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agriTECH
Published by Universitas Gadjah Mada
ISSN : 02160455     EISSN : 25273825     DOI : 10.22146/agritech
Core Subject : Agriculture,
Agriculture, Biological Sciences & Forestry
Agritech with registered number ISSN 0216-0455 (print) and ISSN 2527-3825 (online) is a scientific journal that publishes the results of research in the field of food and agricultural product technology, agricultural and bio-system engineering, and agroindustrial technology. This journal is published by Faculty of Agricultural Technology, Universitas Gadjah Mada, Yogyakarta in colaboration with Indonesian Association of Food Technologies (PATPI).
Arjuna Subject : Ilmu Pertanian dan Biologi (Semua) - Ilmu Pertanian dan Biologi (Lain-Lain)
Articles 15 Documents
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Search results for , issue "Vol 37, No 3 (2017)" : 15 Documents clear
Identifikasi Gen Transgenik pada Produk Susu Bubuk Kedelai dan Susu Formula Soya dengan Metode PCR (Polymerase Chain Reaction) Agustin Krisna Wardani; Annisa Alirsyah; Ana Fauziah
agriTECH Vol 37, No 3 (2017)
Publisher : Faculty of Agricultural Technology, Universitas Gadjah Mada, Yogyakarta, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (775.326 KB) | DOI: 10.22146/agritech.16656

Abstract

The need of soybean that reached up to 2,2 million tons per year has made Indonesia imports this commodity 1,62 million tons from countries that adopt Genetically Modified (GM) soybean. By the presence of GM soybeans in Indonesia, Genetically Modified Product (GMP) labelling has need to be done. Detection of GMP can be done by using PCR. The aim of this study was to determine the presence of trangenic genetic material in soy milk powder and soy formula products to classify as GMP. Another goal was to determine the optimum annealing temperature of the primers used. Based on this study, the optimum annealing temperature of the CaMV 35S primer and the EPSPS-CP4 primer was 60oC and 59oC. The NOS terminator primer’s optimum annealing temperature was not found. 6 soy milk powder samples and 5 soy formula samples are might be determined to be using transgenic soybeans due to the presence of EPSPS-CP4 genes and CaMV 35S promotor genes. Therefore, those 11 samples were classified as GMP.ABSTRAK Kebutuhan kedelai yang mencapai 2,2 juta ton/tahun memaksa Indonesia mengimpor sebanyak 1,62 juta ton. Sebagian besar kedelai impor berupa kedelai transgenik. Dengan munculnya kedelai transgenik di Indonesia, perlu adanya pelabelan Produk Rekayasa Genetika (PRG) untuk memenuhi hak-hak konsumen. Teknik yang dilakukan untuk mendeteksi PRG salah satunya menggunakan metode PCR. Penelitian ini bertujuan untuk mengetahui ada tidaknya gen transgenik pada produk susu bubuk kedelai dan formula soya, sehingga produk dapat digolongkan sebagai PRG atau tidak. Selain itu juga bertujuan untuk mengetahui suhu annealing optimum pada primer yang digunakan. Hasil penelitian didapatkan suhu annealing optimum primer CaMV 35S promotor adalah 60oC. Sedangkan untuk primer gen EPSPS-CP4 suhu annealing optimumnya 59oC. Untuk primer NOS terminator suhu annealing optimum tidak ditemukan. Dari amplifikasi DNA sampel, 6 sampel susu bubuk kedelai dan 5 sampel formula soya terdapat sisipan gen EPSPS-CP4 dan gen Promotor CaMV 35S. Dengan demikian 11 sampel tersebut dapat dikatakan sebagai PRG. Kata kunci: Produk rekayasa genetika; PCR; formula soya; susu kedelai bubuk; kedelai transgenik
Fermentasi Biji Kakao Kering Menggunakan Saccharomyces cerevisiae, Lactobacillus lactis, dan Acetobacter aceti Mulono Apriyanto; Sutardi Sutardi; Supriyanto Supriyanto; Eni Harmayani
agriTECH Vol 37, No 3 (2017)
Publisher : Faculty of Agricultural Technology, Universitas Gadjah Mada, Yogyakarta, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (403.47 KB) | DOI: 10.22146/agritech.17113

