Protection of Soybean Meal Using Mahogany Leaf Extract in Ruminant Diet on Rumen Fermentation Products

AOAC. 2005. Official Methods of Analysis. 15th Ed. Assosiation of Official Analytical Chemist, Washington DC Anggraeny, Y. N., Pamungkas, D., Mariyono, Krishna, N. H., Antari, R., Putri, A. S., & Apriliza, M. N. (2021). Evaluation of the use of plant organic components and probiotics on ruminal characteristics and as a decrease of methane. IOP Conference Series: Earth and Environmental Science, 648(1).

Benchaar, C., McAllister, T. A., & Chouinard, P. Y. (2008). Digestion, ruminal fermentation, ciliate protozoal populations, and milk production from dairy cows fed cinnamaldehyde, quebracho condensed tannin, or Yucca schidigera saponin extracts. Journal of Dairy Science, 91(12), 4765–4777.

Cahyani, R. D., Nuswantara, L. K., & Subrata, A. (2012). Pengaruh Proteksi Protein Tepung Kedelai dengan Tanin Daun Bakau Terhadap Konsentrasi Amonia, Undegraded Protein dan Protein Total Secara In Vitro. Animal Agricultural Journal, 1(1), 159–166.

Chumpawadee, S., Sommart, K., & Vongpralub, T. (2005). Estimation of Rumen Undegradable Protein with In Situ Nylon Bag and In Vitro Enzymatic Technique in Tropical Concentrate Feedstuffs. 2(1), 23–33.

Hikmawan. D., Erwanto, dan Muhtarudin. (2019). Pengaruh Substitusi Rumput Laut (Eucheuma Cottonii) Dalam Pakan Rumput Gajah (Pennisetum purpureum) terhadap Konsentrasi VFA Parsial dan Estimasi Produksi Gas Metana Secara In-Vitro. Angewandte Chemie International Edition, 6(11), 951–952., 3(April), 12–18.

El-Waziry, A., Nasser, M., & Sallam, S. (2005). Processing methods of soybean meal. Effect of roasting and tannic acid treated-soybean meal on gas production and rumen fermentation in vitro. J. Appl. Sci. Res, 1(July 2016), 313.

Filipek, J. and R. Dvorax. (2009). Deterination of the volatile fatty acids content in the rumen luquid: comparison of gas chromatograpy and capillary isotachophoresis. Acta Vet. Brno, 78, 627–633.

Herdian, H., Istiqomah, L., Febrisantosa, A., & Setiabudi, D. (2014). Pengaruh Penambahan Daun Morinda citrifolia sebagai Sumber Saponin terhadap Karakteristik Fermentasi , Defaunasi Protozoa , Produksi Gas dan Metana Cairan Rumen secara In Vitro. Jitv, 15(1), 99–104.

Hidayah, N. (2016). Utilization of Plant Secondary Metabolites Compounds (Tannin and Saponin) to Reduce Methane Emissions from Ruminant Livestock. WARTAZOA. Indonesian Bulletin of Animal and Veterinary Sciences, 11(2), 89–98.

Makkar, H. P. S. (2003). Quantification of Tannin in the Tree and Shrub Legumes: A Laboratory Manual. Kluwer Academic.

McSweeney, C. S., Palmer, B., McNeill, D. M., & Krause, D. O. (2001). Microbial interactions with tannins: Nutritional consequences for ruminants. Animal Feed Science and Technology, 91(1–2), 83–93.

Min, B. R., & Solaiman, S. (2018). Comparative aspects of plant tannins on digestive physiology, nutrition and microbial community changes in sheep and goats: A review. Journal of Animal Physiology and Animal Nutrition, 102(5), 1181–1193.

Mueller and Harvey, I. (2006). Unravelling the conundrum of tannins in animal nutrition and health†. Journal of the Science of Food and Agriculture, 86, 2010–2037.

Ogimoto, K., & Imai, S. (1981). Atlas of rumen microbiology. Tokyo : Japan scientific societies press.

Orskov, E. R. and M. R. (1996). Energy Nutrition in Ruminant. Elsevier Science Publisher.

Patra, A. K., & Saxena, J. (2010). A new perspective on the use of plant secondary metabolites to inhibit methanogenesis in the rumen. Phytochemistry, 71(11–12), 1198–1222.

Prasetiyono, B.W.H.E., Suryahadi, T. Toharmat, dan R. S. (2007). Strategi Suplementasi Protein Ransum Sapi Potong Berbasis Jerami dan Dedak Padi. Media Peternakan, 30(3), 207–217.

Puastuti, W., Mathius, I., & Yulistiani, D. (2014). Bungkil kedelai terproteksi cairan batang pisang sebagai pakan imbuhan ternak domba: In sacco dan in vivo. Jitv, 100:106–115.

Qori’ah, A., Surono, S., & Sutrisno, S. (2016). Sintesis protein mikroba dan aktivitas selulolitik akibat penambahan level zeolit sumber nitrogen slow release pada glukosa murni secara in vitro. Jurnal Ilmu-Ilmu Peternakan, 26(2), 1–7.

