Pemberian Tepung Singkong yang Ditambahkan Isoamilase dalam Pakan terhadap Performa Ayam Broiler

Cassava Meal Feeding with Isoamilase Addition in Rations on Broiler Perform

  • M Rahmadani Author
  • W Hermana Departemen Ilmu Nutrisi dan Teknologi Pakan, Fakultas Peternakan, Institut Pertanian Bogor
  • Nahrowi Departemen Ilmu Nutrisi dan Teknologi Pakan, Fakultas Peternakan, Institut Pertanian Bogor
Keywords: broiler, isoamylase, cassava flour, performance

Abstract

Cassava has the potential use to replace corn as an energy source in poultry feed. However, the level of substitution is not optimal because of the difference ratio of amylose and amylopectin in maize and cassava. This study aimed to examine the effect of cassava flour with addition of isoamylase as a corn substitute in the ration on the performance of broilers. The material used in this study was 150 male day-old chicken broiler which were randomly divided into 3 treatments and 5 replications. The treatments were P0: 50% corn in the ration (control); P1: Substitution of 50% of corn by cassava flour; P2: Substitution of 50% of corn by cassava flour which contained 0.14% isoamylase. The variables measured were feed intake, body weight, weight gain, feed conversion ratio, income over feed and chick cost and mortality rate. Data from the complete randomized design were analyzed using Analysis of Variance, the significant results between the treatments were obtained by Duncan Multiple Range Test. The results showed that the substitution of corn by cassava flour without and with 0.14% isoamylase was not significantly affect final body weight, body weight gain, feed intake and feed conversion ratio. The most profitable Income over feed cost obtained was the treatment of P2 that is Rp 6,543.50. It can be concluded that the corn substitution by cassava flour without and with addition of 0.14% isoamylase was able to produce the same performance as broiler chickens fed with corn in the ration for five weeks of the study.


Key words: broiler, isoamylase, cassava flour, performance

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References

Duenas M, Manzano SO, Paramas AG, & Buelga SC. 2009. Antioxidant evaluation of o-methylated metabolites of catechins, epicatechin, and quersetin. Journal of Pharmaceutical and Biomedical Analysis. 51(2):443-449. DOI:10.1016/j.jpba.2009.04.007

Emma WMSM, Sjofjan O, Widodo E & Achmanu. 2013. Karakteristik usus halus ayam pedaging yang diberikan asam jeruk nipis dalam pakan. Jurnal Veteriner. 14(1):105-110

Gaffney M, O’ RR, Taylor PJ & Murphy R. 2015. A comparative assessment of the fatty acid profiles and antioxidant status of supermarket eggs. Journal of Applied Animal Nutrition. 1(5):112-115. DOI:10.1017/jan.2015.7

Genchev A, Mihaylova G, Ribarski S, Pavlov A & Kabakchiev M. 2008. Meat quality and composition in japanese quails. Trakia Journal of Sciences. 6(4):72-82.

Hasbullah I, Wulandari Z & Suci DM. 2018. Suplemen jus daun Afrika (Vernonia amygdalina) dalam air minum terhadap komposisi kimia dan kadar Malondialdehid telur puyuh (Coturnix coturnix japonica). Jurnal Ilmu Nutrisi dan Teknologi Pakan, 18 (2): 11-18

Hassan, NKNC, Taher,M & Susanti D. 2018. Phytochemical constituents and pharmacological properties of Garcinia xanthochymus- Review Biomedicine & Pharmacotherapy 106: 1378 – 1389

Hemshekhar, M, Sunitha K, Santhosh MS, Devaraja S, Kemparaju K, Vishwanath BS, Niranjana SR & Girish KS. 2011. An overview on genus garcinia: phytochemical and therapeutical aspects. Phytochemistry Reviews. 10: 325-351

Heyne K.1987. Tumbuhan Berguna Indonesia. Jilid III. Terjemahan, , Jakarta (ID): Badan Litbang KehutananYayasan Sarana Wana Jaya

Hidayat WA, Ardinigsih P& Jayuska A. 2018. Aktivitas antioksidan dan antibakteri fraksi etil asetat buah asam kandis (garcinia dioica blume) terenkapsulasi gelatin. Jurnal Kimia Khatulistiwa. 7(2):33-40.

Huang C. 2005. Identification of an antifungal chitinase from a potential biocontrol agent, Bacillus cereus. Journal of Biochemistry and Molecular Biology. 38(1):82-88.

Jena BS, Jayaprakasha GK, Singh RP & Sakariah KK. 2002a. Chemistry and biochemistry of hydrocitric acid from garcinia. Journal of Agricultural Food Chemistry. 50 (1) :10-22.

Jena BS, Jayaprakasha GK & Sakariah KK. 2002b. Organic acid from leaves, fruit and rinds of Garcinia Cowa. Journal of Agricultural Food chemistry. 50(12):3431-3434.

Laguerre M, Lecomte J. & Villeneuve P. 2007. Evaluation of the abilty oof antioxidants to counteract lipid oxidation: existing methods, new trends and challenges. Progress in Lipid Research. 4695): 244-282

Lucida H, Ben ES & Delita E. 2012. Pengembangan kulit buah kering asam kandis sebagai herbal medicine: optimasi formulasi tablet effervesen dan uji efeknya terhadap kenaikan berat badan dan pola makan tikus. Jurnal Sains dan Teknologi Farmasi. 17(2):126-136.

Raji AO, Girgiri AY, Alade K, & Jaure SA. 2015.Characteristics and proximate composition of japanese quail (coturnix japonica) carcass in a semi arid area of Nigeria.Trakia Journal of Science. 2:159-165.

Sahin N, Akdemir F, Orhan C, Kucuk O, Hayirli A & Sahin K. 2008. Lycopene-enriched quail egg as functional food for humans. Food Research International. 41(3):295-300.

Singh,RP, Murthy KNC,Jayaprakasha GK. 2002. Studies on the antioksidant activity of pomegranate (Punica grantum) peel and seed extracts using in vitro models. Journal of Agricultural and Food Chemical, 50 (1): 81-86

Song, KT, Chei SH & Oh HR. 2000. A Comparison of egg Quality of pheasant, chukar, quail and guinea fowl. Asian-Australasian Journal of Animal Science 13(7): 986-990

Sudarmadji S, Haryono SB & Suhardi.2007. Analisis Bahan Makanan dan Pertanian. Yogyakarta (ID): Liberty

Tolik D. Poawska E, Charuta A, Nowazewski S & Cooper R. 2014. Characteristics of egg parts, chemical composition and nutritive value of Japanese quail eggs-a Review. Folia Biologica (Krakow) 62(4): 287-292

Tursiman, Ardiningsih P, & Nofiani R. 2012. Total fenol fraksi etil asetat dari buah asam kandis (Garcinia Diocia Blume). Jurnal Kimia Khatulistiwa. 1:45-48

Valko M, Rhodes CJ, Moncola J, Izakovic M & Mazur M. 2006. Free radicals, metals and antioxidants in oxidative stress-induced cancer. Chemico-Biological Interactions. 160(1): 1-40.

Published
2021-04-30
How to Cite
Mardiah Rahmadani, Hermana, W., & Nahrowi, N. (2021). Pemberian Tepung Singkong yang Ditambahkan Isoamilase dalam Pakan terhadap Performa Ayam Broiler: Cassava Meal Feeding with Isoamilase Addition in Rations on Broiler Perform. Jurnal Ilmu Nutrisi Dan Teknologi Pakan, 19(1), 1-5. https://doi.org/10.29244/jintp.19.1.1-5

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