Livestock Research for Rural Development 22 (6) 2010 Notes to Authors LRRD Newsletter

Citation of this paper

Effects of processed Mucuna pruriens (var cochinchiensis) beans on carcass characteristics of broiler chicken

F Adzitey*, G A Teye, H K Dei and C Okine

University for Development Studies, Animal Science Department, Box 1882, Tamale, Ghana
* Universiti Sains Malaysia, School of Industry Technology, 11800 Pulau Pinang, Malaysia University for Development Studies, Malaysia
Adzitey@yahoo.co.uk

Abstract

The study was conducted to assess the carcass characteristics of broiler chicken fed with processed Mucuna beans at 25 % and 30 % inclusion levels. Mucuna beans (Mucuna pruriens) were processed by two methods; soaked before dehulling (SD) and dehulled before soaking (DS). Ninety six seven-week old birds comprising of 48 females and 48 males were used for the experiment.

 

No significances (P > 0.05) were found among the live weight, bled, feather, feet, head, intestines, and carcass weights on treatment diets. However, birds fed with 30 % mucuna beans meal had significant heavier (P < 0.05) gizzard. Similarly, no significant differences were found among the weights of the primal cuttings (including bone and boneless meat) of birds. The inclusion of 25 % and 30 % mucuna beans meal had no influence on chicken flavor, colour, juiciness and tenderness of the broiler chicken.

 

Processed mucuna beans meal can be used by farmers to substitute some percentage of fish and soybean meal without adverse effect on carcass characteristics, primal cuttings and eating quality of the broiler breast and thigh.

Key words: Carcass characteristics, primal cuttings, processed mucuna beans


Introduction

The chemical composition of feed ingredients could have a significant influence on the carcass characteristics and eating quality. Mucuna pruriens is a tropical legume that has a nutritional quality comparable to soybeans and other conventional legumes as it contains similar proportions of protein, lipid, minerals, and other nutrients. Although Mucuna pruriens contains anti-nutritional/physiological compounds such as L-Dopa, phenolics, tannins, lectins and protease inhibitors, which may reduce nutrient utilization (Pugalenthi et al 2005), processing methods such as soaking, dehulling, boiling, drying and roasting can reduce the deleterious effects of these antinutritional/physiological compounds. Mucuna could also help to reduce cost of animal feed by replacing the cake in poultry diet or as alternative feed during periods of scarcity (Iyayi and Taiwo 2002).

 

Various authors have shown that mucuna seed is a promising plant protein source in poultry diet (Del Carmen et al 1999; Udedibie et al 2001, Iyayi and Taiwo 2002; Enenalom 2004; Dei et al 2010). However, there is inadequate information on the quality of broiler carcass when fed with mucuna seeds as protein supplement. This study, therefore, was undertaken to evaluate the carcass characteristics of broiler chicken when fed with processed mucuna beans.
 

Materials and methods 

The experiment was conducted at the poultry section of Department of Animal Science and the Meat Limited of the University for Development Studies. A total of 96 seven-week broiler chickens comprising of 48 males and 48 females were used. Out of the 96 broiler chickens used for the experiment, 32 birds were fed with control (Diet A, no mucuna beans) while the remaining 64 birds were fed with diets containing processed mucuna beans at 25 % (Diet B) and 30 %  (Diet C) inclusion levels. In diet B processed mucuna replaced 12 % maize, 2 % fish meal, 6 % soybean meal, 5 % wheat bran and in diet C mucuna replaced  12 % maize, 2 % fish meal, 8 % soybean meal and 8 % wheat bran.

 

Individual birds were weighed and slaughtered by ventral neck cut to severe the blood vessels to exsanquinate them. They were bled thoroughly, weighed, defeathered, eviscerated and weighed again to obtained empty carcass weight. Feathers were collected from individual slaughtered birds, dried and weighed. The weights of the gizzard, intestines, feet, head, and primal cuts were also taken. The weights of bones and boneless meat from cuttings such as wings, thigh, back, drumstick and breast of the halved carcasses were taken after they have been deboned.

 

The thighs and breast were used for sensory analysis to determine the effect of mucuna beans on eating quality using a five-point category scale. The thighs and breast were thawed and grilled in Turbofan, oven (Blue seal, UK) to a core temperature of 70 oC. The grilled thighs and breast were sliced into sizes of 2 cm3 and wrapped with coded aluminum foil for sensory evaluation. Nine trained panelists were served with sliced coded thigh and breast samples and a piece of bread was used as a neutralizer between tests.

 

The data obtained was analyzed using the General Linear Model (GLM) analysis of variance (ANOVA) of Minitab version 15.0.

