Metabolism Energy and Performance of Several Local Cattle Breeds Fed Rice Straw and Concentrate
Abstract
Keywords
Full Text:
PDFReferences
Abbas W, Howard JT, Paz HA, Hales KE, Wells JE, Kuehn LA, Erickson GE, Spangler ML, Fernando SC. 2020. Influence of host genetics in shaping the rumen bacterial community in beef cattle. Sci Rep. 10: 15101. DOI: 10.1038/s41598-020-72011-9.
Agung PP, Anwar S, Wulandari AS, Sudiro A, Said S, Tappa B. 2015. The potency of sumba Ongole (so) cattle: A study of genetic characterization and carcass productivity. J Indones Trop Anim Agric. 40:71–78. DOI: 10.14710/jitaa.40.2.71-78.
Amtiran I, Nikolaus TT, Abdulah MS. 2016. Pemberian pakan komplit dengan rasio jerami padi dan konsentrat yang berbeda terhadap retensi nitrogen dan energi Kambing Kacang Betina. J Nukl Peternak. 3:136–142. DOI: 10.35508/nukleus.v3i2.799.
Anderson CL, Schneider CJ, Erickson GE, Macdonald JC, Fernando SC. 2016. Rumen bacterial communities can be acclimated faster to high concentrate diets than currently implemented feedlot programs. J Appl Microbiol. 120:588–599. DOI: 10.1111/jam.13039.
AOAC. 2019. Official methods of analysis. 21st editi. USA: AOAC International.
Auffret MD, Stewart R, Dewhurst RJ, Duthie CA, Rooke JA, Wallace RJ, Freeman TC, Snelling TJ, Watson M, Roehe R. 2018. Identification, comparison, and validation of robust rumen microbial biomarkers for methane emissions using diverse Bos taurus breeds and basal diets. Front Microbiol. 8:1–15. DOI: 10.3389/fmicb.2017.02642.
Basarab JA, Beauchemin KA, Baron VS, Ominski KH, Guan LL, Miller SP, Crowley JJ. 2013. Reducing GHG emissions through genetic improvement for feed efficiency: effects on economically important traits and enteric methane production. Animal. 7:303–315. DOI: 10.1017/S1751731113000888.
Bata M, Rahayu S. 2017. Evaluation of bioactive substances in Hibiscus tiliaceus and its potential as a ruminant feed additive. Curr Bioact Compd. 13:157–164. DOI: 10.2174/1573407213666170109151904.
Bata M, Rahayu S, Hidayat N. 2016. Performan Sapi Sumba Ongole (SO) yang diberi jerami padi amoniasi dan konsentrat yang disuplementasi dengan tepung daun Waru (Hibiscus tiliaceus). J Agripet. 16:106–113.
Beauchemin KA, Ungerfeld EM, Eckard RJ, Wang M. 2020. Review: Fifty years of research on rumen methanogenesis: Lessons learned and future challenges for mitigation. Animal. 14:s2–s16. DOI: 1017/S1751731119003100.
Besung INK, Watiniasih NL, Kade Mahardika GN, Karang Agustina K, Suwiti NK. 2019. Mineral levels of bali cattle (Bos javanicus) from different types of land in bali, Nusa Penida, and Sumbawa Islands (Indonesia). Biodiversitas. 20:2931–2936. DOI: 10.13057/biodiv/d201022.
Budiari NLG, Kertawirawan IPA, Adijaya IN, Yasa IMR. 2020. Pengaruh pemberian konsentrat terhadap pertumbuhan dan kecernaan pakan pada penggemukan Sapi Bali. J Pengkaj dan Pengemb Teknol Pertan. 23:81–90. DOI: 10.21082/jpptp.v23n1.2020.p83-92.
Cherdthong A, Wanapat M, Wongwungchun W, Yeekeng S, Niltho T, Rakwongrit D, Khota W, Khantharin S, Tangmutthapattharakun G, Phesatcha K, et al. 2014. Effect of feeding feed blocks containing different levels of urea calcium sulphate mixture on feed intake, digestibility and rumen fermentation in Thai native beef cattle fed on rice straw. Anim Feed Sci Technol. 198:151–157. DOI: 10.1016/j.anifeedsci.2014.10.016.
Cole HH, Ronning M. 1974. Animal Agriculture: The Biology of Domestic Animal and their Use by Man. 1st Editio. San Francisco (US): W. H. Freeman and Company.
