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Jurnal Ilmu Nutrisi dan Teknologi Pakan
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Evaluasi Organoleptik Multinutrien Blok yang dibuat dengan Menggunakan Metode Dingin pada Perbedaan Aras Molases: Organoleptic Evaluation of Multinutrient Block Processed by the Cold Methods on Different Level of Mollases Istika Sri Handayani; BIM Tampubolon; A Subrata; RI Pujaningsih; w Widiyanto
Jurnal Ilmu Nutrisi dan Teknologi Pakan Vol. 17 No. 3 (2019): Jurnal Ilmu Nutrisi dan Teknologi Pakan
Publisher : Departemen Ilmu Nutrisi dan Teknologi Pakan Fakultas Peternakan Institut Pertanian Bogor

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (757.405 KB) | DOI: 10.29244/jintp.17.3.64-68

Abstract

This research aimed to evaluated and assessed the effect of the molasses level on organoleptic quality of multinutrient block (MnB). The materials used were corn forage, bentonite, urea, salt, molasses, water, blood clamshell and egg shells. The experimental designed used was a Completely Randomized Design with 4 treatments (T0 = MnB Formulation T0 + 0% of molasses, T1 = MnB Formulation T1 + 20% of molasses, T2 = MnB Formulation T2 + 35% of molases, and T3 = MnB Formulation T3 + 50% of molasses) and 4 replications. The variables observed were moisture content, texture, colored and aroma of MnB. The results showed that the addition of molasses had significantly (P <0.05) improved of MnB organoleptic quality. The conclusion for the study, that the multinutrient block formulation with 50% molasses resulted the best organoleptic quality. Key words: molasses, multinutrient block, organoleptic quality DAFTAR PUSTAKA Devendra C & Burns M. 1994. Produksi Kambing di Daerah Tropis. Bogor (ID) : Institut Pertanian Bogor Press Fathia N. 2006. Uji sifat fisik dan mekanik pakan ikan buatan dengan binder tepung tapioka. [skripsi]. Bandar Lampung (ID): Fakultas Pertanian Universitas Lampung. Garcia LO & Restrepo JIR. 1995. Multinutrient Block Handbook (FAO Better Farming Series no. 45). Rome (IT): Food and Agriculture Organization of United Nation. Hermawan, R Sutrisna & Muhtarudin. 2015. Kualitas fisik, kadar air, dan sebaran jamur pada wafer limbah pertanian dengan lama simpan berbeda. Jurnal Ilmu Peternakan Terpadu. 3 (2): 55 – 60 Ismi RS, Pujaningsih RI & Sumarsih S. 2017. Pengaruh penambahan level molases terhadap kualitas fisik dan organoleptik pakan kambing periode penggemukan. Jurnal Ilmu Petenakan. 5 (1): 58-63 Krisnan R & Ginting SP. 2009. Penggunaan Solid Ex-Decanter sebagai binder pembuatan pakan komplit berbentuk pellet: Evaluasi fisik pakan komplit berbentuk pellet. Bogor (ID): Seminar Nasional Teknologi Peternakan dan Veteriner. Bogor Litbang Pertanian Kurnia F, Suhardiman M, Stephani L & Purwadaria T. 2012. Peranan nano-mineral sebagai bahan imbuhan pakan untuk meningkatkan produktivitas dan kualitas produksi ternak. Wartazoa. 22 (4): 187 – 194 Pratama N, Djamas D & Darvina Y. 2016. Pengaruh variasi ukuran partikel terhadap nilai konduktivitas termal papan partikel tongkol jagung. Jurnal Pillar of Physics. 7 (1): 25 – 32 Santi RK, Fatmasari D, Widyawati SD & Suprayogi PS. 2012. Kualitas dan nilai kecernaan in vitro silase batang pisang (Musa paradisiaca) dengan penambahan beberapa akselerator. Jurnal Tropical Animal Husbandry. 1 (1): 15 – 23 Simanihuruk K & Sirait, J. 2010. Silase kulit buah kopi sebagai pakan dasar pada kambing boerka sedang tumbuh. Bogor (ID): Seminar Nasional Teknologi Peternakan dan Veteriner. Litbang Pertanian Syahri M, Retnani Y & Khotijah L. 2018. Evaluasi penambahan binder berbeda terhadap kualitas fisik mineral wafer. Bulletin Makanan Ternak. 16 (1): 24-35 Syukur A & Suharno B. 2014. Bisnis Pembibitan Kambing. Yogyakarta (ID): Penebar Swadaya, Toharmat T, Nurasih E, Nazilah R, Hotimah N, Noerzihad TQ, Sigit NA & Retnani Y. 2005. Sifat fisik pakan kaya serat dan pengaruhnya terhadap konsumsi dan kecernaan nutrien ransum pada kambing. Media Peternakan. 29 (3): 146 – 154 Triyanto E, Prasetiyono BWHE & Mukodiningsih S. 2013. Pengaruh bahan pengemas dan lama simpan terhadap kualitas fisik dan kimia wafer pakan komplit berbasis limbah agroindustri. Jurnal Animal Agriculture. 2 (1): 400 – 409. Warsy, Chadijah S & Rustiah W. 2016. Optimalisasi kalsium karbonat dari cangkang telur untuk produksi pasta komposit. Al-Kimia. 4 (2): 86 - 97 Widiastuti R. 2013. Kualitas pellet berbasis sisa pangan foodcourt dan limbah sayuran fermentasi sebagai bahan pakan fungsional ayam broiler. [tesis] Semarang (ID): Fakultas Peternakan dan Pertanian Universitas Diponegoro Yusmadi, Nahrowi & Ridla M. 2008. Kajian mutu dan palatabilitas silase dan hay ransum komplit berbasis sampah organik primer pada kambing Peranakan Etawah. Agripet. 8 (1): 31 – 38. Zakaria ZA B, Zakaria N & Kasim Z. 2014. Mineral composition of the cockle (Anadara granosa) shells, hard clamp (Meretrix meretrix) shells and corais (Porites spp.): a comparative study. Journal Animal Veterinary Advances. 3 (7): 445 – 447
Pengaruh Lama Peram Proses Fermentasi Kulit Kacang Tanah Amoniasi dengan Aspergillus niger terhadap Produksi VFA dan NH3 secara In vitro: The Effect of Incubation Time of Peanut Pods Ammoniating Fermentation Process by Aspergillus niger on in Vitro Volatile Fatty Acids (VFA) and Ammonia (NH3) Production ulfatul laikha; bim Tampubolon; A Subrata
Jurnal Ilmu Nutrisi dan Teknologi Pakan Vol. 17 No. 3 (2019): Jurnal Ilmu Nutrisi dan Teknologi Pakan
Publisher : Departemen Ilmu Nutrisi dan Teknologi Pakan Fakultas Peternakan Institut Pertanian Bogor

