Growth Performance and Digestive Enzyme Activity of Broiler Fed with Microwaved Flaxseed Flour (Linum usitatissimum)

  • R Churriyah Fakultas Peternakan Universitas Brawijaya
  • O Sjofjan Fakultas Peternakan Universitas Brawijaya
  • M H Natsir Fakultas Peternakan Universitas Brawijaya
Keywords: broiler, digestive enzyme activity, flaxseed flour, growth performance, microwave

Abstract

This research aimed to evaluate the effect of the use of microwaved flaxseed flour as broiler feed on the growth performance and digestive enzyme activity. The material used was 200 a-day-old chicks strain Lohmann MB Platinum. The method of this research was in vivo feeding trial using a Completely Randomized Design (CRD) with 5 treatments and 4 replications. The treatments included the use of flaxseed flour with levels of 0% (T0), 2.5% (T1), 5% (T2), 7.5% (T3), and 10% (T4). The variables measured were feed intake, body weight gain, feed conversion ratio, mortality, amylase, and protease activity. The data obtained were analyzed by Analysis of Variance (ANOVA) and Duncan’s Multiple Range Test (DMRT). The result showed that the treatments highly significant (p<0.01) increasing the amylase activity and decreasing the protease activity, but had no significant effect on the feed intake, body weight gain, feed conversion ratio, and mortality. It can be concluded that the use of microwaved flaxseed flour up to 10% did not give negative effect on broiler, but 2.5% showed the best result compared to other treatments.

Key words:        broiler, digestive enzyme activity, flaxseed flour, growth performance, microwave

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References

Abdullah MY, Muhammad A, Asmara IY, Widjiastuti T & Setiyatwan H. 2020. Studi potensi ekstrak kulit manggis (Garcinia mangostana L.) yang disuplementasi mineral tembaga dan seng terhadap pemanfaatan ransum ayam sentul. Jurnal Nutrisi Ternak Tropis dan Ilmu Pakan. 2(1): 51 – 59.

Allama H, Sjofjan O, Widodo E & Prayogi HS. 2012. Pengaruh penggunaan tepung ulat kandang (Alphitobius diaperinus) dalam pakan terhadap penampilan produksi ayam pedaging. Jurnal Ilmu-Ilmu Peternakan. 22(3): 1 – 8.

Anggitasari S, Sjofjan O & Djunaidi IH. 2016. Pengaruh beberapa jenis pakan komersial terhadap kinerja produksi kuantitatif dan kualitatif ayam pedaging. Buletin Peternakan. 40(3): 187 – 196.

Anjum FM, Haider MF, Khan MI, Sohaib M & Arshad MS. 2013. Impact of extruded flaxseed meal supplemented diet on growth performance, oxidative stability, and quality of broiler meat and meat products. Lipids in Health and Disease. 12(13): 1 – 12.

Avazkhanloo M, Shahir MH, Khalaji S & Anarkooli IJ. 2019. Flaxseed extrusion and expansion coupled with enzyme and pelleting changed protein and lipid molecular structure of flaxseed and improved digestive enzymes activity, intestinal morphology, breast muscle fatty acids and performance of broiler chickens. Animal Feed Science and Technology 260 :1 – 22.

Azizah NK, Sarmanu, Utomo B, Sabdoningrum EK, Lokapinasari WP & Supranianondo K. 2020. Pengaruh probiotik bakteri asam laktat dalam air minum terhadap konversi pakan ayam broiler. Journal of Basic Medical Veterinary. 9(2): 86 – 91.

Bergmeyer HV & Grassl. 1983. Method of Enzymatic Analisis 2. Weinheim (DE): Verlag Chemia.

Bhat TK, Kannan A, Singh B & Sharma OP. 2013. Value addition of feed and fodder by alleviating the antinutritional effects of tannin. Agricultural Research. 2(3): 189 – 206.

Buyse K, Delezie E, Goethals L, Noten NV, Ducatelle R, Janssens GPJ & Lourenco M. 2021. Chestnut tannins in broiler diets: performance, nutrient digestibility, and meat quality. Poultry Science. 100 (12): 1 – 11.

Fitro R, Sudrajat D & Dihansih E. 2018. Performa ayam pedaging yang diberi ransum komersial mengandung tepung ampas kurma sebagai pengganti jagung. Jurnal Peternakan Nusantara. 1(1): 2442 – 2541.

Ganorkar PM & Jain RK. 2014. Effect of microwave roasting on cyanogenic glycosides and nutritional composition of flaxseed. Bioinfolet. 11(2): 587 – 590.

Gheorghe A, Lefter NA, Idriceanu L, Ropota M & Habeanu M. 2020. Effects of dietary extruded linseed and Lactobacillus acidophilus on growth performance, carcass traits, plasma lipoprotein response, and caecal bacterial populations in broiler chicks. Italian Journal of Animal Science. 19(1): 822 – 832.

