ABSTRACT
Two experiments were conducted in
this study to evaluate the performance of main and reciprocal F1 and
F2 crossbred chickens bearing normal feather, naked neck and frizzle
feather genes in the humid tropics. In experiment 1, a base population of 90
adult chickens comprising 45 local strains (normal feathered chickens, frizzle
and naked necked) and 45 exotic broiler breeder (Anak) strain were used at a
mating ratio of 5:40 and 5:40, respectively for the experiment in a Randomized
Complete Block Design. The main cross constituted the mating of the exotic
cocks (Anak male) to the local hens (Normal, frizzle and naked neck). The
reciprocal cross consisted of the reverse mating involving the mating of the
local cock (Normal, frizzle and naked neck) to the exotic broiler breeder hens.
Data collected were subjected to Analysis of Variance technique. Results of
growth performance revealed that the reciprocal F1 hybrids were
significantly (P<0.05) heavier in body weight than their main cross
counterpart throughout the period of the study. Average daily feed intake were
also higher (P<0.05) in the reciprocal F1 crosses and also the
best feed conversion ratios. Brooding and rearing mortalities were
significantly higher (P<0.05) in both the main and reciprocal crosses of
naked neck (E x Na and Na x E) in F1. Sexual dimorphism was observed
in the body weight and Linear body measurement (LBM) with the male weighing
heavier than females at all stages of the cockerels and pullets. The frizzle
males and females were superior in body weight and most LBM at 18 weeks. Body
weight at first age, egg at first egg, average weight of egg at first lay and
short term egg number at 90 days were significantly (P<0.05) better in the
reciprocal crosses with the frizzle chicken having the highest body weight at
first lay (2000g), egg weight (47.55g) and egg number (41.02). The reciprocal
cross of frizzle also had the lowest number days for first egg (146days). The
egg quality traits were also significantly (P<0.05) higher in the reciprocal
F1crosses. The correlation values between body weight at first egg
and age at first egg in the genetic groups were all positive and ranged from
low to high (0.287 – 0.996) with the exception of F x E where a highly
significant (P<0.01) negative correlation between these traits were found. A
significant negative correlation (r = -0.999) was also found between body
weight at first egg and egg number at 90 days in E x F hybrid. The live weight,
dress weight, dressing percentage, breast cut, back cut, thigh, wings and shank
of the reciprocal crosses were significantly higher (P<0.05) than in the
main crosses. Among the reciprocal crosses, F x Ehad the highest live weight and shank length,
followed by Na x E. The Na x E was significantly higher in dress weight, dressing percentage, breast
cut, back cut and thigh, followed by F x E. Significant differences
(P<0.05) were seen in heart, proventriculus, lungs and kidney, where the
reciprocal crosses where significantly different (P<0.05) from the main
crosses. The reciprocal crosses were significantly higher (P<0.05) than the
main crosses in heart, proventriculus, lungs and kidney. The reciprocal F2
backcrossed chickens [E x (NF x E), E x (Na x E) and E x (F x E)] were superior
to their main cross counterparts in body weight throughout the study periods.
They also had better FCR and higher LBM when compared to their main cross F2
backcross counterparts. The reciprocal crosses were also superior in egg production parameters with
the frizzle having the highest body weight at first egg and least age to attain
sexual maturity in both main and reciprocal crosses. However, the normal
feathered had higher number of eggs lay. The reciprocal F2 backcrosses
also were superior in egg qualities. The experiments showed clear evidence of
maternal influence in the expression of growth and in egg production traits. The
reciprocal crosses were significantly higher (P<0.05) than the main crosses
in carcass characteristics.
From experiment 1 and 2, it was clear that the reciprocal crosses produced off
springs with superior growth, egg production and egg quality characteristics
traits. It
was concluded that backcrossing the F individuals to the exotic broiler breeder
cocks increased the genetic profile of the backcross lines resulting in enhanced
growth performance of progenies. Crossbreeding of exotic and local chicken
varieties generated progenies that had higher genetic potentials for growth
relative to the local strains and better adaptability relative to the exotic
breed. It is therefore concluded that reciprocal
crossbreeding should be adopted in other to achieve rapid improvements in the
traits studied. Frizzle gene was superior in body weight and egg production and
egg quality traits followed by naked neck gene, which showed improvement
especially in egg quality traits.
NDUKWE, N (2023). Performance Of Main And Reciprocal F1 And F2 Crossbred Chickens Bearing Normal Feather, Naked Neck And Frizzle Genes In The Humid Tropics. Mouau.afribary.org: Retrieved Dec 22, 2024, from https://repository.mouau.edu.ng/work/view/performance-of-main-and-reciprocal-f1-and-f2-crossbred-chickens-bearing-normal-feather-naked-neck-and-frizzle-genes-in-the-humid-tropics-7-2
NDUKWE, NDUKWE. "Performance Of Main And Reciprocal F1 And F2 Crossbred Chickens Bearing Normal Feather, Naked Neck And Frizzle Genes In The Humid Tropics" Mouau.afribary.org. Mouau.afribary.org, 26 Jun. 2023, https://repository.mouau.edu.ng/work/view/performance-of-main-and-reciprocal-f1-and-f2-crossbred-chickens-bearing-normal-feather-naked-neck-and-frizzle-genes-in-the-humid-tropics-7-2. Accessed 22 Dec. 2024.
NDUKWE, NDUKWE. "Performance Of Main And Reciprocal F1 And F2 Crossbred Chickens Bearing Normal Feather, Naked Neck And Frizzle Genes In The Humid Tropics". Mouau.afribary.org, Mouau.afribary.org, 26 Jun. 2023. Web. 22 Dec. 2024. < https://repository.mouau.edu.ng/work/view/performance-of-main-and-reciprocal-f1-and-f2-crossbred-chickens-bearing-normal-feather-naked-neck-and-frizzle-genes-in-the-humid-tropics-7-2 >.
NDUKWE, NDUKWE. "Performance Of Main And Reciprocal F1 And F2 Crossbred Chickens Bearing Normal Feather, Naked Neck And Frizzle Genes In The Humid Tropics" Mouau.afribary.org (2023). Accessed 22 Dec. 2024. https://repository.mouau.edu.ng/work/view/performance-of-main-and-reciprocal-f1-and-f2-crossbred-chickens-bearing-normal-feather-naked-neck-and-frizzle-genes-in-the-humid-tropics-7-2