 

Results and discussion 

Effects of processed mucuna beans used as feed ingredient on broiler carcass

 

Inclusion levels had no significant effect (P > 0.05) on the live weight, bled, feather, feet, head, intestine and carcass weights of the birds (Table 1), although birds fed with 25 % mucuna beans had slightly heavier live, bled and intestines weight than those fed on the control and 30 % mucuna diets.


Table 1.  Effect of inclusion levels of processed mucuna beans used as feed ingredient on broiler carcass characteristics

Parameters

Inclusion levels of Mucuna

 

SEM

 

P

Weight, Kg

0%

25%

30%

Live

1.62

1.65

1.60

3.20

0.61

Bled

1.58

1.60

1.55

3.10

0.63

Feather

0.06

0.06

0.06

0.12

0.55

Feet

0.07

0.07

0.07

0.14

0.71

Head

0.05

0.05

0.05

0.10

0.88

Gizzard

0.03a

0.04b

0.07b

0.04

0.03

Intestine

0.14

0.17

0.15

0.30

0.42

Carcass

1.15

1.13

1.12

2.24

0.85

a,b,c Values on the same row with different superscripts differ at P<0.05,
SEM: Standard error of mean, P:Probability


Birds fed the control diets had slightly heavier carcass (1.15 kg) weights than those fed on 25 % (1.13 kg) and 30 % (1.12 %) processed mucuna beans meal. The result implies that processed mucuna beans at 25 % and 30 % inclusion levels have no negative effects on carcass characteristics; thus mucuna beans (dehulled and soaked) can be used as a substitute to replace some percentage of fish meal or soybean meal. However, birds fed with 30 % mucuna beans meal had significantly heavier (P < 0.05) gizzard (0.07 kg) than those fed with control (0.03 kg). This may reflect the extra muscular or secretory work required to process mucuna beans, which are higher in fibre. Carew and Lawery (1998) and Tuluen et al (2008) observed 35 % increase in gizzards of broilers fed 20 % raw velvet beans compared to 5 % and 10 % inclusion levels.

 

Processing methods (Dehulled Soaked (DS) and Soaked Dehulled (SD)), had no significant influence (P > 0.05) on the parameters recorded (Table 2), although birds fed with DS diet had slightly heavier live weight (1.66 kg), bled weight (1.62 kg) and carcass weights (1.15 kg) than those fed with SD diet (1.58 kg, 1.54 kg and 1.12 kg, respectively). In addition, no significant differences (P > 0.05) were found among inclusion levels and processing methods for the thighs, drumsticks, back, shanks, wings of birds and bones/boneless meat.


Table  2.   Effect of processing methods of mucuna beans used as feed ingredient on broiler carcass characteristics

Parameters

Processing methods

SEM

P

Weight, Kg

DS

SD

Live

1.66

1.58

3.16

0.06

Bled

1.62

1.54

3.08

0.08

Feather

0.06

0.06

0.12

0.54

Feet

0.07

0.05

0.10

0.45

Head

0.05

0.05

0.10

0.50

Gizzard

0.05

0.04

0.08

0.43

Intestine

0.15

0.15

0.30

0.97

Carcass

1.15

1.12

2.24

0.50

DS: mucuna beans dehulled before soaking, SD: mucuna beans soaked before dehulling,
SEM: Standard error of mean, P: Probability


The non- significant differences observed among the primal cuts were reflections of the similar carcass weights. Also, the processing methods employed (DS and SD) had similar effects on the utilization of mucuna beans by broiler chickens.

 

Effects of processed mucuna beans as feed ingredient on the eating quality of the broiler breast and thigh 

 

No significant differences (P > 0.05) were found in the chicken flavour, colour tenderness, juiciness, flavour liking and overall liking in the broiler breasts and thighs of birds that were fed with various levels of mucuna and the control meal (Tables 3 and 4).


Table 3. Effect of inclusion levels of processed mucuna used as feed ingredient on the eating quality of the broiler breast

Parameters

Inclusion levels of mucuna

 SEM

 P

Weight, Kg

0%

25%

30%

Chicken flavour

1.83

2.06

1.67

0.04

0.22

Colour

2.00

2.06

1.89

0.28

0.26

Tenderness

1.44

1.83

1.50

0.50

0.07

Juiciness

2.50

2.61

2.28

0.64

0.57

Flavour liking

2.28

2.22

2.00

0.52

0.54

Over liking

2.28

2.33

1.83

0.60

0.19

SEM: Standard error of mean, P: Probability



Table 4. Effect of inclusion levels of processed mucuna beans used as feed ingredient on the eating quality of the broiler thigh

Parameters

Inclusion levels of Mucuna

 SEM

 P

Weight,  Kg

0%

25%

30%

Chicken flavour

1.83

1.94

1.78

0.32

0.67

Colour

1.94

2

2.06

0.26

0.68

Tenderness

1.56

1.56

1.67

0.36

0.76

Juiciness

1.78

1.72

1.89

0.4

0.86

Flavour liking

1.94

2

1.83

0.66

0.94

Over liking

1.67

2

1.65

0.54

0.47

SEM: Standard error of mean, P: Probability


Similarly, methods of processing mucuna beans had no significant influence (P > 0.05) on chicken flavour, colour tenderness, juiciness, flavour liking and overall liking in the broiler breasts and thighs of birds that were fed with various levels of mucuna meal (Tables 5 and 6).


