Blood Mineral Response of Local Duck Fed the Diet Containing Seaweed Gracilaria sp. Waste and Additives Multienzyme

Nurul Frasiska, Edjeng Suprijatna, Siti Susanti

Abstract


The study aimed to evaluate the blood mineral of Tegal ducks as a response to diet containing Gracilaria sp. waste and additive multienzyme. The study used 72 laying ducks of 22 weeks old which were allotted to 6 treatments, i.e. (1) control diet, (2) diet with multienzymes, (3) diet with 10% LG (4) diet with 10% LG + multienzyme, (5) diet with 12.5 % LG + multienzymes (6) diet with 15% LG + multienzyme. Commercial Multienzyme consisted of protease, amylase, pectinase, β-glucanase, xylanase, phytase, cellulase from Altech (Allzyme SSF) at a dose of 150 g / ton of feed. Gracilaria sp. waste was given in the form  of meal.  The results demonstrated that feed Gracilaria sp. waste and additives multienzymes significantly (P <0.05) increasing the levels of phosphorus, sodium, potassium and iron in the blood of local ducks, but not blood calcium levels (P> 0.05). The use of feed containing seaweed waste multienzyme coupled to a level 15% gave a good response in the blood mineral levels of local ducks compare to control. 




Keywords


Blood Mineral, Gracilaria sp. waste, Local Ducks, Multienzyme

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Abdallah AG, OM El-Husseiny, and KO Abdel–Latif. 2009. Influence of Some Dietary Organic Mineral Supplementations on Broiler Performance. International Journal of Poultry Science. 8: 291-298.

Abdurrahman ZH, YB Pramono, and N Suthama. 2016. Feeding Effect Of Inulin Derived From Dahlia Tuber Combined With Lactobacillus sp. on Meat Protein Mass Of Crossbred Kampong Chicken. Journal of the Indonesian Tropical Animal Agriculture. 41(1): 37-44.

Akbari M, and A Olfati. 2015. The Effects of Different Levels of Chlorella Microalgae on Blood Biochemical Parameters And Trace Mineral Concentrations of Laying Hens Reared Under Heat Stress Condition. International Journal of Biometeorology. 60(5): 757-762.

Alamsjah MA, RF Christiana, S. Subekti. 2011. Pengaruh Fermentasi Limbah Rumput Laut Gracilaria Sp. Dengan Bacillus subtilis terhadap Populasi Plankton. Jurnal Ilmiah Perikanan dan Kelautan. 3(2): 203-213 (Article in Bahasa)

Arifin, Z. 2008. Beberapa Unsur Mineral Esensial Mikro dalam Sistem Biologi dan Metode Analisisnya. Jurnal Litbang Pertanian. 27(3): 99-105. (Article in Bahasa)

Ariyani, Eni. 1997. Penetapan Kalsium dalam Plasma dan Serum Darah dengan Teknik AAS. Lokakarya Fungsional Non Peneliti. Balai penelitian Ternak Ciawi Bogor (Article in Bahasa)

Cabrita AR, MR Maia, HM Oliveira, I Sousa-Pinto, AA Almeida, E Pinto, and AJ Fonseca. 2016. Tracing Seaweeds as Mineral Sources for Farm Animals. Journal of Applied Phycology. 28(5): 3135-3150.

Frasiska N, E Suprijatna, and S Susanti, 2016. Effect of Diet Containing Gracilaria Sp. Waste and Multi-Enzyme Additives on Blood Lipid Profile of Local Duck. Animal Production, 18(1): 22-29.

Haryanti AM. 2008. Kapasitas Penyerapan dan Penyimpanan Air pada Berbagai Ukuran Potongan Rumput Laut Gracilaria verrucosa sebagai Bahan Dasar Pupuk Organik. Bioma. 10(1) : 1-6 (Article in Bahasa)

Hu, Bin, Qianhong Gong, Ye Wang, Yiming Ma, Jingbao Li, and Wengong Yu. 2006. Prebiotic Effects of Neoagaro-Oligosaccharides Prepared by Enzymatic Hydrolysis of Agarose. Anaerobe, 12(5): 260-266.

Jankowski J, J Juśkiewicz, K Lichtorowicz, and Z Zduńczyk. 2012. Effects Of The Dietary Level And Source Of Sodium On Growth Performance, Gastrointestinal Digestion And Meat Characteristics In Turkeys. Animal Feed Science and Technology. 178(1): 74-83.

Jiang MJ, JP Zhao, HC Jiao, XJ Wang, Q Zhang, and H Lin. 2015. Dietary Supplementation with Sodium Bicarbonate Improves Calcium Absorption and Eggshell Quality of Laying Hens During Peak Production. British Poultry science. 56(6): 740-747

Kiarie E, LF Romero, and CM Nyachoti. 2013. The Role of Added Feed Enzymes in Promoting Gut Health in Swine and Poultry. Nutrition Research Reviews. 26(1): 71-88.

