Context Poultry products, mostly meat and eggs, provide affordable quality foodstuffs to human populations in Nepal. However, the poultry industry’s by-products, such as litter and offal, also generate potential environmental and human health issues and need a sustainable method of management. Aims The present study compared the effectiveness of vermicomposting by using an exotic earthworm species Eisenia fetida, or effective microorganism-based (EM) composting, of poultry litters in the Terai region of Nepal. Methods Four types of poultry litter, namely, broiler cage litter (parent stock litter), broiler deep litter, commercial layer cage litter and layer deep litter, each combined with earthworms (vermicompost) or effective microorganisms, were subjected to decomposition in beds. A completely randomised design in a 4 × 2 factorial arrangement (poultry litters by Eisenia fetida or effective microorganism) with three replicates per treatment was applied. Key results Macronutrient concentrations, and reduction of the carbon:nitrogen ratio were significantly greater in vermicompost than EM compost. In addition, reduction of the carbon:nitrogen ratio was more significant following vermicomposting for broiler and layer cage litter than in other treatments. The highest initial concentration of N was found in layer cage litter (2.1%) and the lowest in layer deep litter (1.3%) and these increased to 1.5–3.4% and 1.7–1.8% in vermicompost and EM compost respectively. Available phosphorus increased by two- to three-fold in most vermicomposted poultry litters in comparison to initial poultry litters, and a two-fold increase in potassium was likewise achieved. Consistent with these results, worm biomass was significantly higher in layer cage litter and broiler cage litter than in deep litter. More cocoons were evident in layer cage litter, and lowest numbers of cocoon formation were observed in broiler deep litter. Conclusions This comparative study showed that vermicomposting is superior to EM composting for bioconversion of poultry litters into value-added compost. Implications With the adoption of this result, the poultry industry in Nepal could become more sustainable.
A study was conducted to determine the comparative effect of feeding different levels of garlic and black cumin on growth, feed consumption, feed efficiency and carcass characteristics of Hubbard broiler. Two hundred fifty two Hubbard chicks having uniform body weight were randomly allocated into seven dietary treatments with three replications .The isoproteinous and isocaloric formulated standard starter, grower, and finisher diets were supplemented for 6 weeks with different levels of freshly ground dry garlic and black cumin seeds in order of T1-control, T2- 0.25% garlic, T3- 0.5% garlic, T4- 0.75% garlic, T5- 0.25% black cumin, T6- 0.5% black cumin, and T7- 0.75% black cumin, respectively. The results showed significantly higher cumulative weekly live body weight, body weight gain and feed conversion ratio for broiler fed diet supplemented with 0.5% garlic, followed by diet supplemented with 0.5% black cumin. There was no significant effect of different levels of garlic and black cumin supplementation in diet on carcass characteristics. Furthermore, there was minimum gross expenditure in broiler diet supplemented with 0.25% garlic and maximum in broiler diet supplemented with 0.75% black cumin. However, there was highest gross income and net profit in broiler diet supplemented with 0.5% garlic, followed by broiler diet supplemented with 0.5% black cumin. It is therefore, concluded that inclusion of garlic or black cumin in the broiler rations may be used for economical and efficient production of broilers.
A study was conducted at AFU livestock farm, Rampur, Chitwan in 2017-18 to determine the effect of dietary supplementation of garlic and ginger in different combination on feed intake, growth performance and economics by using commercial Cobb 500 broilers. A total of two hundred, 11-day-old chicks were allocated randomly to five different treatments. The experiment was designed in a Completely Randomized Design, each treatment with four replication and each replication had 10 birds. They were fed isoproteinous and isocaloric Basal diet (BD) and BD supplemented with four different levels of garlic and ginger such as T1 (BD only), T2 (BD + 1% garlic); T3 (BD + 1.0% ginger); T4 (BD + 0.5% garlic and 0.5% ginger) and T5 (BD + 1% garlic and 1% ginger). Weekly average body weight, weight gain, feed consumption, and feed efficiency were recorded up to sixth week of age. All data were statistical analyzed using Completely Randomized Design. The results showed that overall feed consumption was significantly (P≤0.05) higher for broiler fed diet supplemented with 0.5% garlic and 0.5% ginger (T4) followed by T5 (basal diet with 1% garlic and 1% ginger). On the other hand significantly higher (P≤0.01) cumulative weekly live body weight and body weight gain (g/bird) was found for the treatment with supplemented 1% garlic powder (T2), followed by broiler fed diet supplemented with 0.5% garlic and 0.5% ginger powder (T4). Similarly, feed conversion ratio was significantly (P≤0.01) better in broiler fed basal diet with supplementation of 1% garlic (T2) followed by basal diet with supplementation of 0.5% garlic and 0.5% ginger (T4). The maximum benefit was obtained from the broiler fed basal diet with supplementation of 1% garlic (T2). The findings revealed that broiler fed basal diet with supplementation of 1% garlic powder had helped as a growth promoter contributing to the better growth performance, feed efficiency and higher benefit: cost ratio. Thus, addition of 1% garlic powder can be safely recommended as a growth promoter in broilers.
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