Analysis of Village Chicken Productivity, Egg Quality Traits and Marketing System in Dedo District, Jimma Zone, South West Ethiopia
Amanuel Bekuma*, Meskerem Asefa and Tekalign Tadesse
Department of Animal Science, Mettu University, Ethiopia
Submission: December 10, 2019; Published: February 20, 2020
*Corresponding author: Amanuel Bekuma, Department of Animal Science, Mettu University, Ethiopia
How to cite this article: Amanuel Bekuma*, Meskerem Asefa and Tekalign Tadesse. Analysis of Village Chicken Productivity, Egg Quality Traits and Marketing System in Dedo District, Jimma Zone, South West Ethiopia. Arch Anim Poult Sci. 2019; 1(3): 555565. DOI: 10.19080/AAPS.2020.01.555565
Abstract
The study was undertaken to examine production and reproduction performance of village chicken, egg quality traits and marketing in Dedo district, Jimma zone. Highland, midland and lowlands agro-ecologies of the district were purposively selected on the basis of poultry population and accessibility. Two peasant associations (PA) from each agro-ecology and 30 households from each of the six PAs were selected using stratified probability random sampling; hence a total of 180 (6x30) respondents were interviewed to collect the required data. And a total of 240 fresh eggs (80 from each agro-ecology) were purchased from sampled farmers on contractual bases for analyzing egg quality traits.
Results of the study revealed that the growth performance and survival rate of chicks hatched from eggs collected were found to be poor. This study also pointed out that eggs collected were poor in most of the egg quality parameters; this might be due to poor storage period and condition of eggs. In the study area, chicken and egg were marketed informally and women and children (95%) were responsible for managing and marketing of chicken. There must be improvement in health care, control of predators and provision of better extension service, credit schemes and training opportunities for increasing the productivity of village chicken in the study area.
Keywords: Dedo district; Egg quality; Ethiopia; Marketing; Productivity; Village chicken
Introduction
Ethiopian agricultural sector employs 80-85% of the population and contributes 40% of the total growth domestic product. Of this, chicken production covers 40% of the agricultural output in the rational economy and contributes 13-16% of the total GDP Hunduma et al. cited by [1]. The total poultry population of the country is estimated to be about 56.53million. The large segment of country’s poultry comprises of chicks (41.35%) followed by laying hens (32.18%). Pullets, cocks and cockerels are estimated to comprise about 5.85, 5.32 and 3.11 million, respectively. Regarding breed, 94.31 percent, 3.21 percent and 2.49 percent of the total poultry were reported to be indigenous, hybrid and exotic, respectively [2].
Poultry production systems are carrying out in Ethiopia in traditional (low input systems) and in modern production systems (using relatively advanced technology) [3]. Indigenous chicken kept under traditional system are characterized by lack of purposeful feeding, separate poultry house, small flock sizes, low input and output and periodic devastation of the flock by disease [4]. The productive performances of indigenous chicken ecotypes were relatively poor. The low egg production performance of indigenous chicken was expressed as slow growth rate, late maturity, produce small sized eggs, small clutch size, broodiness and high mortality of chicks [5]. This is mainly due to disease outbreak, poor management (poor feeding and housing) and predation [4].
Even though in the past and currently, the Ethiopian government development initiatives of village poultry placed special emphasis on genetic improvement through the introduction of exotic chicken and enlarging poultry extension package; scant information was available on the production and reproduction performances and egg quality parameters of village chicken in the study area. It is cynical to plan and design chicken improvement strategy without considering village chicken production and reproduction performance, egg quality traits and marketing system. Therefore, this research was initiated with the following objectives:
i. To analysis village chicken production and reproduction performance, and
ii. To evaluate egg quality traits and marketing system in the study area.
Material and Methods
Description of the study area
The study was conducted at Dedo district of Jimma Zone, Oromia Region. It comprises a total land area of 1459.1 Km2. Topographically, the district is mountainous with an altitude ranging 880- 2400 m.a.s.l. Agro-ecologically, it consists of 18% highlands, 48% midlands and 34% lowlands. The poultry and human population of the district is estimated to be about 0.056 and 0.29 million, respectively [6]. The farming practice is characterized by crop-livestock mixed system (Figure 1).
