The Effect of The Use of Fish Flour as a Source of Protein in Complete Feeds on The Digestivenes of Fat, Crude Fiber and Nitrogen-Free Extract Ingredients in Bali Cattle Fattened

Authors

  • Agustinus Mau Mori universitas timor
  • Oktavianus Rafael Nahak Universitas Timor
  • Paulus Klau Tahuk Universitas Timor

DOI:

https://doi.org/10.32585/bjas.v4i2.2859

Abstract

The research has been carried out for 3 months, starting from May 13 to August 13, 2021 in the experimental cage of the Faculty of Agriculture, University of Timor, while the analysis of digestibility of fat, crude fiber, and Extract Material Without Nitrogen (EMWN) at the Chemistry Laboratory of the Faculty of Animal Husbandry, University of Nusa Cendana. The purpose of this study was to determine the effect of using fish meal as a protein source in a complete feed on the digestibility of fat, crude fiber, and EMWN in fattened male bali cattle. The method used in this study was a completely randomized design (CRD) which consisted of 3 treatments and 5 replications so that there were 15 experimental units. The treatments were: T1= Natural grass 30% + Milled corn 42% + Rice bran 13% + Brand Pollard 11% + Fish meal 4%, T2= Natural grass 30% + Milled corn 42% + Rice bran 9% + Brand Pollard 11% + fish meal 8%, T3=. Natural grass 30% + Milled corn 42% + Rice bran 5% + Brand Pollard 11% + fish meal 12%. The variables tested included Fat Digestibility (%), Crude Fiber Digestibility (%) and EMWN Digestibility%. The results of analysis of variance showed that digestibility of crude fat and digestibility of crude fiber had a significant effect (P<0.05) and digestibility of EMWN had no significant effect (P>0.05) on the percentage of digestibility of fat produced T1: 19.06%; T2; 34.11%; T3: 69.31%, digestibility of crude fiber produced T1: 42.13%; T2: 29.02%; T3: 18.52% and the resulting EMWN T1: 65.01%; T2: 60.28%; T3: 62.31%. It can be concluded that the use of completed feed prepared with fish meal containing 12% protein increased the crude fat digestibility value but the crude fat digestibility was lower when compared to 4% fish meal and 8% in fattened bali cattle. Meanwhile, the digestibility of EMWN was not affected by the use of different levels of fish meal in complete feeds.

References

Adrizal, A., Y. Yusrizal, S. Fakhri, W. Haris, E. Ali. and C. Angel. 2011. Feeding native laying hens diets containing palm kernel meal with or without enzyme supplementations: 1. Feed conversion ratio and egg production. J. Appl. Poult. Res. 20: 40-49

Amrullah, I. K. 2003. Nutrisi Ayam Petelur. Lembaga Satu Gunung Budi, Bogor.

Andrae JG, Duckett SK, Hunt CW, Pritchard GT, Owens FN. 2001. Effects of feeding high-oil corn to beef steers on carcass characteristics and meat quality. J Anim Sci 79: 582-588.

Andrew, SM, RA Erdman, and DR Waldo. 1995. Prediction of body compotition body cows at three physiological stages from deuterium oxide and urea dilution. J Dairy Sci 78: 1083-1095.

Anggorodi. R. 2005. Ilmu Makanan Ternak Umum. Gadjah Mada University Press. Jogjakarta.

Anonymous. 2000. Feed fishmeal to growing beef cattle for costeffective extra weight gain and leaner carcasses. Fishmeal Information Network (FIN). Press Release-12, 26 June 2000. 4 The Forum, Minerva Business Park, Peterborough, Cambridgeshire. PE2 6FT.

Anonymous. 2001a. Advisory Committee on Animal Feedingstuffs (ACAF). The use of fish meal in animal feeds. 8th Meeting of ACAF 28 February 2001. Agenda Item 3. London.

Anonymous. 2001b. Fish meal, Menhaden. Ingredients 101.com. PO. Box 420, Grafton, WI 53024.

Anonymous.1999. Feeding fish meal improves cow fertility. Fishmeal Information Network (FIN). Nutritional Paper 4. 4 The Forum, Minerva Business Park, Peterborough, Cambridgeshire. PE2 6FT, UK.

Arief, D., dan Arianti. (2000). Evaluasi ransum yang menggunakan kombinasi pollard & duckweed terhadap persentase berat karkas, bulu, organ dalam, lemak abdominal, panjang usus & sekum ayam kampung. Bogor: Institut Pertanian Bogor.