Dittmann MT, Hebel C, Hammer S, Hummel J, Ortmann S, Arif A, Bouts T, Kreuzer M, Clauss M. 2014. Energy requirements and metabolism of the Phillip’s dikdik (Madoqua saltiana phillipsi). Comp Biochem Physiol - A Mol Integr Physiol. 167:45–51. DOI: 10.1016/j.cbpa.2013.09.014.
Guan LL, Nkrumah JD, Basarab JA, Moore SS. 2008. Linkage of microbial ecology to phenotype: Correlation of rumen microbial ecology to cattle’s feed efficiency. FEMS Microbiol Lett. 288:85–91.
Hau DK, Nulik J. 2017. Kajian pengembangan dan pemanfaatan tanaman pakan leguminosa mendukung peningkatan produksi ternak sapi di Nusa Tenggara Timur. In: Pros Semin Nas Teknol Peternak dan Vet 2017. Bogor: IAARD Press; p. 585–594. DOI: 10.14334/Pros.Semnas.TPV-2017-p.585-594.
Henderson G, Cox F, Ganesh S, Jonker A, Young W, Janssen PH, Abecia L, Angarita E, Aravena P, Arenas GN, et al. 2015. Rumen microbial community composition varies with diet and host, but a core microbiome is found across a wide geographical range. Sci Rep. 5:1–15. DOI: 10.1038/srep14567.
Hendri Y. 2013. Dinamika Pengembangan Sapi Pesisir sebagai Sapi Lokal Sumatera Barat. J litbang Pertan. 32:39–46.
Hernandez-Sanabria E, Goonewardene LA, Wang Z, Zhou M, Moore SS, Guan LL. 2013. Influence of sire breed on the interplay among rumen microbial populations inhabiting the rumen liquid of the Progeny in Beef Cattle. PLoS One. 8:1–15. DOI: 10.1371/journal.pone.0058461.
Huws SA, Creevey CJ, Oyama LB, Mizrahi I, Denman SE, Popova M, Muñoz-Tamayo R, Forano E, Waters SM, Hess M, et al. 2018. Addressing global ruminant agricultural challenges through understanding the rumen microbiome: Past, present, and future. Front Microbiol. 9:1–33. DOI: 10.3389/fmicb.2018.02161.
John Wallace R, Sasson G, Garnsworthy PC, Tapio I, Gregson E, Bani P, Huhtanen P, Bayat AR, Strozzi F, Biscarini F, et al. 2019. A heritable subset of the core rumen microbiome dictates dairy cow productivity and emissions. Sci Adv. 5:1–12. DOI: 10.1126/sciadv.aav8391.
Khan RU, Naz S, Dhama K, Karthik K, Tiwari R, Abdelrahman MM, Alhidary IA, Zahoor A. 2016. Direct-fed microbial: Beneficial applications, modes of action and prospects as a safe tool for enhancing ruminant production and safeguarding health. Int J Pharmacol. 12:220–231. DOI: 10.3923/ijp.2016.220.231.
Klau Tahuk P, Agung Dethan AAD, Sio S. 2017. Profil glukosa dan urea darah sapi Bali jantan pada penggemukan dengan hijauan (Greenlot Fattening) di Peternakan Rakyat. J Agripet. 17:104–111.
Kleden MM, Ratu MR., Randu MD. 2015. Kapasitas tampung hijauan pakan dalam areal perkebunan kopi dan padang rumput alam di Kabupaten Flores Timur Nusa Tenggara Timur. ZOOTEC. 35:340–350. DOI: 10.35792/zot.35.2.2015.9274.
Kong RSG, Liang G, Chen Y, Stothard P, Guan LL. 2016. Transcriptome profiling of the rumen epithelium of beef cattle differing in residual feed intake. BMC Genomics. 17:1–16. DOI: 10.1186/s12864-016-2935-4.
Kutsiyah F. 2012. Analisis pembibitan sapi potong di pulau Madura. Wartazoa. 22:113–126.
Kutsiyah F. 2016. Pengembangan agribisnis sapi bibit Madura melalui pendekatan One Tambon One Product (OTOP) di Pulau Madura. Maduranch. 1:29–40.
Ladeira MM, Schoonmaker JP, Swanson KC, Duckett SK, Gionbelli MP, Rodrigues LM, Teixeira PD. 2018. Review: Nutrigenomics of marbling and fatty acid profile in ruminant meat. Animal. 12:268–294. DOI: Review: Nutrigenomics of marbling and fatty acid profile in ruminant meat. DOI: 10.1017/S1751731118001933.
