EFFECTIVENESS OF MARINE FUNGI AS FEED ADDITIVE ON NATIVE CHICKEN PERFORMANCE
DOI:
https://doi.org/10.36103/2x1npn79Keywords:
Body weight, Chicken feed additive, Feed efficiency, Marine fungi, Native chickenAbstract
This study was conducted to determine the effectiveness of marine fungi as a feed additive on the performance of native chickens. One hundred and eighty unsex one-day-old native chickens were used in this study. Chickens were kept for ten weeks and given a treatment supplemented with the dietary marine fungi (1, 2, 3, and 4 ml/kg) in a ration consisting of yellow corn, rice bran, fish meal, soybean meal, coconut meal, L-lysine, methionine, and CaCO3. The data collected were feed consumption, body weight gain, carcass percentage, mortality rate, and feed efficiency. The results showed significant (P<0.05) decreased feed consumption and increased mortality with adding marine fungi. They did not affect the body weight, carcass percentage, and feed efficiency. The highest mortality occurred in a group of chickens supplemented with marine fungi as much as 3 ml/kg. It was concluded that marine fungi could be added to the ration as much as 1 ml/kg from the beginning of keeping to improve the performance of native chickens effectively and increase the chicken’s immunity. It is suggested to mix marine fungi extract into the drinking water. Thus, its active compounds might be absorbed more effectively to improve the performance and produce healthy poultry products.
References
1. Abdelaleem, E. R., M. N. Samy, S. A. Ahmed, A. M. Aboulmagd, A. H. Alhadrami, and M. E. Rateb, , Abdelmohsen, U.R., Desoukey, S. Y., 2022. The Red Sea marine sponge Spongia irregularis: metabolomic profiling and cytotoxic potential supported by in silico studies. Nat Prod Res . 36, 6359–6363. https://doi.org/10.1080/14786419.2022.2030328
2. Aniza, S. N., A. Andini, and I. Lestari, , 2019. Analisis residu antibiotik tetrasiklin pada daging ayam broiler dan daging sapi. J. SainHealth 3, 22. https://doi.org/10.51804/jsh.v3i2.600.22-32
3. Anton, Taufik, E., and Z. Wulandari, 2020. Studi Residu Antibiotika dan Kualitas Mikrobiologi Telur Ayam Konsumsi yang Beredar di Kota Administrasi Jakarta Timur. J. Ilmu Produksi dan Teknol. Has. Peternak. 8, 151–159. https://doi.org/10.29244/jipthp.8.3.151-159
4. Blunt, J. W., B. R. Copp, R. A. Keyzers, M. H. G. Munro, and M. R. Prinsep, 2014. Marine natural products. Nat. Prod. Rep. 31, 160–258. https://doi.org/10.1039/c3np70117d
5. BPS-Statistics Indonesia, 2023. Livestock in figures 2022. Badan Pusat Statistik Republik Indonesia, Jakarta.
6. Daud, M., Z. Fuadi, and M. Mulyadi, , 2017. Performan dan Persentase Karkas Ayam Ras Petelur Jantan pada Kepadatan Kandang yang Berbeda. J. Agripet 17, 67. https://doi.org/10.17969/agripet.v17i1.7557
7. Dewapriya, P., and S. Kim, 2014. Marine microorganisms: An emerging avenue in modern nutraceuticals and functional foods. Food Res. Int. 56, 115–125.
8. Djakatara, R. S., D. S. Wewengkang, and H. Rotinsulu, , 2019. Uji aktivitas antimikroba dari jamur laut yang berasosiasi dengan alga halimeda opuntia. Pharmacon 8, 41–50. https://doi.org/10.35799/pha.8.2019.29382
9. Hai, N. Van, and R. Fotedar, 2009. Comparison of the effects of the prebiotics (Bio-Mos® and β-1,3-D-glucan) and the customised probiotics (Pseudomonas synxantha and P. aeruginosa) on the culture of juvenile western king prawns (Penaeus latisulcatus Kishinouye, 1896). Aquaculture 289, 310–316.