Ashes, J.R., B.D. Sieber, S.K. Gulati, A.Z. Cuthbertson, and T.W. Scott. 1992. Incorporation of nfatty acids of fish oil into tissue and serum lipids of ruminants. Lipids. 27 (8): 629-631.

Astuti A, Agus A, Budi SPS. 2009. The effect of highquality feed supplement addition on the nutrient consumption and digestibility of early lactating dairy cow, Buletin Peternakan 33 (2): 81-87.

Baba, S., A. Muktiani, A. Ako, A. Sanusi, dan I.A. Dagong. 2012. Produksi Complete Feed Berbahan Baku Lokal dan Murah Melalui Aplikasi Participatory.

Bakara O, Santoso L dan Heptarina D. 2012. Enzim Mananase dan Fermentasi Jamur untuk Meningkatkan Kandungan Nutrisi Bungkil Inti Sawit pada Pakan Ikan Nila BEST (Oreochromis niloticus). Jurnal Ilmu Perikanan dan Sumberdaya Perairan. (3) : 69-72.

Batan IW. 2002. Sapi Bali Dan Penyakitnya. Fakultas Kedokteran Hewan Universitas Udayana. Denpasar.

Budiman, A., T. Dhalika, B. Ayuningsih. 2006. Uji kecernaan serat kasar dan bahan ekstrak tanpa nitrogen (BETN) dalam ransum lengkap berbasis hijauan daun pucuk tebu (Saccharum officanirum). Jurnal Ilmu Ternak 6(2): 132-135

Burke, J.M., C.R. Staples, C.A. Risco, R.L. De La Sota, and W.W. Thatcher. 1997. Effect of feeding a ruminant grade Manhaden fish meal on reproductive and productive performance of lactating dairy cows. J. Dairy Sci. 80 : 3386- 3398.

Darmadja SDND. 1980. Setengah Abad Peternakan Sapi Tradisional dalam Ekosistem Pertanian di Bali. (Disertasi). Universitas Padjadjaran. Bandung.

Derrick, B., B. Rush, D. Toher, dan P. White. 2017. Test statistics for the comparison of means for two samples that include both paired and independent observations. Journal of Modern Applied Statistical Methods 16(1): 137-157

Deutschmann, K., C. Phatsara, C. Sorachakula, T. Vearasilp, W. Phunphiphat, A. Cherdthong, K. Gerlach and K.H. Sűdekum. 2017. In vitro gas production and in vivo nutrient digestibility and growth performance of thai indigenous cattle fed fresh and conserved pangola grass. Italian Journal of Animal Science 16(3): 521–529.

Diputro, Faris. 2008. Efek Berbagai Pakan Komplit terhadap Daya Cerna Bahan Kering dan Protein Kasar pada Sapi Perah. Skripsi. Fakultas Kedokteran Hewan Universitas Airlangga. Surabaya.

Dismawan, I. Wayan Heri, I. Ketut Ginantra and Ni Luh Suriani. 2014. Seleksi jenis tumbuhan pakan dan kandungan nutrien jenis tumbuhan yang dimakan sapi bali (Bos sondaicus) lepas sapih di daerah bukit badung selatan, kabupaten Badung, Bali. Jurnal Simbiosis II(2): 192–202.

Ensminger, M. E.1991. Animal Science. 9th Edition. Interstate Publisher, Inc. Danville, Illi ois

Farida, W. R., A. P. Sari, N. Inayah dan H. A. Nugroho. 2017. Analisis kebutuhan nutrien dan efisiensi penggunaan pakan bubur formulasi pada oposum layang (Petaurus breviceps Waterhouse, 1839). J. Biologi Indonesia. 13 (2): 305 – 314.

Ginting, S.P. 2009. Prospek penggunaan komplit pada kambing: tinjauan manfaat dan aspek bentuk fisik pakan serta respon ternak. Wartazoa Vol. 19 No: 64 -75

Guntoro, S. 2006. Membudidayakan Sapi Bali. Penerbit Kanisius, Yogyakarta.

Hadi, R. F., Kustantinah, dan H. Hartadi. 2011. Kecernaan In Sacco hijauan leguminosa dan hijauan non leguminosa dalam rumen sapi Peranakan Ongole. Buletin Peternakan 35(2): 79 – 85.

Handajani, H., 2012. Optimalisasi substitusi tepung Azolla terfermentasi pada pakan ikan untuk meningkatkan produktivitas ikan nila gift. Jurnal teknik industri, 12(2), pp.177-181.

Handiwirawan E. 2003. Penggunaan Mikrosatelit HEL 9 dan INRA 035 Sebagai Penciri Khas Sapi Bali. (Tesis). Program Pascasarjana. Institut Pertanian Bogor. Bogor.

