The Effect of Zinc-Proteinate Supplementation on the In Vitro Digestibility and Ruminal Fermentation in Goat

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Gilbert Nathaniel
Tiara Annisa
Anis Muktiani
Dian Wahyu Harjanti
Widiyanto Widiyanto

Abstract

This study aimed primarily to investigate the effect of Zn-Proteinate (Zn-Prot) supplementation on in vitro rumen digestibility and rumen fermentation. This research used a completely randomized design with four treatments and four replicates. The experimental treatment was the supplementation of various levels of Zn-Prot (0; 12.5 ppm; 25 ppm, and 37.5 ppm) on a dry matter basis. Parameters determined were in vitro dry matter digestibility (IVDMD), in vitro organic matter digestibility (IVOMD), partial volatile fatty acid (VFA) (acetate, propionate, and butyrate), A/P ratio, CH4, and the efficiency of the conversion hexose to VFA. Data were analyzed using ANOVA. The results showed that goats fed with a diet supplemented with 25 ppm Zn-Prot had the highest IVDMD and IVOMD values. There was no significant effect on the VFA and CH4 concentrations, A/P ratio, and the efficiency of the hexose-VFA conversion within treatment groups. In conclusion, supplementing 25 ppm of Zn-Prot into the diet of dairy goat increase the dry matter and organic matter digestibility. 

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How to Cite
Nathaniel, G., Annisa, T., Muktiani, A., Harjanti, D. W., & Widiyanto, W. (2021). The Effect of Zinc-Proteinate Supplementation on the In Vitro Digestibility and Ruminal Fermentation in Goat. ANIMAL PRODUCTION, 23(3), 180-186. https://doi.org/10.20884/1.jap.2021.23.3.116