10. Hariati, S., D. Wahjuningrum, M. Yuhana, K. Tarman, I. Effendi, and F. Saputra, 2018. Aktivitas Antibakteri Ekstrak Kapang Laut Nodulisporium sp. KT29 terhadap Vibrio harveyi. J. Pengolah. Has. Perikan. Indones. 21, 250–258. https://doi.org/10.17844/jphpi.v21i2.22855
11. Hermanianto, J., M. Nurwahid,and E. Azhar, 2008. Modul 1 : Pengetahuan bahan daging dan unggas. pang4221 – pengetahuan bahan pangan dan hewani. Universitas Terbuka, Tangerang Selatan, Indonesia. .
12. Lisnahan, C. V., Wihandoyo, Harimurti, and S., Zuprizal, 2018. Penentuan kebutuhan nutrien ayam kampung fase pertumbuhan yang dipelihara secara intensif dengan metode kafetaria. Universitas Gadjah Mada, Yogyakarta.
13. Mahendra, D. A., E. Tugiyanti, and E. Susanti, 2022. Pengaruh Pemberian Feed Additive dalam Pakan Sebagai Pengganti Antibiotik Terhadap Persentase Karkas Bagian Dada dan Paha Ayam Broiler. J. Anim. Sci. Technol. 4, 61–71.
14. Munira, M. L. O. Nafiu, and A. M Tasse, 2016. Performans Ayam Kampung Super Pada Pakan Yang Disubttusi Dedak Padi Fermentasi Dengan Fermentor Berbeda. J. Ilmu dan Teknol. Peternak. Trop. 3, 21–29. https://doi.org/10.33772/jitro.v3i2.1683
15. Nurmi, A., M. A. Santi, N. Harahap, and M. F. Harahap, 2018. Percentage of Carcass and Mortality of Broiler and Native Chicken Fed with Unfermented and Fermented Arenga Waste. J. Ilm. Peternak. Terpadu 6, 134–139. https://doi.org/http://dx.doi.org/10.23960/jipt.v6i3.p134-139
16. Permatasari, F. I., I. N. K. Besung, and H. Mahatmi, 2022. Detection of Antibiotic Residuals in Broiler Chicken and Ducks and Level of Farmers Awareness in Selemadeg Timur Tabanan of Bali. Bul. Vet. Udayana 14, 736–742. https://doi.org/10.24843/bulvet.2022.v14.i06.p17
17. Purnamasari, D. K., E. Erwan, S. Syamsuhaidi, S. Sumiati, K. G. Wiryawan, , V. Maslami, and G. Salsabila, 2024. Kajian Kualitas Nutrisi Pakan Terhadap Produktivitas Ayam Kampung Super di Kabupaten Lombok Timur. J. Sains Teknol. Lingkung. 10, 159–168. https://doi.org/10.29303/jstl.v10i1.643
18. Putri, A. B. S. R. N., Gushairiyanto, Depison, 2020. Bobot Badan dan Karakteristik Morfometrik Beberapa Galur Ayam Lokal. J. Ilmu dan Teknol. Peternak. Trop. 7, 256–263. https://doi.org/10.33772/jitro.v7i3.12150
19. Rajulani, C., S. Bahri, and S. Zainudin, 2022. Performance of superior kampung chicken given fermented tofu dregs using Microbacter Alfaafa-11. Gorontalo J. Equatorial Anim. 1, 81.
20. Sari, Hafid, H., and A. M. Tasse, 2016. Kajian produksi karkas dan non karkas ayam kampung dengan pemberian ransum komersial tersubstitusi tepung kulit biji kedelai. JITRO 67–80. https://doi.org/http://dx.doi.org/10.33772/jitro.v3i3.2571
21. Steel, R. G. D., J. H. Torrie, and D. A. Dickey, 1997. Principles and Procedures of Statistics: A Biometrical Approach, 3rd ed. McGraw-Hill, Michigan.
22. Sujionohadi, K., and A. I. Setiawan, 2017. Beternak ayam kampung petelur. Penebar Swadaya, Jakarta.
23. Suprijatna, E., 2010. Strategi Pengembangan Ayam Lokal Berbasis Sumber Daya Lokal dan Berwawasan Lingkungan. Semin. Nas. Unggas Lokal ke IV, 7 Oktober 2010 Fak. Peternak. Univ. Diponegoro 55–88.