![Click here to view Large Figure 1](images/AAPS.MS.ID.555565.G001.png)
Study population and sample size
Highland, midland and lowland agro-ecologies of the district were purposively selected on the basis of poultry population and accessibility as shown in Table 1. Stratified probability random sampling method was followed to select two peasant associations (PA) from each agro-ecology and a total of 30 households were randomly selected from each of the Peasant Associations. Thus, a total of 180 (6x30) households were interviewed to collect the required data for the study.
![Click here to view Large Table 1](images/AAPS.MS.ID.555565.T001.png)
Data collection
The required data according to the objectives of the study were collected by using primary and secondary data sources. Pretested structured questionnaire and field observation were used to collect the primary data. Then, secondary data were collected from zonal and districts agricultural offices, published journal articles, reports and other relevant documents.
Determination of internal and external egg quality
240 fresh eggs (80 from each agro-ecology) were purchased on contractual bases from selected farmers at household level and analyzed at Jimma University College of Agriculture and Veterinary Medicine (JUCAVM) animal nutrition laboratory for quality detection. Each egg was individually weighed using a twodigit sensitive balance and average eggshell thickness, yolk color, using roche color fan scale (1-15), albumen height, yolk height, and Haugh unit egg quality traits were recorded. For the albumen and yolk height measurements, the eggs were broken out on a flat glass and then the maximum albumen and yolk heights were measured with a tripod micrometer. Individual Haugh unit was calculated using formula cited by Tulin and Ahmet.
HU = 100 log (AH + 7.57 - 1.7EW0.37)
Where, AH = observed albumen height in mm and
EW = egg weight in grams.
Fertility and hatchability measurement
Fresh eggs (stored for 3-7 days) were purchased (334 eggs from each agro-ecology) on contractual basis for comparative external and internal egg quality evaluation. These were (total of 1000 eggs) selected against undesirable size, shapes and abnormal shell structures. The selected eggs (200 from each agro-ecology and total of 600) were incubated using JUCAVM hatcheries.
The empty incubator and all the fixtures were fumigated in advance using 70ml of formalin plus 35g potassium permanganate Altman et al. The incubation temperature, humidity and turning devices were adjusted in advanced incubator according to the recommendations of the manufacturer. The experimental eggs incubated were candled on the 7th and 14th day of incubation to remove infertile eggs and early and late dead embryo. The hatched chicks were transferred to the electric brooder house of JUCAVM as soon as they dried. Finally, fertility and hatchability were calculated as.
% Fertility = Number of fertile eggs x 100
of total eggs set% Hatchability = Number of chicks hatched x 100
Number of fertile eggs
Chicks growth measurement
After hatching, the chicks were collected, counted, weighed and grouped according to their origin of agro ecology and level of dryness and transferred to electric brooder house which were cleaned, disinfected and well prepared in advance. All chicks were placed on commercial starters ration purchased from Addis Ababa and drinking water was provided all the times. Feed consumption was measured daily whereas body weight was taken weekly for 0-8 weeks. Growth rate was calculated as,
Percent growth rate = (V present-V past)
V past
Where,
V present = present value (weight)
V past = past value (weight)
Statistical analysis
All the data collected form the respondents were analyzed using statistical package for social science (SPSS) software version 20; and the data collected from laboratory analysis were analyzed using the General Linear Models (GLM) procedure of SAS (1999) based on the following model:
Yijk =μ + Ith + Jth+ Єijk.
Where, Yijk= the value of the respective variable mentioned above
μ = overall mean of the respective variable Ith= the effect of its agro ecology (i= 1-3, Highland, Midland and Lowland)
Jth = the jth production and reproduction performance
Єijk= random error term.
5% significance was used
Results and Discussion
Production and reproduction performance
About 78% of the respondents reported that chicken laid 4-5 clutches of eggs per year and each clutch was estimated to contain 10–16 eggs: showing annual egg production/hen ranging from 35-62 eggs. This might be due to lack of proper health care, poor nutrition and poor housing. Slightly, the same result was reported from Goma Woreda of Jimma Zone by Meseret M [5].