References

Aliarabi, H., A. Fadayifar, M. M. Tabatabaei, P. Zamani, A. Bahari, A. Farahavar and A. H. Dezfoulian. 2015. Effect of zinc source on hematological, metabolic parameters and mineral balance in Lambs. Biologycal Trace Element Research, 168(1): 82 – 90.
Arelovich, H. M., M. I. Amela, M. F. Martínez, R. D. Bravo and M. B. Torrea. 2014. Influence of different sources of zinc and protein supplementation on digestion and rumen fermentation parameters in sheep consuming low-quality hay. Small Ruminants Research, 121: 175 – 182.
AOAC. 1975. Official Methods of Analysis. 12th. Ed. Association of Official Analytical Chemistry, Washington, D. C.
Bateman, H. G., C. C.Williams, D. T. Gantt, Y. H. Chung, A. E. Beem, C. C. Stanley, G. E. Goodier, P. G. Hoyt, J. D. Ward and L. D. Bunting. Effect of zinc and sodium monensin on ruminal degradation of lysine-HCL and liquid 2-hydroxy-4-methylthiobutanoic acid. Journal of Dairy Sciences, 87(8): 2571 – 2577.
Bregman, E. N., R. S. Reid, Moira G. Murray, J. M. Brockway and F. G. Whitelaw. 1965. Interconversions and production of volatile fatty acids in the sheep rumen. Biochem. J. 97: 53 – 58.
Cope, C. M., A. M. Mackenzie, D. Wilde and L. A. Sinclair. 2009. Effects of level and form of dietary zinc on dairy cow performance and health. Journal of Dairy Sciences, 92: 2128 – 2135.
Elamin, K. M., N. A. Dafalla, K. A. Abdel Atti and A. A. Tameen Eldar. 2013. Effect of zinc supplementation on growth performance and some blood parameters of goats kids in Sudan. International Journal of Pure and Applied Biological Research and Sciences, 1(1): 1 – 8.
Ekawati, W., A. Muktiani dan Sunarso. 2015. Pengaruh penggunaan starter Lactobacillus plantarum pada silase ransum komplit berbahan enceng gondok terhadap VFA parsial, produksi gas metan dan glukosa darah domba. Jurnal Ilmu Ternak danVeteriner 4(1): 1 – 6.
Fariani. A. 2008. Micro mineral distribution on fiber fraction of forages in South Sumatra, Indonesia Journal of Indonesia Tropica Animal Agriculture, 33(1):79 – 86.
Faizah, L. I., W. Widiyanto and A. Muktiani. 2019. The effect of total or partial protected vegetable oil supplementation on in vitro digestibility, feed fermentability and energy efficiency. Bulletin of Animal Science, 43(3): 171 – 178.
Fellner, V., S. Durosoy, V. Kromm and J. W. Spears, PAS. 2021. Effects of supplemental zinc on ruminal fermentation in continuous cultures. Applied Animal Sciences, 37(1): 27 – 32.
Grag, A. K., V. Mudgal and R. S. Dass. 2008. Effect of organic zinc supplementation on growth, nutrient utilization and mineral profile in lambs. Animal Feed Science and Technology 144(1-2): 82 – 96.
Habeeb, A. A. M., A. A. El-Tarabany and A. E. Gad. 2013. Effect of zinc levels in diets of goat on reproductive efficiency, hormonal levels, milk yield, and growth aspects of their kids. Global Veterinaria, 10(5): 556 – 564.
Hassan, A. H., G. M. El Ashry and S. M. Soliman. 2011. Effect of supplementation of chelated zinc on milk production on ewes. Food and Nutrition Science, 2: 706 – 713.
Hapsari, S. N., D. W. Harjanti and A. Muktiani. 2018. Fermentabilitas pakan dengan imbuhan ekstrak daun Babadotan (Ageratum conyzoides) dan Jahe (Zingiber officinale) pada sapi perah secara in vitro. Agripet, 18(1): 1 – 9.
Hartati, E., A. Saleh, E. D. Sulistijo, G. Oematan, I Benu and Y. L. Henuk. 2020. Increasing propionate acid production in Bali Cattle through ZnSO4 and Zn-Cu isoleusinate supplementation as a strategy to mitigate methane gas production. Earth Enviroment Science, 454.
Hambakodu, M., A. Kaka dan Y. T. Ina. 2020. Kajian in vitro kecernaan fraksi serat hijauan tropis pada media cairan rumen kambing. Jurnal Ilmu dan Teknologi Peternakan Tropis 7(1): 29 – 34. (In Indonesia with abstract in English)
Hilal, E. Y., M. A. E. Elkhairey and A. O. A. Osman. 2016. The role of zinc, manganse and copper in rumen metabolism and immune function: A review article. Open Journal of Animal Science 6(4).
Hosseini-Vardanjani, S. F., J. Rezaei, S. Karimi-Dehkordi and Y. Rouzbehan. 2020. Effect of feeding nano-ZnO on performance, rumen fermentation, leukocytes, antioxidant capacity, blood serum enzymes and minerals of ewes. Small Ruminant Research 191: 1 – 8.
Hungate, R. E. 1966. The rumen and its microbes. Academic Press, New York and London. 544 pages.
Imanda, S., Y. Effendi, Sihono and I. Sugoro. 2016. Evaluasi in vitro silase Sinambung sorgum varietas Samurai 2 yang mengandung probiotik BIOS K2 dalam cairan rumen kerbau. Jurnal Ilmiah Aplikasi Isotop dan Radiasi, 12(1): 1 – 12. (In Indonesia with abstract in English)
Krisnan,R. B. Haryanto and K. G. Wiryawan. 2009. Pengaruh kombinasi penggunaan probiotik mikroba rumen dengan supplemen katalitik dalam pakan terhadap kecernaan dan karakteristik rumen domba. Jurnal Ilmu Ternak dan eteriner, 14(4): 262 – 269. (In Indonesia with abstract in English)
Mallaki, M., M. A. Norouzian and A. A. Khadem. 2015. Effect of organic zinc supplementation on growth, nutrient utilization and plasma zinc status in lambs. Turk. J. Vet. Anim. Sci. 39 : 75 – 80.
