Growth Performance and Blood Profile of Broiler Chicken Fed Black Garlic and Curcuma in the Ration
Berliana Berliana(1), Nelwida Nelwida(2), Nurhayati Nurhayati(3*)
(1) Department of Animal Science, Faculty of Animal Science, Universitas Jambi, 36361, Indonesia
(2) Department of Animal Science, Faculty of Animal Science, Universitas Jambi, 36361, Indonesia
(3) Department of Animal Science, Faculty of Animal Science, Universitas Jambi, 36361, Indonesia
(*) Corresponding Author
Abstract
This study aims to determine the effect of feeding black garlic and curcuma in the ration on the growth performance and blood profile of broiler chickens. This research was conducted in the Faculty Farm and Integrated Laboratory of the Faculty of Animal Science, Universitas Jambi and Health Laboratory, Jambi Province. The research used 200 day old chicken broiler (DOC) with strains of New Lohman MB 202. The experiment was carried out using a Completely Randomized Design (CRD) with 5 treatments and 4 replications, 10 chickens each. The treatments were: P0 = 100% commercial feed (control), P1 = P0 + 3.0% black garlic + 0% curcuma, P2 = P0 + 2.0% black garlic + 1.0% curcuma, P3 = P0 + 1.0% black garlic + 2.0 % curcuma and P4 = P0 + 0% black garlic + 3.0% curcuma. Parameters measured were bodyweight gain, feed consumption and conversion ratio, and blood cholesterol profile (total cholesterol, triglycerides, LDL and HDL). The data were analyzed according to the design used, and highly significant effect on parameter would be tested by Duncan's multiple range test. The results of this study showed that the treatment had a significant effect (P<0.05) on feed consumption, bodyweight gain, feed conversion ratio dan blood cholesterol properties. Duncan's test showed that feeding 2% of black garlic and 1% curcuma significantly (P<0.05) increased feed consumption as well as bodyweight gain and HDL whereas cholesterol, triglycerides and LDL decreased significantly (P<0.05). It is concluded that combination of 2% black garlic and 1% curcuma can improve growth performance up to 5% and blood profile of broilers (total cholesterol, Triglyceride and LDL decreased 8.62%, 36.59% and 28.43% respectively, HDL increased 9.15% approximately).
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Andara, T. 2019. Pengaruh Penambahan Tepung Bawang Putih dan Bawang Putih Hitam dalam Ransum Terhadap Retensi Zat Makanan pada Puyuh. Fakultas Peternakan Universitas Jambi.
Aniza, S. N., A. Andini, and I. Lestari. 2019. Analisis residu antibiotik tetrasiklin pada daging ayam broiler dan daging sapi. Jurnal Sain Health 3: 22 – 32.
Arief, M. I., R. Novriansyah, I. T. Budiarto, and M. Bimo. 2012. Potensi bunga karamunting (Melastoma malabathricum L) terhadap kadar kolesterol total & trigliserida pada tikus putih jantan hiperlipidemia yang di induksi protipiltiourasil. Jurnal Kefarmasian 2: 118-126
Arshami, J., M. Pilevar, M. A. Azghadi and A. R. Raji. 2012. Hypolipidemic & antioxidative effects of Curcumin on blood parameters, humoral immunity, and jejunum histology in Hy-line hens. Avicenna Journal of Phytomedicine 3: 178-185.
Auza, F. A. and A. M. Tasse. 2015. Efektivitas pemberian serbuk kunyit, bawang putih dan Mineral zink terhadap kadar kolesterol darah pada broiler. JITT 2: 21-27.
Bae, S. E., S. Y. Cho, Y. D. Won, S. H. Lee and H. J. Park. 2012. A comparative study of the different analytical methods for analysis of sallylcysteine in black garlic by HPLC.LWT. Food Sci. Tech. 46: 532-535.
Bae, S. E., S. Y. Cho, Y. D. Won, S. H. Lee, and H. J. Park. 2014. Changes in S-AllylCysteine contents and phsicochemical properties of black garlic during heat treatment. LWT–Food Sci. Tech. 55: 397-402.
Berliana, Nurhayati, and Nelwida. 2018. Penggunaan tepung bawang putih (Allium sativum Linn) hitam (TBH) dalam ransum terhadap kadar kolesterol darah dan lemak kuning telur puyuh (Coturnix-coturnix japonica). Fakultas Peternakan, Universitas Jambi.