Li F, Hitch TCA, Chen Y, Creevey CJ, Guan LL. 2019. Comparative metagenomic and metatranscriptomic analyses reveal the breed effect on the rumen microbiome and its associations with feed efficiency in beef cattle. Microbiome. 7:1–21. DOI: 10.1186/s40168-019-0618-5.
Li F, Li C, Chen Y, Liu J, Zhang C, Irving B, Fitzsimmons C, Plastow G, Guan LL. 2019. Host genetics influence the rumen microbiota and heritable rumen microbial features associate with feed efficiency in cattle. Microbiome. 7:1–17. DOI: 10.1186/s40168-019-0699-1.
Liu J, Zhang M, Xue C, Zhu W, Mao S. 2016. Characterization and comparison of the temporal dynamics of ruminal bacterial microbiota colonizing rice straw and alfalfa hay within ruminants. J Dairy Sci. 99:9668–9681. DOI: 10.3168/jds.2016-11398.
Malmuthuge N, Guan LL. 2017. Understanding host-microbial interactions in rumen: Searching the best opportunity for microbiota manipulation. J Anim Sci Biotechnol. 8:1–7. DOI: 10.1186/s40104-016-0135-3.
Manu A. 2013. Produktivitas Padang Penggembalaan Sabana Timor Barat. Pastura J Trop Forage Sci. 3:25–29. DOI: 10.24843/Pastura.2013.v03.i01.p07.
Muktiani A, Arifah N, Widiyanto W. 2020. Influence of different vegetable oils on in vitro ruminal fermentability and nutrient digestibility in Ettawah Crossbred Goat. Anim Prod. 21:22–29.
Neno M. 2018. Korelasi bobot potong terhadap produksi karkas ternak Sapi Bali di RPH Kota Kefamenanu. J Anim Sci. 3:60–62. DOI: 10.32938/ja.v3i4.545.
Nugraha C, Maylinda S, Nasich M. 2015. Karakteristik Sapi Sonok dan Sapi Karapan pada umur yang berbeda di Kabupaten Pamekasan Pulau Madura. J Trop Anim Prod. 16:55–60. DOI: 10.21776/ub.jtapro.2015.016.01.9.
Palandi JF, Ngundjuawang AU. 2014. Analisis dan perancangan sistem informasi geografis lahan dan tata ruang wilayah peternakan di Kabupaten Sumba Timur berbasis Web. Teknol Inf Terap. 1:87–94.
Petrovski KR. 2017. Assessment of the Rumen Fluid of a Bovine Patient. J Dairy Vet Sci. 2:1–7.
Pinares-Patiño CS, Hickey SM, Young EA, Dodds KG, MacLean S, Molano G, Sandoval E, Kjestrup H, Harland R, Hunt C, et al. 2013. Heritability estimates of methane emissions from sheep. Animal. 7:316–321. DOI: 10.1017/S1751731113000864.
Priyono P, Priyanto D. 2018. Partnership program on Bali cattle fattening based on local resources in the suboptimal land area of Nusa Tenggara Timur. Indones Bull Anim Vet Sci. 28:61–68. DOI: 10.14334/wartazoa.v28i2.1652.
Rab SA, Priyanto R, Fuah AM, Wiryawan IKG. 2016. Daya Dukung dan Eisiensi Produksi Sapi Madura dengan Pemanfaatan Limbah Kacang Kedalai. J Ilmu Produksi dan Teknol Has Peternak. 4(3):340–344.
Roehe R, Dewhurst RJ, Duthie CA, Rooke JA, McKain N, Ross DW, Hyslop JJ, Waterhouse A, Freeman TC, Watson M, Wallace RJ. 2016. Bovine Host Genetic Variation Influences Rumen Microbial Methane Production with Best Selection Criterion for Low Methane Emitting and Efficiently Feed Converting Hosts Based on Metagenomic Gene Abundance. PLoS Genet. 12(2):1–20.
Ryle M, Ørskov ER. 1990. Energy Nutrition in Ruminants. Netherland: Springer.
Sari NF, Ridwan R, Rohmatussolihat, Fidriyanto R, Astuti WD, Widyastuti Y. 2019. The Effect of Probiotics on High Fiber Diet in Rumen Fermentation Characteristics. In: IOP Conf Ser Earth Environ Sci. Tanggerang, Indonesia: IOP Publishing; p. 1–7.
