Effects of Dosage of Mix.Microorganisms in Feed Raw Materials Fermentation Containing Sargassum sp. on Growth Performance, Chemical Body Composition and Hepatosomatic Index of Milkfish, Chanos chanos Forsskal
DOI:
https://doi.org/10.35911/torani.v1i2.4443Abstract
Mixed microorganisms consist of bacteria, fungi, yeasts, and molds that produce important enzymes to ferment raw materials, thereby increasing the nutrient content of milkfish feed. This study aims to examine various doses of mix. microorganisms fermented raw materials on growth performance, chemical composition of the body, and hepatosomatic index of milkfish. Milkfish weighing 28.40 ± 0.11 g is kept in hapa of 1 m3 and placed on brackish water ponds. The test feed contains Sargassum sp. and formulated from raw materials fermented with mix. microorganism (control, 10, 15 and 20 mL / 100 g). The experimental results show the relative growth rate (%) and the growth of biomass (g) of milkfish fed with fermented feedstock with a dose of 10 mL / 100 g (122.77 ± 3.00%, and 522.05 ± 12.19 g ), the real feed is higher than the other dose. The fat content, crude fiber, and energy of test fish fed with fermented feedstock with 10, 15, and 20 mL / 100 g doses were significantly lower, while the hepatosomatic index was significantly higher than the control. (91.11-97,78%), protein content and NFE or Nitrogen Free Extracts (66.81 ± 0.41 72.33 ± 0.28% and 0.88 ± 0.38- 2.24 ± 0.92%), hepatic and muscle glycogen (7.16 ± 0.25-7.3 ± 0.31 mg / g and 6.16 ± 0.16, 6.51 ± 0.35 mg / g) were the same in all treatments. Thus, a dose of 10 mL / 100 g feed ingredients is the best dose in fermenting feed ingredients.Keywords: fermentation, milkfish, mix. microorganism, artificial feed, Sargassum sp.Downloads
References
Amar B, Philip R, Singh ISB. 2006. Efficacy of fermented prawn shell waste as a feed ingredient for indian white prawn, Fenneropenaeus indicus. Aquaculture Nutrition. 12: 433‒442.
Amri M. 2007. Pengaruh Bungkil Inti Sawit Fermentasi Dalam Pakan TerhadapPertumbuhan Ikan Mas (Cyprinus carpio L.). Jurnal Ilmu-Ilmu Pertanian Indonesia. 1(9) : 71-76.
Aslamyah S. 2006. Peningkatan Peran Mikroba Saluran Pencernaan Untuk Memacu Pertumbuhan Ikan Bandeng (desertasi). Program Pascasarjana, Institut Pertanian Bogor. Bogor.
Aslamyah S. 2011. Effect of microbe Bacillus sp.and Carnobacterium sp. as feed additive on glukose content in blood, metabolic rate and energy balance in the omnivores phase giant gouramy, Osphronemus gouramy lac. Prosiding Seminar Nasional Perikanan dan Kelautan “Bringing the Better Science for the Better Fisheries and the Better Future” Pekanbaru, Riau, 26-27 Oktober 2011. ISBN 978-979-792-286-3.
Aslamyah S, Karim MY. 2012. Uji organoleptik, fisik dan kimiawi pakan buatan untuk ikan bandeng yang disubstitusi dengan tepung cacing tanah (Lumbricus sp.). Jurnal Akuakultur Indonesia. 11 (2):124–131.
Aslamyah S, Karim MY, Mirna. 2015. Konsumsi oksigen dan metabolisme ikan bandeng (Chanos chanos Forsskal) pada berbagai konsentrasi Lactobacillus sp. Prosiding Seminar Nasional Tahunan X Hasil Penelitian Perikanan dan Kelautan UGM, 8 Agustus 2015. ISBN: 978-602-71759-1-4
Aslamyah S, Karim MY, Badraeni, Tahya AM. 2016. Seaweed as a source of carbohidrat in the feed of milk fish (Chanos chanos forsskal). International journal of farmtech research. 9 (11): 64-67
Aslamyah S, Karim MY, Badraeni. 2017. Fermentasi tepung rumput laut dengan berbagai fermentor untuk meningkatkan kualitas sebagai bahan baku pakan ikan. Jurnal Akuakultur Indonesia. 16 (1): 11-17.
Barrows W. 1961. Microbiology Saunders. Company Philadelphia. Usa, 423 P.
Borlongan TG, Coloso RM. 1992. Requirements of juvenille milkfish (Chanos chanos Forskal) for essential amino acids. Nutrition. 123:125-132.
Boyd CE. 1990. Water Quality in Pond Aquaculture. Birmingham Publising. Alabama. 482 p.
Brown ML, Murphy BR. 2004. Seasonal Dynamic Of Direct And Indirect Condition Indices In Ralation To Energy Allocation In Largemouth Bass Micropterus salmonides (Lacepade). Ecology Of Freshwater Fish:13: 23-36. Blackwell Munksgaard.
Diamahesa WA. 2010. Efek Suplementasi Crude Enzim Cairan Rumen Pada Pakan Ikan Nila Oreochromis niloticus Berbasis Sumber Protein Nabati. Institut Pertanian Bogor, Bogor.