Budiarto, A. A., A. P. Wibowo, S. A. Putri, N. N. Shabrina, D. Ngestiningsih, and K. Tjahjono. 2017. Pengaruh pemberian ekstrak rimpang temulawak (Curcuma Xanthorrhiza Roxb.) dan jintan hitam (Nigella Sativa) terhadap profil lipid tikus Sprague Dawley dislipidemia. Majalah Kedokteran Bandung MKB 49: 8–14.
Campbell, J. H., J. L. Efendy and N. J. Smith. 2001. Molecular basis by which garlic suppresses atherosclerosis. Journal of Nutrition. 131: 1006S–1009S.
Choi, I. S., H. S. Cha, and Y. S. Lee. 2014. Physicochemical and antioxidant properties of black garlic. Molecules, 19:16811-16823. doi:10.3390/molecules 191016811
Dermawaty, D. E. 2015. Potential extract curcuma (curcuma xanthorrizal, roxb) as antibacterials. J. Majority 4: 5 – 11.
Dono, N. D. 2010. Kualitas daging ayam boiler yang mendapatkan tepung bawang putih dan tepung curcuma dalam ransum. JITV 15: 81-87.
Etikaningrum and S. Iwantoro. 2017. Kajian residu antibiotika pada produk ternak unggas di Indonesia. Jurnal Ilmu Produksi dan Teknologi Hasil Peternakan 05: 29 – 33.
Fouad, M., H. K. El-Senousey, X. J. Yang and J. H. Yao. 2013. Dietary L-arginine supplemen-tation reduces abdominal fat content by modulating lipid metabolism in broiler chickens. J. Animal. 7: 1239-1245.
Ha, A. W., T. Ying and W. K. Kim. 2015. The effects of black garlic (Allium satvium) extracts on metabolism in rats fed a high fat diet. Nutrition Research and Practice. 9: 30 – 36.
Harumi, M. P., G. Trisna, N. P. G. Odiyana, D. R. Aulia, A. A. A. P. Khrisnawati, and A. Farmawati. 2015. Quercetin and curcumin prevent decreasing of LDL-cholesterol and increasing of HDL cholesterol in high fat diet rats. Media Farmasi 12: 225 – 232.
Hasimun, P., E. Y. Sukandar, I. K. Adyana, and D. H. Cahyono. 2011. Synergetic effect of curcuminoid and S-methylCysteine in regulation of cholesterol homeostatis. Inter. J. Pharmacol. 7: 268-272. DOI 103923/ijp.2011.268.272.
Issa, K. J. and J. M. Abo Omar. 2012. Effect of garlic powder on performance and lipid profile of broilers. J. Anim. Sci. 2: 62-68.
Izadi, H., J. Arshami, A. Golian, and M. R. Raji. 2013. Effects of chicory root powder on growth performance & histomorphometry of jejunum in broiler chicks. Vet. Res. Forum. 4: 169–174 garlic (Allium sativum L.) extract. Kor. J. Food Sci. Tech. 40: 443-448.
Kim, I., J. Y. Kim, Y. J. Hwang, K. A. Hwang, A. S. Om, J. H. Kim, and K. J. Cho. 2011. The beneficial effects of aged black garlic extract on obesity and hyperlipidemia in rats fed a high-fat diet. J. Med. Plants Res. 5: 3159-3168 .
Kimura, S., Y. C. Tung, M. H. Pan, N. W. Su, Y. J. Lai, and K. C. Cheng. 2017. Black garlic: A critical review of its production, bioactivity, and application. Journal of Food and Drug Analysis 25: 62 – 70.
Kurniawan, R. 2019. Penambahan bawang putih fermentasi (black garlic) dalam ransum terhadap pertumbuhan ayam broiler. Skripsi, Fakultas Peternakan Universitas Jambi.
Lee, K. W., K. C. Lee, G. H. Kim, J. H. Kim, J. S. Yeon, S. B. Cho, B. J. Chang and S. K. Kim. 2016. Effects of dietary fermented garlic on the growth performance, relative organ weights, intestinal morphology, cecal microflora and serum characteristics of roiler chickens. Braz. J. Poult. Sci. 18: 511-518
Lisiswanti, R and F. P. Haryanto. 2017. Allicin pada bawang putih (Allium sativum) sebagai terapi alternatif diabetes melitus tipe 2. J. Majority 6: 31 – 36.
Liu, L. and Y. Y. Yeh. 2002. S-alk(en)yl cysteines of garlic inhibit cholesterol synthesis by deactivating HMG-CoA reductase in cultured rat hepatocytes. J. Nut.132: 29-34.