Muktiani, A., N. Arifah and Widiyanto. 2019. Influence of different vegetable oils on in vitro ruminal fermentability and nutrient digestibility in Ettawah Crossbred Goat. Animal Production 21(1): 22 –29.
Muktiani, A. and W. D. Prastiwi. 2014. Correlation protein and amino acid content in feed ingredients with zinc binding protein. Animal Production 16(2): 114 – 120.
Noziére, P., I. Ortigues-Marty, C. Loncke and D. Sauvant. 2010. Carbohydrate quantitative digestion and absorption in ruminants: from feed starch and fiber to nutrients available for tissues. The International Journal of Animal Biosciences, 4(7): 1057 – 1074.
NRC (National Research Council). 1981. Nutrient requirements of goats: angora, dairy and meat goats in temperate and tropical countries. National Academy Press: USA.
Ørskov, E. R. and M. Ryle. 1990. Energy Nutrition in Ruminants. Elsevier Science Publishers Ltd., London.
Pathak AK (2008). Various factors affecting the microbial protein synthesis in the rumen. Veterinary World, 6: 186-189.
Petrič, D., D. Mravčáková, K. Kucková, S. Kišidayová, A. Cieslak, M. Szumacher-Strabel, H. Huang, P. Kolodziejski, A. Lukomska, S. Slusarczyk, K. Čobanová and Z. Váradyová. 2021. Impact of zinc and/or herbal mixture on ruminal fermentation, microbiota, and histopathology in lambs. Front. Vet. Sci., 8
Putra, S. 2006. Perbaikan mutu pakan yang disuplementasi seng asetat dalam upaya meningkatkan populasi bakteri dan protein mikroba didalam rumen, kecernaan bahan kering dan nutrien ransum sapi Bali bunting. Majalah Ilmiah Peternakan, 9(1). (In Indonesia with abstract in English)
Purbowati, E., E. Rianto, W. S. Dilaga, C. M. S. Lestari and R. Adiwinarti. 2014. Karakteristik cairan rumen, jenis, dan jumlah mikrobia dalam rumen sapi Jawa dan Peranakan Ongole. Buletin Peternakan, 38(1): 21 – 26.
Puastuti, W., D. Yulistiani, I. W. Mathius, F. Giyai dan E. Dihansih. 2010. Ransum berbasis kulit buahkakao yang disuplementasi Zn organik: respon pertumbuhan pada domba. Jurnal Ilmu Ternak dan Veteriner 15(4): 269 – 277.
Puniya, A. K., R. Singh and D. N. Kamra. 2015. Rumen microbiology: From evolution to revolution. P. K.Choudhury, A. Z. M. Salem, R. Jena, S. Kumar, R. Singh and A. K. Puniya (Ed). Springer. New Delhi, India. Pp: 3 – 16.
Ransa, C. P., R. A. V. Tuturoong, A. F. Pendong and M. R. Waani. 2020. Kecernaan NDF dan ADF pakan lengkap berbasis tebon jagung pada sapi FH. Jurnal Zootek, 40(2): 542 – 551. (In Indonesia with abstract in English)
Rahayu, R. I., A. Subrata dan J. Achmadi. 2018. Fermentabilitas ruminal in vitro pada pakan berbasis jerami padi amoniasi dengan suplementasi tepung bongkol pisal dan molases. Jurnal Peternaan Indonesia 20(3) : 166 – 174. (In Indonesia with abstract in English)
Steel, R. G. D. and J. H. Torrie. 1994. Prinsip dan Prosedur Statistika Suatu Pendekatan Biometrik. Cetakan kedua. Translate by: B. Sumantri. Gramedia Pustaka Utama, Jakarta.
Suhada, A. T., E. Pangestu and L. K. Nuswantara. 2012. Kelarutan mineral Ca dan Zn hasil samping agroindustri pada kambing Jawarandu secara In Sacco. Animal Agriculture Journal, 1(1): 757 –775. (In Indonesia with abstract in English)
Suhendra, D., G. T. Anggiati, S. Sarah, A. F. Nasrullah, A. Thimoty and D. W. C. Utama. 2015. Tampilan kualitas susu sapi perah akibat imbangan konsentrat dan hijauan yang berbeda. Jurnal Ilmu-Ilmu Peternakan, 25(1) : 42 – 46. (In Indonesia with abstract in English)
Supriyati, D. Yulistiani, E. Wina, H. Hamid dan B. Haryanto. 2000. Pengaruh suplementasi Zn, Cu dan Moanorganik dan organik terhadap kecernaan rumput secara in vitro. Jurnal Ilmu Ternak dan Veteriner 5(1): 276 – 278. (In Indonesia with abstract in English)
Susilo, E., L. K. Nuswantara dan E. Pangestu. 2019. Evaluasi bahan pakan hasil samping industri pertanian berdasarkan parameter fermentabilitas ruminal secara in vitro. Jurnal Sain Peternakan Indonesia, 14(2): 128 – 136. (In Indonesia with abstract in English)
Tilley, J. M. A. and R. A. Terry. 1963. A two stage technique for in vitro digestion of forage crops. Journal British Grassland Society 18: 104 – 111.
Widodo, F. Wahyono and Sutrisno. 2012. Kecernaan bahan kering, kecernaan bahan organik, produksi VFA dan NH3 pakan komplit dengan level jerami padi berbeda secara in vitro. Animal Agricultural Journal, 1(1): 215 – 230. (In Indonesia with abstract in English)
Wang, R. L., J. G. Liang, Lin. Lu, Li Y. Zhang, Su F. Li and Xu G. Luo. 2013. Effect of zinc Source on performance, zinc status, immune response and rumen fermentation of lactating cows. Biological Trace Element Research, 152: 16 – 24.
Wahyuni, I. M. D., A. Muktiani dan M. Christiyanto. 2014. Kecernaan bahan kering dan bahan organic dan degradibilitas serat pada pakan yang disuplementasi tanin dan saponin. Jurnal Agripet 2(2): 115 -124. (In Indonesia with abstract in English)
Yurleni, R. Priyanto, E. Gunardi and K. G. Wiryawan. 2013. Efektivitas minyak ikan Lemuru terproteksi terhadap populasi mikrob rumen dan fermentasinya pada kerbau dan sapi. Jurnal Verteriner 14(3): 285 – 293. (In Indonesia with abstract in English)

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