ABSTRAK. Tujuan penelitian adalah untuk mengetahui interaksi antara penambahan tepung daun waru (Hibiscus tiliaceus) (TDW) dan imbangan bahan kering (BK) jerami padi amoniasi (JPA) dan konsentrat terhadap konsumsi BK, kecernaan bahan organik (KBO) dan performan sapi Sumba Ongole (SO). Sebanyak 18 ekor sapi SO jantan dengan bobot awal 218,67 Kg ± 17,62. Pola faktorial 2 x 3 yang dirancang menurut Rancangan Acak Lengkap . Faktor pertama adalah imbangan BK JPA dan konsentrat masing-masing 35 : 65 (I₁) dan 30 : 70 (I₂). Konsentrat disuplementasi dengan TDW dengan level (ppm) 0% (W₁), 0,24% (W₂), dan 0,48% (W₃)sebagai faktor kedua. Konsumsi BK tiap sapi adalah 3,3% dari bobot hidup. Penambahan tepung daun Waru (Hibiscus tiliaceus) dan imbangan BK JPA dan konsentrat maupun interaksinya tidak berpengaruh nyata (P>0,05) terhadap konsumsi BK, KBO, performan sapi SO. KBO cenderung tinggi pada I₁W₂ dan performa cenderung baik level W₃ baik pada I₁ (1.27 kg ± 0.28 dan`17.21% ± 0.11) maupun I₂ (1.26 kg ± 0.08 dan 19.87% ± 0.03). Penambahan tepung daun waru pada konsentrat tidak direkomendasikan untuk memperbaiki KBO maupun performan sapi SO.

(Performances of sumba ongole cattle fed ammoniated rice straw and concentrate supplemented with waru leaf meal (Hibiscus tiliaceus)) 

ABSTRACT. The aim of this research was to find the interaction between supplementation of Hibiscus tilliaceus leaf meal (HLM) and dry matter (DM) ratio of ammoniated rice straw (ARC) and concentrate on DM intake (DMI), organic matter digestibility (OMD) and Sumba Ongole (SO) cattle performances. Eighteen of SO male cattle with the average of 21.67 Kg ±17.62 early body weight were used in this research. Completely Randomized Design with factorial pattern which consists of two factors (2 x 3) was applied. Those factors were DM ratio of ARC and concentrates of 35: 65 (I₁) and 30: 70 (I₂); and the concentrates that supplemented with HLM level (ppm) of 0% (W₁), 0.24% (W₂), and 0.48% (W₃). DMI of each cattle was 3.3% of body weigh. HLM supplementation and ARC and concentrates DM ratio as well as their interaction were not significantly effected (P> 0.05) on OMD, and SO cattle performances. OMD tended to increase at I₁W₂ and performances tended to be better at W₃ both I₁ (1.27 kg ± 0.28 and 17.21% ± 0.11) and I₂ (1.26 kg ± 0.08 dan 19.87% ± 0.03). HLB supplementation could not be recommended to improve OMD and SO cattle performances.

AOAC. 1990. Official Methods of Analysis. Association of Official Analytical Chemists, Washington, DC. USA.

Bata, M., dan Rustomo, B. 2009. Peningkatan Kinerja Sapi Potong Local melalui Rekayasa Amoniasi Jerami Padi Menggunakan Molasses dan Limbah Cair Tapioka. Laporan Hasil Penelitian. Riset Strategis Nasional. Universitas Jenderal Soedirman, Purwokerto.

Bata, M., Rustomo, B., dan Sumarmono, J., 2010. Peningkatan Kinerja Produksi Sapi Lokal di Pedesaan Melalui Strategi Pemberian Pakan dan Total Mixed Ration Berbasis Limbah Pertanian dan Agroindustri. Laporan Hasil Penelitian, Fakultas Peternakan Unsoed, Purwokerto.

Bata, M., Rustomo, B., Suwandyastuti, S.N.O., dan Rahayu, S., 2013. Kajian ekstrak etanol daun dan bunga Waru (Hibiscus tiliaceus) terhadap produk fermentasi rumen, populasi protozoa dan gas metan. Laporan Hasil Penelitian Hibah Tim Pascasarjana. Universitas Jenderal Soedirman, Purwokerto.

Balcells, J., Aris, A, A., Serrano, A., Seradj, R., Crespo, J., and Devant, M., 2015. Effects of an extract of plant flavonoids (Bioflavex) on rumen fermentation and performance in heifers fed high-concentrate diets. JAS. Vol. 90 No. 13: 4975-4984.

Beauchemin, K. A., and McGinn, S. M., 2006. Methane emissions from beef cattle: Effects of fumaric acid, essential oil, and canola oil. J. Anim. Sci. 84:1489–1496.

Benchaar, C., Wang, Y.,. Chaves, A. V.,. McAllister, T.A., and Beauchemin, K. A., 2007. Use of plant extracts in ruminant nutrition. Pages 465–489 in Advances in Medicinal Plant Research. S. N. Acharya and J. E. Thomas, ed. Research Signpost, Kerala, India.

Cheeke, P.R. 2000. Actual and potential applications of Yucca schidigera and Quillaja saponaria saponins in human and animal nutrition. Journal Animal Science 77 : 1-10.

Francis, G., Kerem, Z., and Makkar, H.P.S. 2002. The biological action of saponins in animal systems: a review. Br J Nutr. 88: 587– 605.

Gorgulu, M., S. Yurtseven, and I. Unsal. 2004. Effect of Yucca powder on fattening performance of male lambs. J Appl. Anim. Res. 25: 33–36.