Abstract

The aims of the study was to improve quality of cocoa bans by fermentation of sun dried cocoa beans. The fermentation variations were conducted as follows: first, fermentation without the addition of inoculum (control), the second treatment using inoculum of S. cerevisiae (FNCC 3056), L. lactis (FNC 0086) and A. aceti (FNCC 0016), each of 108 cfu/g  given simultaneously at the beginning of fermentation.and the third treatment wassequential administration, i.e: yeast at the initial fermentation, lactic acid bacteria after 24 hours fermentation, and acetic acid bacteria after 48 hr of fermentation third with the same microbial population with the second treatment. The fermentation was conducted for120 hours. The fermentation temperature were controlled during fermentation as follows: 35 °C  for the first 24 hours, 45 °C  for the next second 24- hours, 55 °C the third 24 hours and 35 °C for the last 48 hours of fermentation. The results showed that after the rehydration, pulp composition of dry beans could be used as a substrate for fermentation. During fermentation, dry cocoa beans showed reduction of total sugar content, pH and total polyphenols for all the three treatments. Cut test of dried cocoa beans during the fermentation showed the increasing percentage of brown color of the three treatments. Reducing sugar and fermentation indexes increasedfor all treatments during fermentation. Concentration of ethanol, lactic acid and acetic acid reached highest level at 24, 60, and 108 hours of fermentationfor all treatments.  Highest populations of S. cerevisiae, L. lactis and A. aceti of three treatments obtained at 24, 48 and 72 hours of fermentation. After fermentation and roasting, dry beans produced hydrophobic amino acids as precursors of flavor and volatile compounds.                                               ABSTRAKPenelitian ini bertujuan untuk mengetahui perubahan sifat kimia pada fermentasi biji kakao kering jemur. Biji kakao kering jemur yang diperoleh dari petani memiliki kadar air yang tidak seragam. Guna menimalkan kegagalan fermentasi maka biji kakao kering jemur diperoleh melalui pengeringan biji kakao segar menggunakan kabinet dryer dengan sebelumnya dikondisikan pada suhu seperti pengeringan dengan sinar matahari, dan masing ditentukan kadar gula reduksinya. Percobaan fermentasi biji kakao kering dilakukan fermentasi pada wadah fermentasi dengan jumlah biji 150 g setiap wadah. Sebelum difermentasi terlebih dahulu biji kakao kering jemur direhidrasi agar didapat kadar air mendekati biji segar, kemudian biji kakao kering jemur diinkubasi selama enam hari dan tanpa dibalik selama fermentasi. Setiap perlakuan diulangi tiga kali dan diamati tiap 24 jam sampai 120 jam. Kadar gula reduksi (kontrol 4,49–11,45%, inokulum diawal (IA) 4,69–11,55%, inokulum bertahap (IB) 4,64–11,54%), kadar asam tertitrasi (kontrol 4,48–6,45%, inokulum diawal (IA) 4,64–6,39%, inokulum bertahap (IB)  4,45–6,59%), populasi Saccharomycescerevisiae (kontrol 5,56–7,28 (log CFU/g), inokulum diawal (IA) 6,45–8,75 (logCFU/g), inokulum bertahap (IB) 6.88 – 8.99 (logCFU/g), Lactobacillus lactis (kontrol 6,66–8,15 (log CFU/g), inokulum diawal (IA) 7,65–8,21(log CFU/g), inokulum bertahap (IB) 7,66–8,95 (log CFU/g) dan Acetobacter aceti (kontrol 4,26–6,95% (log CFU/g), inokulum diawal (IA) 4,85–7,40 (log CFU/g), inokulum bertahap (IB) 4,35–7,91 (log CFU/g)) dalam pulp fermentasi diamati selama proses fermentasi. Untuk mengetahui kualitas biji kakao dilakukan pengukuran pH (kontrol 5,67–3,98, inokulum diawal (IA) 5,67–3,55, inokulum bertahap (IB) 5,67–3,50), kadar etanol (kontrol 0,3–0,5%, inokulum diawal (IA) 0,3–0,52%, inokulum bertahap (IB) 0,35–0,53%) dan indeks fermentasi selama fermentasi (kontrol 0,31–0,88, inokulum diawal (IA) 0,32–0,99, inokulum bertahap (IB) 0,33–1,03).Kata kunci: Acetobacter aceti; biji kakao kering jemur; fermentasi; Lactobacillus lactis; Saccharomyces cerevisiae
Pengaruh Pelapisan Kitosan dan Suhu Penyimpanan terhadap Karakter Fisik Buah Sawo (Manilkara achras (Mill.) Fosberg) Selama Pematangan Widya Mudyantini; Santosa Santosa; Kumala Dewi; Nursigit Bintoro
agriTECH Vol 37, No 3 (2017)
Publisher : Faculty of Agricultural Technology, Universitas Gadjah Mada, Yogyakarta, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (920.236 KB) | DOI: 10.22146/agritech.17177

