Administration of Palm Kernel Meal and íŸ-Mannanase on Laying Hens Productivity
Downloads
Adeniji, A. A., & Jimoh, A. (2007). Effects of Replacing Maize with Enzyme - Supplemented Bovine Rumen Content in the Diets of Pullet Chicks. International Journal Poultry Science, 6(11), 814-817.
Adrizal, A., Yusrizal, Y., Fakhri, S., Haris, W., Ali, E., & Angel, C. R. (2011). Feeding native laying hens diets containing palm kernel meal with or without enzyme supplementations: 1. Feed conversion ratio and egg production. Journal Applied Poultry Research, 20, 40–49.
Agustono, B., Al Arif, M. A., Yunita, M. N., Purnama, M. T. E., & Ulkhaq, F. (2019). Bioactivity of Digestive Enzymes and Histological Descriptions of Jejunum of Broilers Supplemented with Sunflower Seed Flour (Helianthus Annuus L). Indian Veterinary Journal, 96(08), 12-15.
Boateng, M., Okai, D. B., Baah, J., & Donkoh, A. (2008). Palm kernel cake extraction and utilisation in pig and poultry diets in Ghana. Live Research Rural Development, 20(7), 1-8.
Deviana, D., Cahyo, N. P. D., Kumalaningrum, D. R., Kusuma, W. A., Lailiyah, F., & Purnama, M. T. E. (2018). Rekayasa Konsentrat Bekatul dengan Tepung Jantung Pisang Dapat Meningkatkan Berat Badan dan Menurunkan Kadar Kolesterol Kambing. Jurnal Sain Veteriner, 36(1), 74-79.
Ezieshi, E. V., & Olomu, J. M. (2007). Nutritional evaluation of palm kernel meal types: 1. Proximate composition and metabolizable energy values. African Journal Biotechnology, 6(21), 2484-2486.
Ferreira, H. C., Hannas, M. I., Albino, L. F. T., Rostagno, H. S., Neme, R., Faria, B. D. M. L., Xavier, J., & ÌRenno, L. N. (2016). Effect of the addition of β-mannanase on the performance, metabolizable energy, amino acid digestibility coefficients, and immune functions of broilers fed different nutritional levels. Poultry Science, 95(8), 1848-1858.
Genedy, H., Shousha, S., Azab, M., Ismail, R., & Nafeaa, A. (2018). Effect of β-Mannanase (Hemicell®) on Growth Performance and Immunity of Japanese Quail. Benha Vet. Medical Journal, 34(2), 84-101.
Kim, M. C., Kim, J. H., Pitargue, F. M., Koo, D. Y., Choi, H. S., & Kil, D. Y. (2017). Effect of dietary β-mannanase on productive performance, egg quality, and utilization of dietary energy and nutrients in aged laying hens raised under hot climatic conditions. Asian-Australasian Journal Animal Science, 30(10), 1450-1455.
Lee, J. Y., Kim, S. Y., Lee, J. H., Lee, J. H., & Ohh, S. J. (2013). Effect of Dietary β-Mannanase Supplementation and Palm Kernel Meal Inclusion on Laying Performance and Egg Quality in 73 Weeks Old Hens. Journal Animal Science and Technology, 55(2), 115–122.
Park, J., Knape, K. D., & Carey, J. B. (2019). Effects of a Commercial Beta-Mannanase Product on the Performance, Intestinal pH, and Digesta Viscosity of Pekin Ducks. Journal Appllied Poultry Research, 28, 447-453.
Perez, J. F., Gernat, A. G., & Murillo, J. G. (2000). The Effect of Different Levels of Palm Kernel Meal in Layer Diets. Poultry Science, 79(1), 77–79.
Rahmaningtyas, I. H., Yulianto, R., Prastika, D. W., Arifin, K., Oktaviana, V., Setiabudi, R. S., & Purnama, M. T. E. (2017). Efektivitas tepung teritip (cirripedia sp) terhadap pertambahan berat badan dan feed convertion ratio (fcr) ayam pedaging. Surabaya. Jurnal Agro Veteriner Universitas Airlangga, 5(2).