Ministry of Trade. 2013. Rumput Laut Indonesia. Warta Ekspor. Jakarta.

Mutucumarana KR, V Ravindran, G Ravindran, and J Cowieson. 2014. Influence of Dietary Calcium Concentration on the Digestion of Nutrients along the Intestinal Tract of Broiler Chickens. The Journal of Poultry Science. 51(4): 392-401.

Ochoa L, JDJP Michel, and J Olmos-Soto. 2013. Complex Carbohydrates as A Possible Source of High Energy to Formulate Functional Feeds. Advances in Food and Nutrition Research. 73: 259-288.

Oktavia Y, A Andhikawati, T Nurhayati, and K Tarman. 2014. Karakterisasi Enzim Kasar Selulase Kapang Endofit dari Lamun. Jurnal Ilmu dan Teknologi Kelautan Tropis. 6(1): 209-218 (Article in Bahasa)

Ozturk E, N Ocak, A Turan, G Erener, A Altop , and S Cankaya. 2012. Performance, Carcass, Gastrointestinal Tract and Meat Quality Traits, and Selected Blood Parameters of Broilers Fed Diets Supplemented With Humic Substances. Journal of the Science of Food and Agriculture. 92(1): 59-65.

Patel S, and A Goyal. 2011. Functional Oligosaccharides: Production, Properties And Applications. World Journal of Microbiology And Biotechnology. 27(5): 1119-1128.

Pranata, A. R. 2015. Profil Kalsium dan Fosfor Plasma Darah Itik pada Perbedaan Imbangan Elektrolit Ransum Itik yang Dipelihara Intensif Pada Kondisi Minim Air. Students e-Journal 4(2): 1-7

Pugh R, and Chalfont. 1993. The Scope For Enzymes In Comercial Feed Formulations. Asia Pasific Lecture Alltech. Nicholasville, Kentucky (Research Report)

Quigley EM. 2010. Prebiotics and Probiotics: Modifying and Mining the Microbiota. Pharmacological Research. 61(3): 213-218.

Rusinek-Prystupa E, J Lechowski, W Zukiewicz-Sobczak, P Sobczak, and K Zawislak. 2014. Influence of Citrosept Addition to Drinking Water and Scutellaria Baicalensis Root Extract on The Content of Selected Mineral Elements in Blood Plasma of Turkey Hens. Annals of Agricultural and Environmental Medicine, 21(3): 595-600.

Shields RJ, and I Lupatsch. 2012. Algae for Aquaculture and Animal Feeds. J Anim Sci. 21: 23-37.

Sinulingga M, S Darmanti. 2007. Kemampuan Mengikat Air oleh Tanah Pasir yang Diperlakukan Dengan Tepung Rumput Laut Gracilaria Verrucosa. Jurnal Anatomi Fisiologi. 15(2): 32-38 (Article in Bahasa)

Suttle Neville F. 2010. Mineral Nutrition of Livestock 4th Edition. Cabi Press. London. 587 pages

Tillman AD, H Hari, R Soedomo, P Soeharto, L Soekanto. 1982. Ilmu Makanan Ternak Dasar. UGM Press, Yogyakarata. 422 pages

Tirajoh S, WG Piliang, and PP Ketaren. 2014. Suplementasi Enzim Pemecah Serat dan Fitase terhadap Performans Ayam Broiler. Indonesian Journal of Animal and Veterinary Sciences. 19(3): 40-46 (Article in Bahasa)

Tuohy KM, GCM Rouzaud, WM Bruck, and GR Gibson. 2005. Modulation of The Human Gut Microflora Towards Improved Health Using Prebiotics-Assessment of Efficacy. Current Pharmaceutical Design. 11(1): 75-90.

Underwood, Eric. J. 1980. The Mineral Nutrition of Livestock. Commonwealth Agricultural Bureaux, Scottland.

Wang JP, JD Kim, JE Kim, and IH Kim. 2013. Amino acid digestibility of single cell protein from Corynebacterium ammoniagenes in growing pigs. Animal Feed Science and Technology. 180(1): 111-114.

Wu S.C., TN Wen, and CL Pan. 2005. Algal-oligosacharides-lysates Preparen by Two Bacterial Agarase Stepwise Hydrolyzed and Their Anti-oxidative Properties. Fisheries Science. 71(5): 1149-1159

Yaswir R, and I Ferawati. 2012. Fisiologi dan Gangguan Keseimbangan Natrium, Kalium dan Klorida serta Pemeriksaan Laboratorium. Jurnal Kesehatan Andalas. 1(2): 80-85 (Atricle in Bahasa).

Yunita WK, W Sarengat, and E Suprijatna. 2015. Fermented Seaweed (Gracilaria verrucosa) Waste Flour on Layer Japanese Quail (Coturnix coturnix japonica). Animal Agricultural Journal, 4(1) :121-126. (Article in Bahasa).


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