The average number of eggs incubated at a time was reported to be 12. In the study area, even though there was no practice of record keeping, only 22% of the respondents have no idea about how many eggs were laid by hen. During the study period, eggs were not stored over a long period because both live birds and eggs were an immediate source of income at household level. The flock size and structure of chicken in the study area was dominated by indigenous chicken. From field observation, the number of exotic chicken and their crosses were lower in all agro ecologies compared to the number of indigenous chickens, mainly attributed to the low adaptability of improved breeds of chicken to the local conditions. So that almost all the respondents (98%) have no interest in keeping exotic breeds of chicken.
Fertility and hatchability of eggs incubated
Fertility and hatchability are the major economically important parameters of reproduction performance in poultry production. The mean value of eggs hatchability calculated l was found to be 20.8% (Table 2), which was slightly lower than (22%) [7] and [5]. About 88% of the respondents reported that as there was low hatchability of eggs during the rainy seasons. All the respondents also reported to have had about 20-30% hatchability during the rainy seasons and > 73.3 % hatchability during the early dry period ranging from September to December (Table 2).
The overall mean shell weight without membrane and thickness of eggs collected from local hens in the study area was 5.16g and 4.60mm, respectively. The current result was higher than that of 0.71 mm and 0.69 mm reported by Halima H [8]. This might be attributed due to the high calcium and phosphorous contents of the supplementary and scavenging feed resources available in the study area. The average yolk and albumen height and weight of the eggs collected from selected agro-ecologies of the study area were reported to be 10.99 and 2.01mm and 14.77g and 22gm, respectively.
![Click here to view Large Table 2](images/AAPS.MS.ID.555565.T002.png)
The other most important internal egg quality trait considered in this study was yolk color; estimated using roach color fun (range 1–15). According to the present finding, the average yolk color of eggs from local hens was 9.64. This was higher than the finding reported by Fisseha M, et al. [9] for local eggs (8.6 and 9.06) collected from Bure and Fogera Woredas, respectively. Hence, the higher yolk color score obtained from the current study might be because of scavenging feed resource base of the study area is rich in xanthophylls, which is responsible for deep yellow color eggs collected from scavenging indigenous chickens.
The average mean value of Haugh unit of the eggs collected from the study area was 45.46, the value of which was lower than that (66.5) reported by Fisseha M, et al.[9] for Bure and Fogera Woredas and then that (61 and 81) reported by Halima H [8] for eggs collected from local and RIR chicken kept under intensive management condition of Northwest Amhara regional state. The lower mean Haugh unit obtained from (< 72) in the current study might be attributed to the poor handling and storage of the eggs, since egg Haugh unit is highly correlated with storage period and condition of eggs.
Performance and survival of the experimental chicks hatched
Performance of the experimental chicks as shown in Table 3, there was not statistically significant (P<0.05) difference between all the groups of the experimental chicks in mean hatching (initial) and mean body weight at an age of 8 weeks. The mean hatching weight (39.86 g/chick) of the groups of chicks hatched from eggs collected from the lowland area tended to be slightly higher than the others. On the contrary, the mean body weight (394.42 g/ chick) attained at an age of 8 weeks by the groups of chicks hatched from eggs collected from midland areas tended to be higher than the others (Table 3). Growth is influenced by genotype, nutrition, type of tissue, specific regulatory factors and aspects of the feed. Low protein reduces growth because of depressed appetite and thus reduces intake. The depression in feed intake resulted in retarded growth in chickens [10]. The results of this study showed that, there was no significant difference (P<0.05) between all the groups of chicken in growth rate as measured by mean daily body weight gain (Table 3).
![Click here to view Large Table 3](images/AAPS.MS.ID.555565.T003.png)
a) Daily feed intake: The current results showed that there was no statistically significant difference (P<0.05) between all the groups both in mean daily feed consumption and total feed consumed over the 8 weeks of the feeding trial. The mean total feed consumed from hatching to an age of 8 weeks (3172.39g/ chick) and the mean daily feed consumption (52g/chick) of the groups hatched from eggs collected from the lowland tended to be lower than the others.