Ghaffari H, Ardalan AA, Sahafi HH, Babei MM, Abdollahi R. 2011. Annual Changes In Gonadosomatic Indeks (Gsi), Toguesole Cynoglossus Arel (Bloch & Schneider, 1801) In The Coastal Waters Of Bandar Abbas, Persian Gulf. Australian Journal Of Basic And Applied Scirnce. 5 (9): 1640-1646.
Handajani H. 2011. Optimalisasi substitusi tepung azolla terfermentasi pada pakan ikan untuk meningkatkan produktivitas ikan nila gift. Jurnal Teknik Industri. 12: 177–181.
Hatlen B, Helland BG, Helland SJ. 2005. Growth feed utilization and body composition in two size groups of Atlantic halibut (Hippoglossus hippoglossus) fed diets differing in protein and carbohydrate content. Aquaculture. 249:401-408.
Kim W, Bae S, Park K, Lee S, Choi W, Han S, Koh Y. 2011. Biochemical characterization of digestive enzymes in the black soldier fly, Hermetia illucens (Diptera: Stratiomyidae). Journal Of Asia Pasific Entomology. 14.
Marks DB, Marks AD, Smith CM. 2000. Biokimia Kedokteran Dasar: Sebuah Pendekatan Klinis. Penerbit Buku Kedokteran EGC. Jakarta
Muhiddin NH, Juli N, Aryantha INP. 2001. Peningkatan Kandungan Protein Kulit Ubi Kayu Melalui Proses Fermentasi. JMS. 6(1): 1-12.
National Research Council. 1988. Nutrient requirements of warm water fisher. National Academy of Sciences, Washington D.C.
Pinandoyo, Subandiyono, Heni A. 2015. Pemanfaatan Tepung Daun Singkong (Manihot utilissima) Yang Difermentasi Dalam Pakan Buatan Terhadap Pertumbuhan Benih Ikan Nila Merah (Oreochromis Niloticus). Jurnal Of Aquaculture Management And Technology. 4(2):51-59.
Prihadi DJ. 2007. Pengaruh Jenis dan Waktu Pemberian Pakan terhadap Kelangsungan Hidup dan Pertumbuhan Kerapu Macan (Epinephelus fuscoguttatus) dalam Keramba Jaring Apung di Balai Budidaya Laut Lampung. Jurnal Akuakultur Indonesia. 2(1):493-953.
Rachmawati D, Samidjan I, Sarjito. 2016. Substitusi tepung ikan dengan tepung cacing tanah (Lumbricus rubellus) dalam pakan buatan terhadap pertumbuhan kerapu macan (Epinephelus fuscoguttatus). Prosiding Seminar Nasional Kelautan 2016 Universitas Trunojoyo Madura, 27 Juli 2016, 321-327
Ratnawati E, Mustapa A, Anugriati. 2010. Penentuan factor pengelolaan yang mempengaruhi produksi ikan bandeng (Chanos chanos) di tambak Kabupaten Bone Provinsi Sulawesi Selatan. Balai Riset Perikanan Budidaya Air Payau, Maros. Forum Inovasi Teknologi Akuakultur 2010.
Rosmawati. 2004. Hidrolisis Pakan Buatan Oleh Enzim Pepsin Dan Pankreatin Untuk Meningkatkan Daya Cerna Dan Pertumbuhan Benih Ikan Gurame (Osphronemus gouramy Lae.). Tesis. Bogor: Sekolah Pascasarjana, Institut Pertanian Bogor.
Sadekarpawar S, Parikh P. 2013. Gonadosomatic and Hepatosomatic Indices of Freshwater Fish Oreocromis mossambicus in Response to a Plant Nutrient. Word Jurnal of Zoologi. 8 (1) : 110-118.
Santiago CB, Aldaba MB, Songalia ET. 1983. Effect of artificial diets on growth and survival of milkfish fry in freshwater. Aquaculture. 34(3):327-252.
Suarez MD, Sanz A, Bazoco J, Gallego MG. 2002. Metabolic effects of changes in the dietary protein: carbohydrate ratio in eel (Angilla anguilla) and trout (Oncorhynchus mykiss). Aquaculture International. 00:1-14.
Sukada IK, Biduri IGNG, Warmadewi DA. 2007. Pengaruh penggunaan pollard, kulit kacang kedelai dan pod kakao terfermentasi dengan ragi tape terhadap karkas dan kadar kolesterol daging itik bali jantan. Majalah Ilmiah Peternakan. 10: 1‒10.
Suprayudi MA, Dimahesa W, Jusadi D, Setiawati M, Ekasari J. 2011. Suplementasi crude enzim cairan rumen domba pada pakan berbasis sumber protein nabati dalam memacu pertumbuhan ikan nila (Oreochromis niloticus). Jurnal Iktiologi Indonesia. 11(2): 177-183.
Sutardi T. 2006. Landasan Ilmu Nutrisi Jilid 1. Departemen Ilmu Makanan Ternak.Bogor: Fakultas Peternakan IPB.
Winarno GG, Fardiaz S. 1997. Biofermentasi dan Biosintesa. Pratein Angkasa, Bandung. 109 hlm.
Downloads
Published
How to Cite
Issue
Section