24. Surbakti, B. M., Nurhayati, Nelwida, 2024. The Use of Marine Mushroom Extract (Nodulisporium sp.) as Feed Additive in the Ration of Native Chickens on Protein Utilisation Ratio. J. Peternak. Integr. 11, 151–159. https://doi.org/10.32734/jpi.v11i3.13596
25. Syamsuddin, Nafiu, L. O., M. Y. Madjid, D. Zulkarnain, N. S. Asminaya, A. S. Aku, and L. O. M. Munadi, 2023. Production Performance of Kampong Chicken Filled Feeding Containing Chicory Flour. Jambura J. Anim. Sci. 5, 1–7.
26. Tantina, 2014. Residu antibiotik fluorokuinolon pada daging ayam broiler di wilayah Jakarta Timur. Institut Pertanian Bogor, Bogor, Indonesia.
27. Tarman, K., 2020. Marine Fungi as a Source of Natural Products, in: Professor Se-Kwon Kim (Ed.), Encyclopedia of Marine Biotechnology. John Wiley & Sons Ltd, pp. 2147–2160.
28. Timur, N. P. V. T., M. Herawati, B. L. Syaefullah, and E. E. Bachtiar, 2020. Mortalitas dan Profil Organ Dalam Ayam Kampung yang diberi Fitobiotik Nanoenkapsulasi Minyak Buah Merah (Pandanus conoideus). J. Trit. 11, 16–23. https://doi.org/https://doi.org/10.47687/jt.v11i1.104
29. Untari, T., O. Herawati, M. Anggita, W. Asmara, A. E. T. H. Wahyuni, and M. H. Wibowo, 2021. The Effect of Antibiotic Growth Promoters (AGP) on Antibiotic Resistance and the Digestive System of Broiler Chicken in Sleman, Yogyakarta. BIO Web Conf. 33. https://doi.org/10.1051/bioconf/20213304005
30. Wahjuningrum, D., T. R. Efianda, K. Tarman, M. Yuhana, I. Effendi, and F. Saputra, 2020. Supplementation Of Nodulisporium sp. KT29 Induced by Vibrio harveyi As An Immunostimulant For Controlling Vibriosis In Vannamei White Shrimp Under Marine Culture System. J. Akuakultur Indones. 19, 95–105. https://doi.org/10.19027/jai.19.2.95-105
31. Wahjuningrum, D., K.Tarman, and I. Effendi, 2016. Feeding duration of dietary Nodulisporium sp. KT29 to prevent the infection of Vibrio harveyi on Pacific white shrimp Litopenaeus vannamei. AACL Bioflux 9, 1265–1277.
32. Wicaksono, S., E. Suprijatna, and U. Atmomarsono, , 2015. Feeding duration of emprit ginger powder (Zingiber officinale var. amarum) on performance of crossbred native chicken, in: Seminar Nasional Tentang Unggas Lokal V. Fakultas Peternakan dan Pertanian Universitas Diponegoro Semarang, Semarang, pp. 307–313.
33. Widhi, A. P. K. N., and I. N. Y. Saputra, 2021. Residu Antibiotik Serta Keberadaan Escherichia Coli Penghasil ESBL pada Daging Ayam Broiler di Pasar Kota Purwokerto. J. Kesehat. Lingkung. Indones. 20, 137–142. https://doi.org/10.14710/jkli.20.2.137-142
34. Zhao, G., W. Tang, J. Zhang, P. Shi, Y. Li, J. Wang, Q. Shen, H. Si, L. Jiang, X. Yu, H. Zhu, G. Chen, X. Zhang, and H. Jia, 2022. Deep-Sea-Derived Fungi as Valuable Producers of Cytotoxic Secondary Metabolites and Their Leads Potential. Front. Mar. Sci. 9, 1–16. https://doi.org/10.3389/fmars.2022.929561
35. Zulkarnain, D., R. Aka, H. Pebriani, L. O. Nafiu, M. A. Pagala, L. O. A. Sani, and L. O. M. Munadi, 2021. Persentase Karkas dan Giblet Ayam Kampung Super Diberi Pakan Imbangan Energi Metabolisme dan Protein Berbeda. J. Peternak. Lokal 3, 41–47. https://doi.org/https://doi.org/10.46918/peternakan.v3i2.1070
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