Ichwani, F., B. Rustomo dan M. Bata. 2013. Pengaruh Penambahan Tepung Daun Waru(Hisbiscus tileaceus) dalam Ransum Sapi Lokal Berbasis Jerami Padi Amoniasi Terhadap Kecernaan Bahan Kering dan Bahan Organik. Jurnal Ilmiah Peternakan. 2:554-560.

Jalaludin. 1994. Uji banding Gamal dan Angsana sebagai sumber protein, daun kembang sepatu dan minyak kelapa sebagai agensia defaunasi dan suplementasi analog hidroksi metionin dan ammonium sulfat dalam ransum pertumbuhan sapi jantan. Tesis Magister Program Pascasarjana, IPB, Bogor.

Kurniawati, A. 2009. Evaluasi Suplementasi Ekstrak Lerak (Sapindus Rarak) Terhadap Populasi Protozoa, Bakteri Dan Karakteristik Fermentasi Rumen Sapi Peranakan Ongole Secara In Vitro. Skripsi. Institut Pertanian Bogor. Hal : 16-17.

Leng, R. A., Birds, S.H., Klieve, A., Choo, B.S., Ball, F. M., Asafa, G., Brumby, P., Mudgal, V.D., Chaudrhry, U. B., Haryono, S. U. and Hendratno, N. 1992. The Potential for Free Forage Suplements to Manipulate Rumen Protozoa to Enhance Protein to Energi Rations in Ruminants Fed on Poor Quality Forages. In: Speedy, A. and Lugliese, P. L. Legume tress and other fodder tress as protein sources for livestock, FAO Animal Production and Health 102. Rome.

Molyneux, R.J, S.T. Lee, and D.R. Gardner. 2007. Phytochemicals: the good, the bad and the ugly? Phytochemistry 68, 2973–2985.

Newbold CJ, RJ Wallace, and FM. Mcintosh. 1997. Mode of Action of the Yeast Saccaromyces cerevisiae a Feed Addictive for Ruminant. British Journal Nutrition 76: 249-261.

Newbold, C. J., S. Lopez, N. Nelson, J. O. Ouda, R. J. Wallace, and A. R. Moss. 2005. Propionate precursors and other metabolic intermediates as possible alternative electron acceptors to methanogenesis in ruminal fermentation in vitro. Br. J. Nutr. 94:27–35.

Patra, A.K. and Saxena, J., (2009). The Effect and Mode of Action of Saponins on The Microbial Populations and Fermentation in The Rumen and Ruminant Production. Journal Nutrition Research Reviews. 22, 204-219.

Pertiwi, S. S., Bata, M., dan B. Rustomo. 2013. Pengaruh Pemberian Ekstrak Daun Waru (Hibiscus Tiliaceus) Sebagai Pakan Tambahan dalam Ransum Sapi Potong Lokal Terhadap Produksi Gas Total dan Propionat Secara In Vitro.Jurnal Ilmiah Peternakan 1 (1) : 62-68.

Patra, A.K.., Kamra D.N., and Agarwal, N., 2006. Effect of plant extracts on in vitro methanogenesis, enzyme activities and fermentation of feed in rumen liquor of buffalo. Anim Feed Sci Technol 128, 276–291.

Patra, A.K. and Saxena, J., 2009 The effect and mode of action of saponins on the microbial populations and fermentation in the rumen and ruminant production. Nutr. Res. Rev. 22: 204–219.

Putra. S., 2006. Pengaruh Suplementasi agensia defaunasi dan waktu inkubasi terhadap bahan kering, bahan organic terdegradasi dan produk fermentasi secara in-vitro. Animal Production, Vol.8. No2. 121 – 130.

Putra, D. T. B. 2011. Pengaruh Suplementasi Daun Waru (Hibiscus tiliaceus L.) terhadap Karakteristik Fermentasi dan Populasi Protozoa Rumen secara in vitro. Skripsi. Universitas Sebelas Maret. Surakarta. Hal: 17-41.

Santoso, B dan B. Tj. Hariadi. 2007. Pengaruh Suplementasi Acacia mangium Will pada Pennisetum purpureum terhadap Karakteristik Fermentasi dan Produksi Gas Metana In-Vitro. Journal Media Peternakan. Vol. 30 (2) : 106-113.

Steinfeld, H., Gerber, P., Wassenaar, T.,. Castel, V., Rosales, M., and deHaan. C 2006. Livestock’s Long Shadow; environmental issues and options. FAO, 2006.

Susanti, S. dan E. Marhaeniyanto. 2014. Kadar Saponin Daun Tanaman yang Berpotensi Menekan Gas Metana Secara In Vitro. Jurnal Buana Sains. Vol 14 No 1 : 29-38.

Sutardi, T. 1995. Peningkatan produksi ternak ruminansia melalui amoniasi pakan serat bermutu rendah, defaunasi dan suplementasi sumber protein tahan degradasi dalam rumen. Laporan penelitian Hibah Bersaing ¼ Perguruan Tinggi Tahun Anggaran 1995/1996, Fapet, IPB.

Wallace, R.J., 2004. Antimicrobial properties of plant secondary metabolites. 63, 621-629.

Wallace, R. J., Wood, T. A Rowe, A., Price, J., Yanez D. R., Williams S.P., and Newbold, C.J., 2006. Encapsulated fumaricacid as a means of decreasing ruminal methane emissions. Int. Congr. Ser. 1293:148–151.

Wina, E., Muetzel, S. and Becker, K. (2006) The Dynamics of Major Fibrolytic Microbes and Enzyme Activity In The Rumen In Response to Short- and Long-Term Feeding of Sapindus Rarak Saponins. Journal Applied Microbiol 100, 114-120.

Zinn, R.A.,. Alvarez, E.G., and Montano, M.F., 1998. Influence of tempering on the feeding value of rolled corn in finishing diets for feedlot cattle. J Anim Sci 76, 2239-2246.