Development of a Super Hybrid Duck Cultivation and Breeding Business Using Energy Efficient Hatching Machines in Blitar Regency
DOI:
https://doi.org/10.71131/jmm26n60Abstract
The development of the super hybrid duck cultivation and breeding business in Blitar Regency is a strategic effort to increase the productivity and economy of local breeders. The use of energy-efficient hatching machines in developing super hybrid duck cultivation and breeding businesses in Blitar Regency is an innovative step in the livestock industry. This technology aims to increase efficiency, productivity and sustainability in the duck egg hatching process. The aim is to identify potential, challenges and solutions in developing a super hybrid duck cultivation and breeding business in the region. The research methods used were field surveys, interviews and data analysis. The results of this program show that Blitar Regency has considerable potential to develop a super hybrid duck cultivation business, but is still faced with a number of challenges such as lack of technical knowledge, inadequate infrastructure, and limited market access. Adoption of technology in developing and breeding super hybrid ducks through the use of machines, namely hatching machines designed to be energy efficient, including energy efficiency, reduced operational costs, increased productivity and quality of duck seeds. The implications of adoption of technology can reduce the environmental impacts and improve the economics of adopting this technology, as well as the challenges and opportunities associated. It is hoped that the various solutions proposed, including technical training and infrastructure improvements, can serve as a guide for all groups, including breeders, government and related stakeholders, in supporting the development of super hybrid duck cultivation and breeding businesses in Blitar Regency.
Keywords:
Development, Duck, EfficientDownloads
References
Andoha, P., Sekyere, C., Amoabenga, K., & Dzebrea, D. (2022). Performance assessment of a solar powered egg incubator with a backup heater. Al-qadisiyah journal for engineering sciences, 15(2), 112-120.
Clearinghouse, T. (2022). Poultry technology toolkit catalogue. Taat clearinghouse. Technical report series 016. Gates open res, 6(137), 137.
Contreras, M., Magaña, M., Villarreal, R., Kiessling, D., & Escalera, O. (2017). Design of an incubator for intermediate agricultural technology, forestry and rural tourism. Revista biológico agropecuaria tuxpan, 6(9), 1714-1720.
Desha, N., Islam, F., Ibrahim, M., Okeyo, M., Jianlin, H., & Bhuiyan, A. (2015). Fertility and hatchability of eggs and growth performance of mini-incubator hatched indigenous chicken in rural areas of bangladesh.
Gulilat, l., Tegegne, F., & Demeke, S. (2021). Hatchery and broody technologies and least cost ration practice for poultry production improvement in ethiopia. Cogent food & agriculture, 7(1), 1913793.
Hossain, E., Zeyad, M., Ahmed, S. M., & Anubhove, M. S. T. (2021). Duck eggs hatching procedure with a low cost user convenient integrated device for developing countries. Paper presented at the 2021 ieee 9th region 10 humanitarian technology conference (r10-htc).
Kisaalita, w. S., Bibensed, L. B., Young, P., Randell, K. V., & Some, S. (2010). Design and testing of an avian hatchery solar energy incubator for smallholder poultry farmers from the sudano-sahelian belt. Ama, agricultural mechanization in asia, africa & latin america, 41(2), 84.
Kutsira, g., Nwulu, N., & Dogo, E. (2019). Development of a small scaled microcontroller-based poultry egg incubation system. Paper presented at the 2019 international artificial intelligence and data processing symposium (idap).
Macalane, E., Chikafa, B., Kamtsokwe, M., & Glorindal, G. (2023). Smart incubator for empowering poultry farmers by maximizing egg hatching success. I-manager's journal on information technology, 12(4).
Mondal, S., & Pal, S. (2021). Low cost incubator create new income for rural villages.
International journal of engineering research & technology (ijert), 9(11).
Osanyinpeju, K. L., Aderinlewo, A. A., Ajisegiri, E. S., & Adetunji, O. R. (2018). Development of a solar powered poultry egg incubator for south west nigeria. International journal of innovative research and creative technology, 3(6).
Puramongkon, P., & Puramongkon, T. (2022). Egg hatchability of junglefowls (gallus gallus linnaeus) by natural method, artificial insemination and incubator.
Santoso, S. B., Adhy, S., Bahtiar, N., & Waspada, I. (2020). Development of the smart chicken eggs incubator based on internet of things using the object oriented analysis and design method. Paper presented at the 2020 4th international conference on informatics and computational sciences (icicos).
Surtijono, S., Tinangon, R., Leke, J., Sompie, F., Poli, Z., & Siahaan, R. (2019). The development of rural poultry farming program to kampong chicken farmers of treman village north sulawesi.
Paper presented at the iop conference series: earth and environmental science.
Underwood, G., Andrews, D., Phung, T., & Edwards, l. E. (2021). Incubation, hatchery practice and the welfare of layer hens. Animal production science, 61(10), 867-875.