Feed conversion ratio
There was no statistically significant difference (P>0.05) between all the groups of chicks in feed conversion ratio as measured by the amount of feed consumed per unit of body weight gain. Feed conversion ratio of 9.05, 8.5 and 8.4 was calculated for the groups hatched from eggs collected from the highland, midland and lowland area, respectively (Table 3). The result indicated that the groups hatched from eggs collected from highlands seemed to have consumed more feed (9.05g) per g of body weight gain compared to those hatched from eggs collected from midlands (8.5g) and lowland (8.4g).
The feed conversion ratio calculated from the current study were higher than that (4.9 -5.2g of feed per g of gain) reported by Tadelle D [11] from Tepi, Horro, and Tilili indigenous chicks. Feed conversion ratio is a complex process and a highly aggregated traits which is the result of the interaction of behavior, level of production, appetite and other factors [8]. Moreover, frequent disease outbreaks were encountered during the conduct of the feeding trial which might have confounded the performance of the experimental chicks.
Mortality
There was no statistically significant difference between all the groups of the experimental chicks in mortality. Reasonably low and comparable rate of mortality was recorded from all the groups during the early phase of brooding. There was increased rate of mortality of the experimental chicks gradually with time. The overall mean mortality to an age of 8 weeks of all the experimental chicks was calculated to be 53%, the value of which was high by any standard for chicks kept in confinement. About 55% of the total mortality to an age of 8 weeks occurred during the 7-8 weeks of the feeding trial which was attributed to the occurrence of serious disease outbreaks.
Marketing system
In the study area, marketing of chicken and eggs were common and undertaken informally. This finding was in line within Ethiopia; village chicken and egg marketing channels are informal and poorly developed [12]. Chicken and eggs were sold to consumers within the villages, on roadsides and in local and urban markets. The annual income from the sale of poultry and poultry products in the study area was calculated to be Birr 335.44. The result of this study was agreed with the mean annual income of Birr 300/hh reported by Assefa T [13] from the study conducted in the SNNP regional state (Table 4).
The major reasons of selling live birds and eggs in the Dedo district were reported to be the occurrence of disease outbreak, the beginning of the big rainy season, need of cash for buying children cloth and purchase of feed and other household inputs. The same result was reported by Assefa T [13] and Halima H [8] in different areas of the country. Both women and men were involved in chicken marketing in the study area. The cause of variation in chicken and egg market price in Dedo district were reported to be diseases outbreak (3.9%), holiday (11.1%), egg size (15%) and combinations of disease and holiday (70%) (Figure 2). Market price of chicken and eggs is highly related to holy days, non-fasting season for the Orthodox Christians, plumage color, comb type, body size, age, sex, market site and health status of chicken [8] (Figure 2).
There was seasonal variation in market price of live birds and eggs and market price showed decrease with the onset of the big rainy season (June to August) as shown in Table 4. The results of this study also showed that white, red and mixture of white and red plumage colors were more preferred for consumption in the study area. Black, mixture of black and white, mixture of red, white and black and mixture of red and black plumage colors were less favored.
![Click here to view Large Figure 2](images/AAPS.MS.ID.555565.G002.png)
This result agreed with that of [12], who reported the same tendency in consumer and market color preference from a survey conducted on indigenous chicken productions and marketing systems of Bure and Fogera of the Amhara regional state and Dale Woreda of the SNNP regional state.
Conclusion and Recommendations
Associations between genotypes of GHR and IGF-1 genes with layer traits were initially analysed using a linear model that included effects for the GHR genotype, the IGF-genotype, interaction between genotypes of the genes, the effects of dam, effects of sire and hatch. However, the interaction and sire effects were not found significant (P >0.05) on all the traits and were therefore, removed from the model. The effects of polymorphism on layer traits and the least squares means from the two different genotypes of GHR and IGF-1 genes have been presented in (Table 3,4) respectively. The mean values of different layer traits revealed differences among genotypes for both the genes, however no significant associations with genotypes were observed. However, few traits (BW 40, EW 40, EW 28, ASM, MOT 15, MOI 40 and ACL) showed the trend of association with IGF-1 and GHR genotypes at probability value greater than 05 percent but less than 20 percent level of significance.
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