Ribeiro, R. D. X., Oliveira, R. L., Macome, F. M., Bagaldo, A. R., Silva, M. C. A., Ribeiro, C. V. D. M., Carvalho, G. G. P. & Lanna, D. P. D. (2011). Meat Quality of Lambs Fed on Palm Kernel Meal, a By-product of Biodiesel Production. Asian-Australasian Journal Animal Science, 24(10), 1399 - 1406.
Rychen, G., Aquilina, G., Azimonti, G., Bampidis, V., Bastos, M. D. L., Bories, G., Chesson, A., Flachowsky, G., Gropp, J., Kolar, B., Kouba, M., Lopez-Alonso, M., & Puente, S. L. (2018). Safety and efficacy of Hemicell®HT (endo-1,4-b-mannanase) as a feed additive for chickens for fattening,chickens reared for laying, turkey for fattening, turkeysreared for breeding, weaned piglets, pigs for fattening andminor poultry and porcine species. EFSA Journal, 15(1), 4677.
Saeed, M., Ayasan, T., Alghawany, M., Hack, M. E. A. E., Abdel-Latif, M. A., & Patra, A. (2019). The Role of íŸ-Mannanase (Hemicell) in Improving Poultry Productivity, Health and Environment. Brazilian Journal Poultry Science, 21(3), 1-8.
Saputro, A. L., Hamid, I. S., Prastiya, R. A., & Purnama, M. T. E. (2018). Hidroponik Fodder Jagung sebagai Substitusi Hijauan Pakan Ternak Ditinjau dari Produktivitas Susu Kambing Sapera. Jurnal Medik Veteriner, 1(2), 48-51.
Shastak, Y., Ader, P., Feuerstein, D., Ruehle, R., & Matsuchek, M. (2015). íŸ-Mannan and mannanase in poultry nutrition. World's Poultry Science Journal, 71, 161-175.
Sinurat, A. P., Purwadaria, T., Ketaren, P. P., Pasaribu, T. (2014). Substitutions of Soybean Meal with Enriched Palm Kernel Meal in Laying Hens Diet. Indian Journal Veterinary and Animal Science, 19(3), 184-192.
Sundu, B., Kumar, A., & Dingle, J. (2006). Palm kernel meal in broiler diets: effect on chicken performance and health. World's Poultry Science Journal, 62(2), 316-325.
Tafsina, M., Sofyan, L. A., Ramli, N., Wiryawan, K. G., Zarkasie, K., & Piliang, W. G. (2007). Polisakarida Mengandung Mannan dari Bungkil inti sawit Sebagai Antimikroba Salmonella typhimurium pada Ayam. Media Peternakan, 30(2), 139-146.
Vries, S. D. (2015). Fiber in Poultry Nutrition: Bonus or Burden?. 20th European Symposium on Poultry Nutrition. Prague, Czech Republic, 24–27 August 2015. pp: 1-8.
Williams, M. P., Brown, B., Rao, S., & Lee, J. T. (2014). Evaluation of beta-mannanase and nonstarch polysaccharide-degrading enzyme inclusion separately or intermittently in reduced energy diets fed to male broilers on performance parameters and carcass yield. Journal Applied Poultry Research, 23, 715-723.
Yatno, Ramli, N., Hardjosworo, P., Setiyono, A., & Purwadaria, T. (2008). Sifat Kimia dan Nilai Biologis Konsentrat Protein Bungkil inti sawit Hasil Ekstraksi Kombinasi Fisik-Kimiawi. Media Peternakan, 31(3), 178-185.
Zulkifli, I. J., Ginsos, P., Liew, K., & Gilbert, J. (2003). Growth performance and Newcastle disease antibody titres of broiler chickens fed palm based diets and their response to heat stress during fasting. Archive Geflu Gelk, 67(3), 125 –130.
Authors who publish in this journal agree to the following terms:
1. The journal allows the author to hold the copyright of the article without restrictions;
2. The journal allows the author(s) to retain publishing rights without restrictions;
3. The legal formal aspect of journal publication accessibility refers to Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License (CC BY-NC-SA).
11.jpg)