Table 5. Effect of processing methods of mucuna beans used as feed ingredient on the eating quality of the broiler breast

Parameters

Processing methods

 SEM

 P

Weight, Kg

DS

SD

Chicken flavour

1.89

1.82

3.64

0.68

Colour

1.93

2.04

4.08

0.19

Tenderness

1.56

1.63

3.26

0.61

Juiciness

2.41

2.52

5.04

0.67

Flavour liking

2.04

2.30

4.6

0.23

Over liking

1.96

2.33

4.66

0.13

DS: mucuna beans dehulled before soaking, SD: mucuna beans soaked before dehulling,
 SEM: Standard error of mean, P: Probability



Table 6. Effect of processing methods of mucuna beans used as feed ingredient on the eating quality of the broiler thigh

Parameters

Processing methods

 SEM

P

Weight, Kg

DS

SD

Chicken flavour

1.74

1.96

0.38

0.16

Colour

1.93

2.07

0.2

0.16

Tenderness

1.63

1.41

0.28

0.13

Juiciness

1.82

1.63

0.32

0.26

Flavour liking

1.93

1.96

0.54

0.89

Over liking

1.74

1.93

0.44

0.41

DS: mucuna beans dehulled before soaking, SD: mucuna beans soaked before dehulling,
SEM: Standard error of mean, P: Probability


Thus the inclusion of mucuna in the diet of broiler birds and processing methods used did not change the chicken flavour, colour, juiciness, tenderness, flavour liking and the overall acceptability of the product. This may be due to the insignificant influence of the processing methods on the fatty acid composition in the diet of broiler chicken (Wood et al 1995).

 

Conclusion and recommendation  

 

References 

Carew L B and Lawery R S 1998 Consumption of raw velvet beans (Mucuna pruriens) alters organ weights and intestinal lengths in broiler. Poultry Science 77 (Supplement): 56.

 

Dei H K, Adzitey F, Otchere E O and Frey E 2010 Egg laying performance of chickens fed a diet containing ten percent of processed mucuna beans. Ghanaian Journal of Animal Science 5 (1): 43-48.

 

Del Carmen J, Gernat A G, Myhrman R and Carew L B 1999 Evaluation of raw and heated velvet beans (Mucuna pruriens) as feed ingredient for broilers. Poultry Science 78: 866-872 http://ps.fass.org/cgi/reprint/78/6/866

 

Enenalom O O 2004 Comparative performance of broiler chicks fed diets containing differently processed Mucuna pruriens seed meals. Nigerian Journal of Animal Production 31 (1) 12 -16. http://www.cababstractsplus.org/ABSTRACTS/Abstract.aspx?AcNo=20043077212

 

Iyayi E A and Taiwo V O 2002 The effect of diets incorporating Mucuna pruriens seed meal on the performance of laying hens and broilers. International workshop on developing multiple uses for Mucuna. 23-26 September 2002, Mombasa, Kenya.

 

Pagalenthi M, Vadivel V and Siddhuraju P 2005 Alternative food/feed perspectives of an underutilized legume Mucuna pruriens var. utilis- a review. Plant foods for human nutrition. 60 (4):201-18 . http://www.ncbi.nlm.nih.gov/pubmed/16395632

 

Tuleun C D and Igba F 2008 Growth and carcass characteristics of broiler chickens fed water soaked and cooked velvet bean (Mucuna utilis) meal. African Journal of Biotechnology 17: 2676 – 2681 http://academicjournals.org/AJB/PDF/pdf2008/4Aug/Tuleun%20and%20Igba.pdf

 

Udedibie A B I, Emenalom O O and Obikaonu H O 2001 Comparative evaluation of Nigerian and Brazilian Mucuna pruriens (velvet beans) s feed ingredients in broiler diets International Journal of Agriculture and Rural Development 2:9-13

 

Wood J D, Enser M and Nute G R 1995 New feeding regimes of food animal science. University of Bristol, Division of Farm Animals and Veterinary, Bristol, Langford.



Received 25 April 2010; Accepted 26 April 2010; Published 10 June 2010

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