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (756.891 KB) | DOI: 10.29244/jintp.17.3.69-72

Abstract

The aim of this research was to examine the effect of fermentation time by Aspergillus niger on peanut shells ammoniated on VFA and NH3 production. The research was allocated in a completely randomized design with 4 treatments and 4 replications. The treatments were fermentation process of 0 days (T0), 5 days (T1), 10 days (T2) and 15 days (T3). The results showed that fermentation process with A. niger on the ammoniated peanut shells increased (p<0.05) the VFA and NH3 production. In an incubation time of 15 days, the highest VFA and NH3 production waas obtained. The average production of VFA were T0=153; T1=188; T2=193 and T3=203 mM respectively. Average of NH3 production in this study were T0=2,89; T1=3,61; T2=3,74 dan T3=3,90 mM respectively. It was conclusded that the fermentation process with A. niger on peanut shells ammoniated increased the VFA and NH3 production. The 15 days of fermentation process was the best time which produced the highest of VFA and NH3 production. Key words: Aspergillus niger, NH3, peanut shells, VFA DAFTAR PUSTAKA Badan Pusat Statistik. 2018. Provinsi Jawa Tengah dalam Angka. Semarang (ID): Badan Pusat Statistik Provinsi Jawa Tengah Basri E & Tambunan RD. 2016. Kajian pemanfaatan pakan berbasis bahan lokal yang berwawasan lingkungan untuk sapi potong di Lampung. Prosiding Seminar Nasional Inovasi Teknologi Pertanian Puslitbangtan. Banjar Baru (ID): Puslitbangtan Church DC& Pond WG. 1988. Basic Animal Nutrition and Feeding. 3rd edition. New York (US): John Wiley and Sons Danuarsa. 2006. Analisis proksimat dan asam lemak pada beberapa komunitas kacang-kacangan. Buletin Teknik Pertanian. 11(1): 1-9 DeVries &Visser J. 2001. Aspergillus enzymes involved in degradation of plant cell wall polysaccharides. Microbiology Molecular Biology Review. 65 (4): 497-522 Gunam IBWG, Buda K & Guna IMYS. 2010. Pengaruh perlakuan delignifikasi dengn larutan NaOH dan kosentrasi substrat jerami padi terhadap produksi enzim selulase dari Aspergillus niger. Jurnal Biologi. 15 (1): 55-61 Hastuti D, Shofia NA &. Tampoebolon BIM. 2010. Pengaruh perlakuan teknologi amofer (amoniasi fermentasi) pada hasil samping tongkol jagung sebagai alternative pakan berkualitas ternak ruminansia. Jurnal Mediagro. 7 (1): 55-65 Nurhaita, Definiati N & Suliasih. 2017. Pengolahan jerami padi sebagai pakan ternak sapi pada kelompok tani sido urip Desa Srikuncoro. Malang (ID): Prosiding Seminar Nasional dan Gelar Produk, UMM Prasetyo, H. 2014. Polimerisasi karet alam secara mekanis untuk bahan adiktif aspal. Jurnal Penelitian Karet. 32 (1): 81-87 Junior LKP, Swastini DA & Leliqia NPE. 2015. Pengaruh pemberian ekstrak etanol kulit kacang tanah dengan metode maserasi terhadap profil lipid pada tikus Sprague Dawley diet lemak tinggi. Jurnal Farmasi. 4 (1): 18-25 Komar, A. 1984. Teknologi Pengolahan Jerami sebagai Makanan Ternak. Bandung (ID): Yayasan Dian Grahita Indonesia Retnani Y, Permana IG, Kumalasari NR & Taryati. 2015. Teknik Membuat Biskuit Pakan Ternak dari Limbah Pertanian. Jakarta (ID): Penebar Swadaya Steel RGD & Torrie JH. 1991. Prinsip dan Prosedur Statistika. Terjemahan. Jakarta (ID): Gramedia Pustaka Utama, Jakart. Suhartati FM. 2005. Proteksi Protein Daun Lamtoro (Leucaena leucocephala) Menggunakan Tanin, Saponin, Minyak dan Pengaruhnya terhadap Ruminal Undegradable Protein (RUDP) dan Sintesis Protein Mikrobia Rumen. [skripsi] Purwokerto (ID): Fakultas Peternakan, Universitas Jenderal Soedirman Tillman, Harihartadi AD, Reksodiprojo S, Prawirokusumo S & Lebdosoekojo. 1998. Ilmu Makanan Ternak Dasar. Yogyakarta (ID): Gajah Mada University Press
Karakteristik dan Potongan Komersial Karkas Domba Muda Umur Lima Bulan dengan Ransum Komplit yang Disuplementasi Minyak Bunga Matahari: Characteristic and Commersial Cutting of Five Months Young Sheep Carcass that Fed by Complete Ration Contained Sunflower Seed Oil Lilis Khotijah; Tuti Suryati; M Fandi
Jurnal Ilmu Nutrisi dan Teknologi Pakan Vol. 17 No. 3 (2019): Jurnal Ilmu Nutrisi dan Teknologi Pakan
Publisher : Departemen Ilmu Nutrisi dan Teknologi Pakan Fakultas Peternakan Institut Pertanian Bogor

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1003.753 KB) | DOI: 10.29244/jintp.17.3.78-82