Hartadi, H. S, Reksohadiprodjo. dan A. D, Tillman. 1990. Tabel Komposisi Pakan untuk Indonesia. Gadjah Mada University. Yogyakarta.

Kondo, M., M. Yoshida, M. Loresco, M. L. Lapitan, J. Rommel, V. Herrera, A. N. D. Barrio, Y. Uyeno, H. Matsui and T. Fujihara. 2015. Nutrient contents and in vitro ruminal fermentation of tropical grasses harvested in wet season in the Philippines. Advances in Animal and Veterinary Sciences 3(12): 694–699.

Lalujan LE, Suhartati Djarkasi GS, Thelma JN, Tuju, Dekie Rawung, Maria F. Sumual. 2017. Komposisi kimia dan gizi jagung lokal varietas manado kuning sebagai bahan pangan pengganti beras. J Tek Pertanian 8(1): 47-54.

Mandell, I.B., J.G. Buchanan-Smith, B.J. Halub, and C.P. Campbell. 1997. Effects of fish meal in beef cattle diets on growth performance, carcass characteristics, and fatty acid composition of longissimus muscle. J. Anim. Sci. 75: 910- 919.

Marzuqi, M. and Anjusary, D.N., 2013. Kecernaan nutrien pakan dengan kadar protein dan lemak berbeda pada juvenil ikan kerapu pasir (Epinephelus corallicola). Jurnal Ilmu dan Teknologi Kelautan Tropis, 5(2), pp.311-323.

Mathius, I. W., D. Yulistiani dan W. Puastuti. 2002. Pengaruh Substitusi Protein Kasar dalam Bentuk Bungkil Kedelai Terproteksi Terhadap Penampilan Domba Bunting dan Laktasi. JITV 7 (1): 22 – 29.

Maynard, L.A., J. K Loosil, H. F. Hintz and Warner, R.G., 2005. Animal Nutrition. McGraw-Hill Book Company. New York, USA.

Mayulu, H., Maulida, N., Yusuf, R., Rahmatullah, S.N., 2018. Effect of production cost on revenue of swamp buffalo farm business (Bubalus bubalis Linn.) in Hulu Sungai Utara Regency South Kalimantan Province. Jurnal Teknologi Pertanian Universitas Mulawarman, 13(2), 58-64.

McDonald, P. R., A. Edwards, J. F. D. Greenhalg dan C. A. Morgan. 2002. Animal Nutrition 6th Edition. Longman Scientific and Technical Co. Published in The United States with John Willey and Sons Inc, New York.

Muladno. 2012. Aplikasi Teknologi Perbibitan untuk Peningkatan Produksi Bakalan dan Kualitas Daging Sapi Nasional. Proc. Seminar Nasional Peningkatan Produksi dan Kualitas Daging Sapi Bali Nasional. Bali, 14 September 2012.

Noersidiq, A. 2015. Pengaruh Pemberian Tepung Kulit Nanas Yang Diberi Fermentasi Dengan Yoghurt Terhadap Retensi Bahan Kering, Protein Kasar dan Kecernaan Serat Kasar Pada Ayam Broiler Fase Awal. Skripsi. Fakultas Peternakan Universitas Jambi.

Palmquist, D.L., and D.J. Kinsey. 1994. Lypolysis and biohydrogenation of fish oil by ruminal microorganisms. J. Dairy Sci. 77. Supplement 1 : 350-357.

Paramita, W., W. E. Susanto dan A. B. Yulianto. 2008. Konsumsi dan kecernaan bahan kering dan bahan organik dalam haylase pakan lengkap ternak sapi Pernakan Ongole. J. Media Kedokteran Hewan. 24 (1) : 59 – 62.

Perry, TW, AE Cullison, and RS Lowrey. 2005. Feeds and Feeding. 6th Ed. Prentice Hall of Upper Saddle River. New Jersey.

Pike, I.H., E.L. Miller, and K. Short. 1994. The role of fish meal in dairy cow feeding. IFOMA Technical Bulletin 27 (August 1994). IFOMA, St Albans, Hertfordshire, UK.

Preston, T. R. dan R. A. Leng. 1987. Matching Ruminant Production System with Available Resources in Tropics and Sub-Tropics Panambul Book, Armidale. Australia.

Purnamasari, E., I.G. Bambang dan N.A. Andi. 2006. Potensi dan pemanfaatan bahan baku produk tepung ikan. EPP.Vol 3 No.2:1-7

Sanchez. C. (2009). Lignocellulosic residues: biodegration and bioconversion by fungi. Biotechnol. Advan, (27), 185-19.