Sasson G, Ben-Shabat SK, Seroussi E, Doron-Faigenboim A, Shterzer N, Yaacoby S, Miller MEB, White BA, Halperin E, Mizrahi I. 2017. Heritable bovine rumen bacteria are phylogenetically related and correlated with the cow’s capacity to harvest energy from its feed. MBio. 8(4):1–12.
Soltan YA, Patra AK. 2020. Bee propolis as a natural feed additive: Bioactive compounds and effects on ruminal fermentation pattern as well as productivity of ruminants. Indian J Anim Heal. 59(2):50–61.
Steel RG., Torrie J. 1993. Prinsip dan Prosedur Statistika Suatu Pendekatan Biometrik. Jakarta: Gramedia.
Suryani NN, Mahardika IG, Putra S, Sujaya N. 2015. Sifat Fisik dan Kecernaan Ransum Sapi Bali yang Mengandung Hijauan Beragam. Indones J Anim Sci. 17(1):38–45.
Suryanto E, Bulkaini B, Soeparno S, Karda IW. 2017. Kualitas Karkas, Marbling, Kolesterol Daging Dan Komponen Non Karkas Sapi Bali Yang Diberi Pakan Kulit Buah Kakao Fermentasi. Bul Peternak. 41(1):72–78.
Syapura S, Bata M, Pratama WS. 2013. Peningkatan Kualitas Jerami Padi dan Pengaruhnya Terhadap Kecernaan Nutrien dan Produk Fermentasi Rumen Kerbau dengan Feces Sebagai Sumber Inokulum. J Agripet. 13(2):59–67.
Tapio I, Snelling TJ, Strozzi F, Wallace RJ. 2017. The ruminal microbiome associated with methane emissions from ruminant livestock. J Anim Sci Biotechnol. 8(1):1–11.
Umar M, Arifin M, Purnomoadi A. 2011. Ruminal condition between Madura cattle and Ongole Crossbred cattle raised under intensive feeding. J Indones Trop Anim Agric. 36(3):213–218.
Vera JK, Briceño EG, RuÃz A, Mayo R, Ayala A, Aguilar. CF, Solorio F, Ramirez L. 2014. Manipulación del metabolismo energético de los rumiantes en los trópicos: opciones para mejorar la producción y la calidad de la carne y leche. Rev Cuba Cienc AgrÃcola. 48(1):43–53.
Wallace RJ, Rooke JA, McKain N, Duthie CA, Hyslop JJ, Ross DW, Waterhouse A, Watson M, Roehe R. 2015. The rumen microbial metagenome associated with high methane production in cattle. BMC Genomics. 16(1):1–14.
Weimer PJ, Cox MS, Vieira de Paula T, Lin M, Hall MB, Suen G. 2017. Transient changes in milk production efficiency and bacterial community composition resulting from near-total exchange of ruminal contents between high- and low-efficiency Holstein cows. J Dairy Sci. 100(9):7165–7182.
Wisnuwati S, Dartosukarno, A Purnomoadi. 2014. Respon Fisiologis Harian Sapi Madura Jantan yang Diberi Pakan dengan Kuantitas Berbeda. Anim Agric J. 3(3):389–394.
Yantika SM, Alamsyari, Evvyernie D, Diapari D, Winaga K. 2016. Performance, carcass production, and meat quality of sumba ongole bulls fed ration supplemented velvet bean (Mucuna pruriens). Media Peternak. 39(1):20–26.
Zhang R, Zhu Weiyun, Zhu Wen, Liu J, Mao S. 2014. Effect of dietary forage sources on rumen microbiota, rumen fermentation and biogenic amines in dairy cows. J Sci Food Agric. 94(9):1886–1895.
Zhou M, Chung YH, Beauchemin KA, Holtshausen L, Oba M, McAllister TA, Guan LL. 2011. Relationship between rumen methanogens and methane production in dairy cows fed diets supplemented with a feed enzyme additive. J Appl Microbiol. 111(5):1148–1158.
Van Zijderveld SM, Gerrits WJJ, Dijkstra J, Newbold JR, Hulshof RBA, Perdok HB. 2011. Persistency of methane mitigation by dietary nitrate supplementation in dairy cows. J Dairy Sci. 94(8):4028–4038.
Refbacks
- There are currently no refbacks.
This work is licensed under a Creative Commons Attribution 4.0 International License.