Abstract

The aim of the study was to evaluate the effect of graded levels of sunflower seed oil (SSO) supplementation on lamb five-month-old carcass characteristics and commercial cuts. Used 18 local male lambs, weaned, aged about 2 months, weight (10.21 ± 2.29 kg). Experimental design used group random design. Each group of sheep get a complete ration with a different level of sunflower seed oil (SSO), namely (P0) = 0% SSO (control); (P1) = 4% SSO; (P2) = 6% SSO. After animal five old age or 90 days feeding, randomly selected tree animals from each group were slaughtered The measured parameters include, weight slaughter, carcasses composition (meats, bones, fats), and commercial cuts of carcasses (leg, loin, shoulder, breast, neck, shank, flank, rack). The observation showed that the parameters are not affected by the treatment. It can be concluded that the addition of 6% sunflower oil in a complete ration keeping the characteristics and commercial cut of local lamb. Key words: slaughter weight, carcass composition, lamb, sunflower seed oil DAFTAR PUSTAKA [AUS-MEAT]. 2005. Sheep Meat. ISBN 0 9578793 69. https://www.ausmeat.com.au/media/1275/9-sheepmeat.pdf. Diunduh 15 Juni 2019. [BSN] Badan Standardisasi Nasional Indonesia. 2008. Mutu Karkas dan Daging Kambing/Domba. Standar Nasional Indonesia. 3925. Jakarta (ID): Badan Standardisasi Nasional Indonesia [NRC] National Research Council. 2007. Nutrient Requirements of Small Ruminants: Sheep, Goats, Cervids, and New World Camelids. Washington DC (US): The National Academies Pr. Ensminger M E. 2002. Sheep and Goat Science. Illinois (US): Interstate Publisher. Francisco A, Dentinho MT, Alves SPP, Portugal V, Fernandes F, Sengo S, Jerónimo E, Oliveira MA, Costa P, Sequeira A, Bessa RJB, Santos-Silva J. 2015. Growth performance, carcass and meat quality of lambs supplemented with increasing levels of a tanniferous bush (Cistus ladanifer L.) and vegetable oils. Meat Science. 100, p. 272-282. https://doi.org/10.1016/j.meatsci.2014.10.014 Gatenby RM, Doloksaribu M, Bradford GE, Romjaii GE, Batubara L, Mirza I. 1995. Reproductive performance of sumatera and hair sheep crossbred ewes. SR-CRSP Annual Report 1994 - 1995, Sungai Putih, Sumatera Utara. González L, Moreno T, Bispo E, Dugan MER, Franco D. 2014. Effect of supplementing different oils: Linseed, sunflower and soybean, on animal performance, carcass characteristics, meat quality and fatty acid profile of veal from “Rubia Gallega” calves. Meat Science. 96 (2): Part A. https://doi.org/10.1016/j.meatsci.2013.09.027 Hendri. 1986. Studi perbandingan distribusi perdagingan kambing kacang dan domba priangan pada dua tingkat umur. Karya Ilmiah. Fakultas Peternakan. Institut Pertanian Bogor. Herman R. 1993. Perbandingan pertumbuhan komposisi tubuh dan karkas antara domba Priangan dan Ekor Gemuk. [disertasi]. Fakultas Pasca sarjana. Institut Pertanian Bogor. Bogor. Lambuth TR, Kemp JD, Glimp HA. 1970. Effect of rate of gain a slaughter weight on lamb carcass composition. Journal of Animal Science. 