Hernandez FIL. 2013. Performance and fatty acid composition of adipose tissue, breast and thigh in broilers fed flaxseed: A Review. Current Research in Nutrition and Food Science. 1(2): 103 – 114.

Kajla P, Sharma A & Sood DR. 2015. Flaxseed – A potential functional food sources. Journal of Food Science Technology. 52(4): 1857 – 1871.

Leghari M, Leghari IH, Sethar A, Sethar GH & Sethar FM. 2017. Effect of linseed meal on broiler performance and fat content. Journal of Dairy and Veterinary Science. 4(1): 001 – 005.

Mishra DK & Awasthi H. 2020. Quality Evaluation of Flaxseed Obtained from Different Locations. Biology and. Life Science Forum. 4(70): 1 – 6.

Mridula D, Kaur D, Nagra SS, Barnwal P, Gurumayum S & Singh KK. 2011. Growth performance, carcass traits and meat quality in broilers fed flaxseed meal. Asian Australasian Journal of Animal Science. 24: 1729 – 1735.

Mridula D, Kaur D, Nagra SS, Barnwal P, Gurumayum S & Singh KK. 2015. Growth Performance and Quality Characteristics of Flaxseed-Fed Broiler Chicks. Journal of Applied Animal Research. 43(3): 345 – 351.

Pirmohammadi A, Khalaji S & Yari M. 2019. Effects of Linseed Expansion on its Dietary Molecular Structures, and Broiler Chicks Digestive Enzyme Activity, Serum Metabolites, and Ileal Morphology. The Journal of Applied Poultry Research. 28 (4) : 997 – 1012.

Popescu RG, Voicu SN, Pircalabioru GG, Gharbia S, Hermenean A, Georgescu SE, Panaite TD, Turcu RP & Dinischiotu A. 2021. Supplementation of flaxseed meal on intestinal morpholgy, specific enzymatic activity, and caecal microbiome on broiler chickens. Applied Sciences. 11 (6714): 1 – 15.

PT Japfa Comfeed Indonesia. 2019. Lohmann MB 202 (Pedaging) & MB 402 (Petelur) Guidance. Poultry Breeding Division. Accessed on 5th August 2022 from https://www.japfacomfeed.co.id/en/product-and-services/download/13.

Russo R & Reggiani R. 2013. Variability of antinutritive compounds in flaxseed flours. International Journal of Plant Biology. 4(3): 11 – 13.

Samtiya M, Aluko RE & Dhewa T. 2020. Plant food anti-nutritional factors and their reduction strategies: An overview. Food Production, Processing and Nutrition. 2(6): 1 – 14.

Shafey TM, Mahmoud AH, Hussein ES & Suliman G. 2014. The performance and characteristics of carcass and breast meat of broiler chickens fed diets containing flaxseed meal. Italian Journal of Animal Sciences. 13(4): 752 – 758.

Silondae H & Polakitan D. 2018. Pengaruh imbangan energi dan protein serta kepadatan kandang terhadap penampilan ayam pedaging. Jurnal Peternakan Indonesia. 20(3): 175 – 180.

Somogyi N. 1952. Notes on Sugar Determination. Journal of Biological Chemistry. 195: 19 – 23.

Standar Nasional Indonesia. 2015. Pakan Ayam Ras Pedaging (Broiler) – Bagian 3: Masa Akhir (Finisher). Jakarta (ID): Badan Standarisasi Nasional.

Sudarwati H, Natsir MH & Nurgiartiningsih VMA. 2019. Statistika dan Rancangan Percobaan (Penerapan dalam Bidang Peternakan). Malang (ID): UB Press.

Suhag R, Dhiman A, Deswal G, Thakur D, Sharanagat VS, Kumar K & Kumar V. 2021. Microwave processing: A way to reduce the anti-nutritional factors (ANFs) in food grains. Food Science and Technology. 150: 1 – 10.

Tistiana H, Sjofjan O, Widodo E, Djunaidi IH & Natsir MH. 2018. Efek penambahan enzim xilanase dengan level serat pakan berbeda terhadap penampilan produksi ayam pedaging. Jurnal Ternak Tropika. 19(1): 27 – 31.

Wooten MW & Wrenn RW. 1988. Linoleic acid is a potent activator of protein kinase C Type III – α isoform in pancreatic acinar cells; Its role in amylase secretion. Biochemical and Biophysical Research Communications. 153(1): 67 – 73.

Published
2022-08-31
How to Cite
ChurriyahR., SofjanO., & NatsirM. H. (2022). Growth Performance and Digestive Enzyme Activity of Broiler Fed with Microwaved Flaxseed Flour (Linum usitatissimum). Jurnal Ilmu Nutrisi Dan Teknologi Pakan (Nutrition and Feed Technology Journal), 20(2), 78-82. https://doi.org/10.29244/jintp.20.2.78-82