight | 1624 | 1533.67 | 1542 | 0.02 |
| Heart | 0.58 | 0.57 | 0.43 | 0.05 |
| Liver | 1.85b | 1.15a | 1.84bc | 0.08 |
| Lungs | 0.40bc | 0.46b | 0.37a | 0.05 |
| Spleens | 0.04b | 0.02c | 0.08a | 0.01 |
| Kidney | 0.41b | 0.41b | 0.43a | 5.44 |
| Bile | 0.20a | 0.13b | 0.17ab | 0.02 |
| Git Weight | 4.42b | 4.72a | 4.01c | 0.17 |
| Git Length | 5.09c | 5.53a | 5.30b | 0.10 |
| Open Gizzard | 2.49c | 3.03a | 2.94b | 0.14 |
| Empty Gizzard | 1.57c | 2.18ab | 2.20a | 0.17 |
| Proventiculus | 0.43c | 0.49b | 0.61a | 0.04 |
a, b, c: Means within the same row with the different superscript are significantly (P < 0.05) difference, S.E.M: Standard error of mean.
1) Carcass: The effect of processed pigeon pea on carcass characteristics of broiler chicken significantly (P < 0.05) influenced live weight, dressed weight, plucked weight, dress percentage, head, neck wing, breast muscle, back, thigh, drum stick and shank. Values obtained for the live weight dressed weight, plugged weightdress percentage for birds on tested diet was significantly higher than those control diet. Feeding of pigeon pea at 10% and 20% level of inclusion showed better utilization of the seed by birds. Birds were able to utilize the nutrients in the feed and convert into flesh at both 10% and 20% inclusion levels. This might be due to the level of anti-nutritional factors present at this inclusion level was minimal and does not have much negative effect on the carcass yield of the birds. The increment noticed could be traced to better utilization of the nutrients in the diet and good amino acid profile of the diet.
This result of this research also suggested that the lower the inclusion level the higher the availability of nutrients which could be seen in the values obtained for live weight, dressed weight and dress percentage. Hence processing methods do not completely eliminate traces of ANFs. The result confirms the findings of [
2) Organ changes: Increase in weight of organs of broilers can be linked to the presence of antinutritional factors. It can be submitted that enlargement of the heart muscles was not a consistent change in birds fed velvet beans, if it does the author asserted it may represent extra work load impose by stress or disease. The lower value of liver for birds on T2 and T3 when compared with those on control could mean that the residual anti-nutritional factors present in the pigeon pea do not cause abnormal size of the organ which is an organ of biotransformation in animals [
Birds on T3 have the highest value of kidney compared to birds on T1 and T2 which could be attributed to the effect of residual ANF. The kidney is a detoxifying organ hence enlargement and increase in weight is as a result of increase in activity of the organ to detoxify residual ANF. [
It could be concluded that pigeon pea soaked in acidic medium can be fed to birds at 20% level of inclusion without any negative effect on the organ weight of broiler finisher fed experimental diet.
Feeding up to 20% level of inclusion showed good results, further experiment can be conducted and the level of inclusion can be increased to 40%.
The authors declare no conflicts of interest regarding the publication of this paper.
Amusa, H.O., Ogungbenro, S.D., Makanju, T.D., Okunlola, O.O., Adeoti, T.M., Oseni, T.A., Adebisi, I.A. and Amusa, F.L. (2021) Effect of Feeding Graded Levels of Acid Soaked Cajanus cajan Seed on Carcass Characteristics and Organ Weight Changes of Broiler Finisher. Open Access Library Journal, 8: e7072. https://doi.org/10.4236/oalib.1107072