30: 27-35. Marinova P, Banskalieva, VS Alexandrov, Tzvetkova S, Stanchev V. 2001. Carcass Composition and meat qulity of kids fed sunflower oil supplemented diet. Small Rumminant Resources. 42 (3): 217-22. https://doi.org/10.1016/S0921-4488(01)00245-0. Mir PS, McAllister TA, Zaman S, Morgan Jones, SD, He ML, Aalhus JL, Jeremiah LE, Goonewardene LA, Weselake RJ and Mir Z. 2003. Effect of dietary sunflower oil and vitamin E on beef cattle performance, carcass characteristics and meat quality. Canada Journal of Animal Science. 83: 53–66 Morgado E, Ezequiel JMB, Galzerano L, Sobrinho S. 2013. Performance and carcass characteristics of lambs fed with carbohydrate sources associated to sunflower oil. Bioscience Journal. 29 (3): 712-720 Purbowati E, Sutrisno CI, Baliarti E, Budhi SPS, Lestariana W. 2006. Karakteristik fisik otot longissimus dorsi dan biceps femoris domba lokal jantan yang dipelihara di pedesaan pada bobot potong yang berbeda. Jurnal Protein. 13(2):147-153 Rasmani. 2010. Komposisi fisik dan potongan komersial karkas domba lokal jantan pada tingkat kecepatan pertumbuhan yang berbeda dengan pemeliharaan secara intensif. Bogor (ID): IPB. Rousset-Akrim S, Young OA, Berdague JL. 1997. Diet and growth effects in panel assessment of sheepmeat odour and flavour. Meat Science. 45:169-181. Supriyati. 2012. Pertumbuhan kambing Peranakan Etawah prasapih yang diberi susu pengganti. Jurnal Ilmu Ternak dan Veteriner. 17(2): 142-151. Rahayu, S, Astuti DA, Satoto KB, Priyanto R, Khotijah L , Suryati T, Baihaqi M 2011. Produksi domba balibu UP3 Jonggol melalui strategi perbaikan pakan berbasis Indigofera sp. dan limbah tauge. Laporan Penelitian Unggulan Fakultas. IPB, Dirjendikti Kementrian Pendidikan Nasional. Radunz, AE, Wickersham LA, Loerch SC, Fluharty FL, Reynolds CK, and Zerby HN. 2009. Effects of dietary polyunsaturated fatty acid supplementation on fatty acid composition in muscle and subcutaneous adipose tissue of lambs. Journal of Animal Science. 87: 4082-4091. Wiryawan KG, Astuti DA, Priyanto R, Suharti S. 2009. Optimalisasi pemanfaatan rumput dan legum pohon terhadap performa, produksi, dan kualitas daging domba jonggol. Laporan Penelitian. Bogor (ID): Fakultas Peternakan IPB
Evaluasi Komposisi Tubuh dan Pemanfaatan Nutrien di Ambing Kambing Peranakan Etawah Laktasi yang Diberi Pakan Fermentasi Limbah Tempe: Evaluation of Body Composition and Nutrient Uptake on the Mammary Gland of Ettawah Crossbred Goat Lactation Fed by Fermented Tempeh Waste Dewi Apri Astuti; Erika B Laconi
Jurnal Ilmu Nutrisi dan Teknologi Pakan Vol. 17 No. 3 (2019): Jurnal Ilmu Nutrisi dan Teknologi Pakan
Publisher : Departemen Ilmu Nutrisi dan Teknologi Pakan Fakultas Peternakan Institut Pertanian Bogor