Masrianto, I. I. Arief, and E. Taufik. 2019. Analisis residu antibiotik serta kualitas daging dan hati ayam broiler di Kabupaten Pidie Jaya Provinsi Aceh. Jurnal Ilmu Produksi dan Teknologi Hasil Peternakan 07: 102-110.
Maya, F. L. R. D. and D. A. Widiasih. 2018. Identifikasi residu antibiotik pada daging ayam broiler di beberapa pasar wilayah Kota Yogyakarta dengan metode uji tapis (Screening Test). Skripsi. Fakultas Kedokteran Hewan, Universitas Gadjah Mada, Yogyakarta.
Moulia, M. N., R. Syarief, E. S. Iriani, H. D. Kusumaningrum, and N. E. Suyatma. 2018. Antimikroba ekstrak bawang putih (Antimicrobial of Garlic Extract). Pangan 27: 55 – 66.
Murray, R. K., D. A. Bender, K. M. Bothan, P. J. Kennelly, P. A Weil, and V. W. Rodwell. 2012. Harper’s Illustrated Biochemistry. The Mc Graw-Hill Companies. Inc. USA.
Murwani, R. 2010. Broiler Modern. Widya Karya, Semarang.
Mustikaningsih, F. 2010. Pengaruh pemberian berbagai level ekstrak kunyit terhadap kadar kolestrol, high density lipoprotein dan low density lipoprotein dalam darah pada ayam broiler. Fakultas Peternakan Universitas Dipoonegoro, Semarang.
Nelwida, Berliana and Nurhayati. 2019. Kandungan nutrisi black garlic hasil pemanasan dengan waktu berbeda. Jurnal Ilmu Ilmu Peternakan 22: 53 – 64.
Nurhayati. 2013. Penampilan ayam pedaging yang mengkonsumsi pakan mengandung tepung kulit nanas disuplementasi dengan yoghurt. Agripet 13: 15 – 20.
Nurhayati, Berliana and Nelwida. 2016. Performa ayam broiler yang mengkonsumsi kulit nanas yang difermentasi dengan yogurt dalam ransum mengandung gulma obat. Agripet 16: 31 – 36.
Putra, P. K. 2019. Rasio efisiensi penggunaan protein pada broiler yang diberi ransum komersil dengan penambahan Tepung bawang hitam (black garlic). Skripsi, Fakultas Peternakan, Universitas Jambi.
Raeesi, M,, S. A. Hoseini-Aliabad, A. Roofchaee, A. Zare Shahneh and S. Pirali. 2010. Effect of periodically use of garlic (allium sativum) powder on performance and carcass characteristics in broiler chickens. International Scholarly and Scientific Research & Innovation 4: 683-689.
Rahmat, D. and R. Wiradimadja. 2011. Pendugaan kadar kolesterol daging dan telur berdasarkan kolesterol darah pada puyuh Jepang. JIT.11: 35-38.
Rositawati, I., N. Saifut, and Muharlien. 2010. Upaya peningkatan performa itik Mojosari periode starter melalui penambahan curcuma (Curcuma xanthoriza, Roxb) pada pakan. Jurnal Ternak Tropika 11: 32-40.
Royani, M. 2012. Efek waktu mulai pemberian ransum setelah menetas dan implikasinya terhadap penampilan ayam broiler. Indonesian Journal of Applied Sciences IJAS 2: 10-14.
Rukmana, R. 1995. Temulawak: Tanaman rempah dan obat. Yayasan Kanisius, Yogyakarta.
Tana, S. and M. A. Djaelani. 2015. Kadar kolesterol daging ayam broiler setelah pemberian teh kombucha. Buletin Anatomi dan Fisiologi XXIII: 1-8.
Valtek Diagnostics. 1997. Total cholesterol (CHOD-PAP), HDL cholesterol, LDL cholesterol, triglycerides GPO-PAP. Available from: http://www.valtek diagnostics.com.
Wang, D., Y. H. Feng, J. Liu., J. Z. Yan, M. R. Wang, J. I. Sasaki and C. L. Lu. 2010. Black garlic extracts enhance the immune system. Med. Arom. Plant Sci. and Biotech. 4: 37-40.
Wu, L. Y., Y. J. Fang and X. Y. Guo. 2011. Dietary L-arginine supplementation beneficially regulates body fat deposition of meat-type ducks. Brit. Poult. Sci. 52: 221-226.DOI: https://doi.org/10.21059/buletinpeternak.v45i2.56742
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