Sandri, A. 2009. Suplementasi Blok Multinutrisi Berbasis Hijauan Lapangan terhadap Kecernaan In Vivo pada Domba Jantan. Departemen Peternakan, Fakultas Pertanian, Universitas Sumatera Utara, Medan.

Ilmu Makanan Ternak Dasar. Gadjah Mada University Press. Yogyakarta.

Tilman, A.D., Hartadi, H., Reksohadiprodjo, S., Prawirokusumo, S. dan Lebdosoekodjo, S., 1989. Ilmu Makanan Ternak Dasar. Cetakan ke 4. Gajah Mada University Press. Yogyakarta.

Toharmat, T., E. Nursasih, R. Nazilah, N. Hotimah, T. Q. Noerzihad, N. A. Sigit dan Y. Retnani. 2006. Sifat Fisik Pakan Kaya Serat dan Pengaruhnya Terhadap Konsumsi dan Kecernaan Nutrien Ransum Pada Kambing. Media Peternakan. 29 (3). Pp. 146 - 154.

Tulung, Y.L.R., A.F. Pendong, B. Tulung. 2020. Evaluasi nilai biologis pakan lengkap berbasis tebon jagung dan rumput campuran terhadap kinerja produksi sapi Peranakan Ongole (PO). Zootec 40(1): 363 – 379.

Utari F.D, Prasetiyono B.W.H.E, dan Muktiani A. 2012. Kualitas susu kambing peranakan Ettawa yang diberi suplementasi protein terproteksi dalam wafer pakan komplit berbasis limbah agroindustri. Animal Agriculture Journal, 1 (1): 427-441.

Wahyuni, I. M. D., A. Muktiani., dan M. Christiyanto. 2014. Kecernaan Bahan Kering dan Bahan Organik dan Degrabilitas Serat pada Pakan yang Disuplementasi Tanin dan Saponin. Agripet. 14(2): 115-124.

Widya, P.L., W.E. Susanto, A.B. Yulianto. 2008. Konsumsi dan kecernaan bahan kering dan bahan organik dalam haylase pakan lengkap ternak sapi Peranakan Ongole. Jurnal Media Kedokteran Hewan 24(1): 59 – 62.

Widyastuti, D.A., 2011. Kecernaan Bahan Kering dan Bahan Organik pada Hijauan Arachis hipogaea Dalam Pertanaman Tumpang Sari Arachis hipogaea – Zea mays saccharata dengan Inokulasi Rhizobium pada Tanah Bekas Legume. Skripsi. Program Studi Pendidikan Biologi IKIP PGRI Semarang. 124 hal.

Wijayanti, E., F. Wahyono dan Surono. 2012. Kecernaan nutrien dan fermentabilitas pakan komplit dengan level ampas tebu yang berbeda secara in vitro. Anim. Agric. J. 1 (1) : 167 – 179.

Williamson G dan Payne WJA. 1993. Pengantar Peternakan Di Daerah Tropis. Universitas Gajah Mada. Yogyakarta

Wina, E dan Susana. 2013. Manfaat Lemak Terproteksi Untuk Meningkatkan Produksi dan Reproduksi Ternak Ruminansia. Wartazoa. Bogor. 23(4): 176-184.

Winugroho, M., Suharyono, and Y. Widiawati. 2007. The effect of feeding Multi-nutrient Feed Supplement (MFS) and legor on PO cattle productivity. Proc. Seminar Nasional Teknologi Peternakan dan Veteriner. Bogor, 21–22 Agustus 2007

Wiseman, J. 1990. Variability in the Nutritive Value of Fast For Ruminant. In: Feedstuff Evaluatrion. Wiseman, J. And D.J.A. Cole (Eds). Butterworths pISSN 0852 – 2626 eISSN 2615 – 8698

Xu, Chuncheng, Y. Cai, N. Moriya and M. Ogawa. 2007. Nutritive value for ruminants of green tea grounds as a replacement of brewers’ grains in totally mixed ration silage. Anim. Feed Sci. Technol. 138: 228.

Yudono, B. F. Oesman, dan Hermansyah. 1996. Komposisi asam lemak sekam dan dedak padi. Majalah Sriwijaya. 32 (2) 8-11

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Published

2022-10-30

How to Cite

Mori, A. M., Nahak, O. R., & Tahuk, P. K. (2022). The Effect of The Use of Fish Flour as a Source of Protein in Complete Feeds on The Digestivenes of Fat, Crude Fiber and Nitrogen-Free Extract Ingredients in Bali Cattle Fattened. Bantara Journal of Animal Science, 4(2), 70–82. https://doi.org/10.32585/bjas.v4i2.2859

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