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1072.966 KB) | DOI: 10.29244/jintp.17.3.59-63

Abstract

The aim of this study was to evaluate the body composition, nutrient uptake in mammary gland and milk amino acid profile of lactating Etawah Crossbred goats fed by tempeh by product. Twelve lactating goats were randomly allocated into three groups which fed by ration containing concentrate (R1), concentrate plus 25% fresh tempeh waste (R2) and concentrate plus 25% fermented tempeh waste (R3). Tempeh waste was fermented by Aspergillus niger. Kinggrass was given 50% of the total ration for all groups. Urea space technique was used to measure body composition before and after the experiment was done. Milk production was calculated two times a day during two months after giving birth (postpartum). Total milk protein and amino acid, whey and casein were analyzed by kjeldahl method and amino acid analyzer respectively. Nutrient uptake in mammary gland was calculated base on Fick principles. Result showed that there was significantly different on body weight, but on body water, protein and fat had no significant difference between the treatments. The best milk production was found in fermented tempeh waste group. Concentration of glutamic acid was dominant than other essential amino acids in whole milk and casein but there were no significant difference between groups for those essential amino acid profile. It was concluded that fermented tempeh waste could substitute 50% of total concentrate and had the highest body weight, milk yield and nutrient uptake in the mammary gland of lactating Etawah Crossbred goats. Key words: body composition, fermentation, lactating PE goat, nutrient uptake, tempeh waste DAFTAR PUSTAKA Astuti DA & Sastradipradja D. 1998. Measurement of body composition using slaughter technique and urea-space in local sheep. Indonesian Journal of Veterinary Science. 3: 1-9 Astuti DA & Sastradipradja D. 1999. Evaluation of body composition using urea dilution and slaughter technique of growing Priangan sheep. Media Veteriner. 6 (3) : 5-9. Astuti DA, Sastradipradja D & Sutardi T. 2000. Nutrient balance and glucose metabolism of female growing, late pregnant and lactating ettawah crossbred goats. Asian-Australasian Journal of Animal Sciences. 13:8: 1068-1077 Astuti DA& Wina E. 2002. Protein balance and excreation of purine derivatives in urine of lactating etawah crossbred goats fed with tempe waste. Jurnal Peternakan dan Veteriner. 7(3) : 162-166 Astuti DA, Baba AS & Wibawan IWT. 2011. Rumen fermentation, blood metabolites, and performance of sheep fed tropical browse plants. Media Peternakan. 34 (3) : 201-206 Astuti DA & Sudarman A. 2015. Status fisiologi, profil darah dan komposisi tubuh domba yang diberi minyak lemuru tersaponifikasi dan disalut dengan herbal. Buletin Peternakan. 39 (2): 116-122. Badan Pengendalian Pengendalian Dampak Lingkungan Daerah. 2000. Laporan Pertanggungjawaban Pembangunan Instalasi Pengolahan Limbah Cair Industri Tahu Tempe PRIMKOPTI Ngoto Yogyakarta. Yogyakarta (ID) : Setwilda Propinsi DIY Bishop JM, Hill, DJ, & Hosking CS. 1990. Goat milk does not suppress the immune system. Journal of Pediatrics. 116: 862-867 Bruhn JC, FST & Davis CA. 1999. Dairy goat milk composition. https://drinc.ucdavis.edu/goat-dairy-foods/dairy-goat-milk-composition Cant JP, DePeters EJ & Baldwin RL, 1993. Mammary amino acid utilization in dairy cows fed fat and its relationship to milk protein depression. Journal of Dairy Science. 76 (3) :762-774 Chaiyabutr N, Komolvanich S, Preuksagorn S & Chanpongsang S. 2000. Comparative studies on the utilization of glucose in the mammary gland of crossbred holstein cattle feeding on different types of roughage during different stages of lactation. Asian-Australasian Journal of Animal Sciences. 13 (3): 334 – 347. Laconi EB, & Jayanegara A. 2015. Improving nutritional quality of cocoa pod (theobroma cacao) through chemical and biological treatments for ruminant feeding: in vitro and in vivo evaluation. Asian-Australasian Journal of Animal Sciences Open Access. http://dx.doi.org/10.5713/ajas.13.0798. Lehninger AL. 1982. Principles of Biochemistry. New York (US): Woth Publisher, Inc. NRC. 1990. Nutrient Requirement of Goat. Washington (US): National Academy of Science. Panaretto BA & Till A.R.. 1963. Body compositition in vivo. II. The composition of mature goats and its relationship to the antypyrene, tritiated water and acetyl-4-aminoantipyrene spaces. Australian Journal of Agricultural Research. 14 (6): 926 – 943 Park YW. 1991. Goat milk as a substitute for those who are lactose intolerant. Journal of Dairy Science 74:3326-3333 Riis PM. 1983. Dynamic Biochemistry of Animal Production. New York (US): Elsevier Science Rovanis. 1995. Letters in applied microbiology. Journal of Milk and Food Technology. 20 (3): 164-167 Steel RGD & Torrie JH, 1993. Principles and Procedures of Statistics. New York (US): McGraw Hill Book Co. Inc. Shapiro BA, Harrison RA & Walton JR, 1982. Clinical Application of Blood Gas. 3rd ed. London (UK): Book Medical Publishers, Inc. Waghorn GC & Baldwin, RL. 1984. Model of metabolic flux within mammary gland of the lactating cows. Journal of Dairy Science. 67: 531-544
Pemberian Ekstrak Daun Kemuning (Murraya paniculata (L.) Jack) dalam Air Minum terhadap Performa dan Kualitas Fisik Telur Puyuh Malon: The Effect of Additional Supplementation of Kemuning (Murraya paniculata (L.) Jack) Leaves Extract into Drinking Water on Performance of Malon Quail Eggs Dwi Margi Suci; N U Nuha; Suryahadi Suryahadi
Jurnal Ilmu Nutrisi dan Teknologi Pakan Vol. 17 No. 3 (2019): Jurnal Ilmu Nutrisi dan Teknologi Pakan
Publisher : Departemen Ilmu Nutrisi dan Teknologi Pakan Fakultas Peternakan Institut Pertanian Bogor