Rahmadi, D., Sunarso, Achmadi, J., Pangestu, E., Muktiani, A., Christiyanto, M., Surono, & Surahmanto. (2010). Ruminologi Dasar. Jurusan Nutrisi dan Makanan Ternak Fakultas Peternakan Universitas Diponegoro.

Rimbawanto, E. A., Yusiati, L. M., Baliarti, E., & Utomo, R. (2015). Effect of Condensed Tannin of Leucaena and Calliandra Leaves in Protein Trash Fish Silage on In Vitro Ruminal Fermentation, Microbial Protein Synthesis and Digestibility. Animal Production, 17(2), 83–91.

Rimbawanto. E. A, Suhermiyati, S., & Hartoyo, B. (2017). Produk Fermentasi dan Mikroba Rumen Domba Lokal yang Ransumnya Disuplementasi By Pass Protein. Prosiding LPPM Unsoed, 363-367.

Rindawati, N., Daniel, & Saleh, C. (2019). Uji fitokimia, uji toksisitas dan aktivitas antioksidan dari biji tumbuhan mahoni (Swietenia mahagoni (L) Jacq ). Jurnal Atomik, 4(2), 78–81.

Robert G.D. Steel dan James H. Torrie. (19993). Prinsip dan prosedur statistika : suatu pendekatan biometrik. Gramedia.

Roe, M.B., C.J. Sniffen, and L. E. C. (1990). No TitleTechniques for Measuring Protein Fractions in Feedstuffs. Proceedings of Cornell Nutrition Conference for Feed Manufactures, 81–88.

Siti Nuraliah, Agung Purnomoadi, L. K. N. (2015). Konsentrasi Asam Lemak Terbang dan Glukosa Darah Domba Ekor Tipis yang Diberi Bungkil Kedelai Terproteksi Tanin (Volatile Fatty Acid Concentration And Blood Glucose On Thin-Tailed Sheep Given With Tanine-Protected Soybean Meal). Jurnal Veteriner, 16(3), 448–456.

Stern, M.D., A. B. and S. C. (2006). New Concepts in Protein Nutrition in Ruminants. Annual Southwest Nutrition & Management Conference, 897–904.

Suhartanto, B., Utomo, R., Kustantinah, Budisatria, I. G. S., Yusiati, L. M., & Widyobroto, B. P. (2014). Pengaruh Penambahan Formaldehid Pada Pembuatan Undegraded Protein Aktivitas Mikrobia Rumen Secara in Vitro the Effect of Formaldehyde Inclusion on Undegraded Protein Processing and Its Supplementation Level on Complete Feed Pellet on in Vitro Rumen Microb. Buletin Peternakan, 38(3), 141–149.

Susilo, E., Nuswantara, L. K., & Pangestu, E. (2019). Evaluasi Bahan Pakan Hasil Samping Industri Pertanian Berdasarkan Parameter Fermentabilitas Ruminal secara In Vitro. Jurnal Sain Peternakan Indonesia, 14(2), 128–136.

Suwandyastuti, S. N. O. (2013). Pengaruh Nisbah Energi-Protein, Nitrogen-Sulfur dan Kalsium-Fosfor Terhadap Produk Metabolisme Rumen dan Kecernaan Substrat. Jurnal Agripet, 13(2), 1–6.

Tilley, J. M. A., & Terry, R. A. (1963). A Two‐Stage Technique For The In Vitro Digestion Of Forage Crops. Grass and Forage Science.

Waghorn, G. (2008). Beneficial and detrimental effects of dietary condensed tannins for sustainable sheep and goat production-Progress and challenges. Animal Feed Science and Technology.

Wahyuni, I. M. D., Muktiani, A., & Chirtianto, M. (2014). Penentuan Dosis Tanin Dan Saponin Untuk Defaunasi Dan Peningkatan Fermentabilitas Pakan. Agricultur, 53(9), 1689–1699.

Waldi, L. (2017). Pengaruh Penggunaan Bungkil Kedelai dan Bungkil Kelapa dalam Ransum Berbasis Indeks Sinkronisasi Energi Dan Protein Terhadap Sintesis Protein Mikroba Rumen Sapi Perah. Journal of Livestock Science and Production.

Weatherburn, M. . (1967). Fenol-hypoclorite reaction for determination of ammonia. Anal. Chem., 39, 971–974.

Yanuartono, Y., Nururrozi, A., Indarjulianto, S., & Purnamaningsih, H. (2019). Peran Protozoa pada Pencernaan Ruminansia dan Dampak Terhadap Lingkungan. TERNAK TROPIKA Journal of Tropical Animal Production, 20(1), 16–28.

Yusiati, L. M., Kurniawati, A., Hanim, C., & Anas, M. A. (2018). Protein Binding Capacity of Different Forages Tannin. IOP Conference Series: Earth and Environmental Science.

ZINN, R. A., & OWENS, F. N. (1986). a Rapid Procedure for Purine Measurement and Its Use for Estimating Net Ruminal Protein Synthesis. Canadian Journal of Animal Science, 66(1), 157–166.

View original article
JURNAL ILMU TERNAK DAN VETERINER

留言 (0)

沒有登入
gif
format_indent_decrease