Abstract

Sapodilla (Manilkara achras (Mill.) Fosberg) is a climacteric and highly perishable fruit with thin peel. The objectives of this study were: (1) to examine the effect of chitosan coating concentrations and storage temperature on the physical and chemical characteristics of sapodilla and (2) to determine the chitosan coating concentrations and the optimum storage temperature for the storage of sapodilla. Factorial Split-Plot Design was used in this experiment: three levels of storage temperature as the main factors (5 °C, 15 °C, 25 °C) and four levels of chitosan concentrations (0%, 2%, 3%, 4%)  as the sub-factors. Each treatment was made in five replicates. Collected data were analyzed using analysis of variance (ANOVA) followed by the Duncan’s Multiple Test (DMRT) at the test level of 5%. Sapodillas used in this study had the same age in the weight of 100-120 grams and were harvested from the same tree. They were observed until rotten. The parameters observed were the concentrations of chitosan coating thickness on sapodillas’peel, the permeability of chitosan membrane to the air water vapour and oxygen, shelf life, hardness, content of chlorophyll and carotenoid, and respiration of the fruit. Observed data showed that the higher chitosan concentrations was used, the higher capability of the sapodilla’s peel to hampered water vapour  and oxygen’s to peddix the peel. However,  the chitosan coating concentration  of 4% and the storage temperature of 5 °C temperature made the chitosan layer flaked. The treated concentrations of chitosan coating (0%, 2%, 3%, 4%) at certain storage temperature variations (5 °C, 15 °C, 25 °C) and their interactions had an effect on the physical characters of sapodilla in all parameters. The higher coated chitosan concentration applied, the hardness of sapodilla increased. The chlorophyll contents of sapodilla peel were increasing along with the hampering of the ripening. When the sapodillas were ripe, the carotenoid contents increated. The oxygen contents were decreasing along with the ripening of the sapodillas. The CO2 contents were increasing along with the ripening process of the sapodillas. The optimum treatment to keep sapodillas’ shelf life was the chitosan coating of 3% and the the storage temperature of 5 °C. ABTSRAKBuah sawo (Manilkara achras (Mill.) Fosberg) merupakan buah klimaterik yang mempunyai kulit tipis dan cepat matang. Tujuan penelitian ini adalah mengkaji pengaruh konsentrasi pelapisan kitosan dan suhu simpan terhadap sifat fisik dan kimiawi buah sawo serta menentukan konsentrasi pelapisan kitosan dan suhu simpan yang paling optimum untuk memperpanjang masa simpan buah sawo. Rancangan penelitian yang digunakan adalah Split Plot Design pola faktorial dengan dua faktor, yaitu suhu penyimpanan terdiri dari tiga taraf (5 °C, 15°C, 25 °C) sebagai faktor utama dan konsentrasi kitosan yang terdiri dari empat taraf (0%, 2%, 3%, 4%) sebagai sub faktor. Setiap kombinasi dengan lima ulangan. Data dianalisis menggunakan Analisis Varian (ANAVA) kemudian dilanjutkan dengan uji Duncan’s Multiple Range Test (DMRT) pada taraf uji 5%. Buah dengan umur fisiologis sama, berat 100 – 120 g dipanen dari satu pohon. Buah diberi perlakuan pelapisan kitosan dan disimpan pada temperatur yang berbeda, selanjutnya diamati sampai buah tidak layak dikonsumsi. Parameter yang diamati adalah tebal lapisan kitosan berbagai konsentrasi pada kulit buah, permeabilitas membran kitosan terhadap uap air dan O2, masa simpan, kekerasan buah, kandungan klorofil dan karotenoid serta laju respirasi. Hasil yang diperoleh menunjukkan semakin tinggi konsentrasi kitosan, semakin terhambat masuknya uap air dan oksigen ke dalam kulit buah, tetapi konsentrasi kitosan 4% dan suhu 5 °C menyebabkan lapisan kitosan mengelupas. Perlakuan konsentrasi pelapisan kitosan (0%, 2%, 3%, 4%) dan suhu simpan  (5 °C, 15 °C, 25 °C) serta interaksinya mengakibatkan semakin tinggi konsentrasi kitosan, kekerasan buah sawo semakin meningkat, juga kadar klorofil kulit buah. Semakin buah matang kadar karotenoid semakin meningkat, demikian juga kadar CO2. Kadar oksigen semakin menurun seiring dengan pemasakan buah. Perlakuan optimum untuk mempertahankan masa simpan buah sawo adalah perlakuan pelapisan kitosan 3% dan suhu simpan 5 °C.Kata kunci: Kitosan; karakter fisik; sawo (Manilkara achras (Mill.) Fosberg); suhu
Karakteristik Beras Analog Berindeks Glisemik Rendah dari Oyek dengan Penambahan Berbagai Jenis Kacang-Kacangan Bayu Kanetro; Dwiyati Pujimulyani; Sri Luwihana; Alimatus Sahrah
agriTECH Vol 37, No 3 (2017)
Publisher : Faculty of Agricultural Technology, Universitas Gadjah Mada, Yogyakarta, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (37.733 KB) | DOI: 10.22146/agritech.31538

