Heterosis and Reciprocal Effect For Body Weight and Leather Properties in Hybrid Goats

Yusuff, A.T.; Badmos, A.A.; Fayeye, T. R.

doi:10.13170/ajas.2.2.8214

Cited by 2 publications

(1 citation statement)

References 9 publications

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“…These results shows that the body weight of ostriches can thus be improved above the midparent values by crossbreeding the domesticated SAB strain with KR ostriches. Similar estimates of heterosis for live weight have been reported for goats (Afolabi et al, 2017), sheep (Iwan, 1971) and cattle (Theunissen, 2011). The only skin trait that was subject to a signi cant level of non-additive genetic variation was skin size, where the crossbred progeny outperformed the midparent value of the pure breeds (Table 4).…”

Section: Sab Krs Their Reciprocal Crossessupporting

confidence: 79%

Estimation of breed effects and non-additive genetic variation for ostrich slaughter and skin traits

Nemutandani,

Engelbrecht,

Cloete

et al. 2023

Preprint

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The study quantified breed effects and putative non-additive genetic variation for quantitative and qualitative skin traits of South African Black (SAB), Zimbabwean Blue (ZB), Kenyan Red (KR) ostriches and their reciprocal crosses. Data from SAB, ZB and their reciprocal crosses (n = 666 to 762), as well as of SAB, KR, and their reciprocal crosses (n = 544 to 594), were analysed separately. The 2x2 diallel crossbreeding design was used for assessing the crossbred combinations, while degrees of freedom for genetic group were used to derive linear contrasts to partition the effects of additive breed, heterosis and the damline effect. The ZB strain outperformed SAB birds for most size-related traits. Additive breed effects were significant for slaughter weight (10.4%), crust skin size (3.9%), crown length (1.5%) and nodule shape score (1.6%). Significant heterosis were found for slaughter weight (4.3%), crust skin size (1.7%), nodule size score (3.7%) and hair follicle score (12%). Significant damline effects were observed for skin weight (4.1%), crown shape (2.4%) and hair follicle score (4.1%). In SAB, KR and their reciprocal crosses analysis, additive breed effects were mostly similar to ZB strain with SAB. Heterosis estimates were significant for slaughter weight (5.7%), crust skin size (2.9%), crown length (1.7%) and nodule size score (4.4%). Damline effect was significant for slaughter weight (3.7%) and nodule size score (3.8%). It was concluded that ZB and KR birds outperformed their SAB contemporaries for size and size-related traits, and that commercial crossbreeding could improve size-related traits of hybrids over the mid-parent value of purebreds.

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Section: Sab Krs Their Reciprocal Crossessupporting

confidence: 79%

Estimation of breed effects and non-additive genetic variation for ostrich slaughter and skin traits

Nemutandani,

Engelbrecht,

Cloete

et al. 2023

Preprint

View full text Add to dashboard Cite

show abstract

Estimation of breed effects and non-additive genetic variation for ostrich slaughter and skin traits

Nemutandani,

Engelbrecht,

Cloete

et al. 2024

Trop Anim Health Prod

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The study quantified breed effects and putative non-additive genetic variation for quantitative and qualitative slaughter and skin traits involving three ostrich breeds: South African Black (SAB), Zimbabwean Blue (ZB), and Kenyan Red (KR) ostriches. Such data from contemporary slaughter groups with all three pure breeds represented were analyzed together (SAB: n = 457; ZB: n = 74; KR: n = 50). Two 2 × 2 diallel crossbreeding designs were used to assess crosses of ZB and KR birds with the SAB strain. Subsequently, the data from SAB, ZB and their reciprocal crosses, slaughtered together; as well as the data from SAB and KR ostriches, along with their reciprocal crosses, respectively, were analyzed separately. ZB and KR birds outperformed SAB birds for most size-related slaughter and skin traits. Linear contrasts were used to distinguish the effects of breed, heterosis, and the dam line. For the ZB x SAB design, additive breed effects were significant for slaughter weight (10.4%), crust skin size (3.9%) and nodule shape score (1.6%) (all P < 0.05). Significant heterosis were found for slaughter weight (4.3%), crust skin size (1.7%) and nodule size score (3.7%) (P < 0.05). Dam line effects were observed for skin weight (4.1%) and hair follicle score (4.1%). In the KR x SAB design, additive breed effects were like outcomes for the ZB x SAB design. Heterosis estimates were significant (P < 0.05) for slaughter weight (5.8%), crust skin size (2.9%), crown length (1.7%) and nodule size score (4.4%). Dam line effects were significant for slaughter weight (3.7%) and nodule size score (3.8%). In conclusion, ZB and KR birds outperformed their SAB contemporaries for size and size-related traits. Crossbreeding with these genotypes could improve some size-related traits over the mid-parent value of purebreds.

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Heterosis and Reciprocal Effect For Body Weight and Leather Properties in Hybrid Goats

Cited by 2 publications

References 9 publications

Estimation of breed effects and non-additive genetic variation for ostrich slaughter and skin traits

Estimation of breed effects and non-additive genetic variation for ostrich slaughter and skin traits

Estimation of breed effects and non-additive genetic variation for ostrich slaughter and skin traits

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