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (981.428 KB) | DOI: 10.29244/jintp.17.3.73-77

Abstract

Penelitian bertujuan melihat pengaruh ekstrak daun kemuning (Murraya paniculata (L.) Jack) yang ditambahkan ke dalam air minum terhadap performa dan kualitas fisik telur puyuh. Dua ratus empat puluh ekor puyuh malon betina berumur 24 minggu yang diberi ransum komersial mengandung protein kasar 20,01 %. Rancangan acak lengkap dengan empat perlakuan dan dua ulangan digunakan dalam penelitian ini, perlakuan terdiri atas puyuh diberi air minum tanpa ekstrak daun kemuning (PO), dan puyuh diberi ekstrak daun kemuning dalam air minum (4 hari dalam seminggu) dengan dosis 3% (P1), dosis 5% (P2) dosis 7% (P3) dari total air minum. Variabel yang diukur adalah performa (konsumsi ransum, produksi telur, bobot telur, konversi ransum, konsumsi air minum, dan mortalitas), dan kualitas fisik telur (indeks telur, persentase bobot kuning telur, persentase putih telur, skor warna kuning telur, persentase kerabang telur serta tebal kerabang telur). Hasil penelitian ini menunjukkan bahwa pemberian ekstrak daun kemuning dalam air minum dengan taraf 3% hingga 7% tidak mempengaruhi performa dan kualitas fisik telur. Kesimpulan hasil penelitian ini dosis pemberian ekstrak daun kemuning 5% dari total air minum ekor-1 hari-1 cenderung menghasilkan produksi telur paling tinggi (85%). Kata kunci: kualitas fisik telur, Murraya paniculata (L.) Jack, performa puyuh

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