Abstract

The aim of this research was to determine the best legumes for increasing protein of artificial rice that was made of dried growol or oyek based on physical, sensory charactersitics and glycemic index. The experiment design of this research was randomized complete design with the single factor of legumes type, that were soybean mungbean, vevet bean, and cowpeas. The first step of artificial rice processing was mixing dried oyek and legumes flour with 3:7 ratio. The next step was forming the dough into the same as rice, steaming, and drying for producing artificial rice that could be stored. The products of artificial rice were analyzed for texture, colour, and preference level of dried and steamed procuct, proximate composition of dried product, and glycemic index (IG) of steamed product. The result of this research showed that the type of legumes affected the physical and sensory characteristic of artificial rice. The best legumes for producing artificial rice was mungbean. The preference level of the best product was better than the other legumes, and the same as original rice. The proximate composition especially protein content of the best product was the same as original rice, and its IG was be categorized in low IG food product.ABSTRAK Penelitian ini bertujuan menentukan jenis kacang-kacangan yang tepat untuk meningkatkan kadar protein beras analog dari growol kering atau oyek berdasarkan sifat fisik, kimia, sensoris, dan indeks glisemik. Penelitian dilaksanakan dengan rancangan acak lengkap faktor tunggal yaitu jenis kacang-kacangan yang meliputi kacang kedelai, tunggak, koro, dan kacang hijau. Beras analog/artificial dibuat melalui tahap pembuatan adonan yang terdiri campuran tepung kacang-kacangan dan tepung oyek dengan perbandingan 3:7. Selanjutnya dibentuk menyerupai beras, dikukus, dan dikeringkan sehingga diperoleh beras analog yang dapat disimpan. Produk kering dan produk yang siap dikonsumsi (nasi analog) selanjutnya dianalisis tekstur, warna,tingkat kesukaan, dan komposisi proksimat pada beras analog, serta indeks glisemik pada nasi analog. Hasil penelitian menunjukkan bahwa jenis kacang-kacangan berpengaruh terhadap sifat fisik dan tingkat kesukaan beras maupun nasi analog. Jenis kacang-kacangan terbaik adalah kacang hijau yang memberikan tingkat kesukaan nasi analog paling baik dibandingkan jenis kacang-kacangan lainnya dan nilainya sama atau tidak berbeda nyata dengan nasi biasa. Komposisi proksimat beras analog terbaik khususnya kadar proteinnya hampir sama dengan beras biasa, dan IG-nya dikategorikan dalam bahan pangan ber-IG rendah.Kata kunci: Beras analog/artificial; ubi kayu; oyek; indeks glisemik; kacang-kacangan
Perbaikan Sifat Laju Transmisi Uap Air dan Antibakteri Edible Film dengan Menggunakan Minyak Sawit dan Jeruk Kunci Budi Santoso; Zuhara Hilda; Gatot Priyanto; Rindit Pambayun
agriTECH Vol 37, No 3 (2017)
Publisher : Faculty of Agricultural Technology, Universitas Gadjah Mada, Yogyakarta, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (383.826 KB) | DOI: 10.22146/agritech.31539

Abstract

The objective of the research was to improve water vapor transmission rate and antibacterial properties of edible film by using red palm oil and Citrus mitis. The research design was factorial completely randomized design with three replications. There were three studies: the addition of Uncaria gambir Roxb extract, palm oil concentration, and pH value at the concentration 0, 1.5, and 3 (% w/v); 0, 1.5, and 3 (% v/v); and 3, 4, 5, and 6 respectively. The results showed that interaction of Uncaria gambir Roxb extract, palm oil and pH had significant effected on solubility of edible film. Interaction of Uncaria gambir Roxb and palm oil had significant effected on thickness, percentage of elongation and solubility of edible film. Interaction of Uncaria gambir Roxb and pH had significant effected on solubility of edible film. Characteristic of edible film was produced thickness 0.15 to 0.28 mm, percentage of elongation 23.33 to 87.78%, solubility 33.9 to 49.16%, water vapor transmission rate 3.43 to 8.52 g.m-2.d-1, and inhibition zone for Staphylococcus aureus 0.2 to 8.2 mm.ABSTRAKTujuan penelitian adalah untuk memperbaiki laju transmisi uap air dan sifat antibakteri edible film dengan menggunakan minyak sawit dan jeruk kunci. Rancangan penelitian yang digunakan adalah rancangan acak lengkap faktorial dengan tiga kali ulangan. Perlakuan terdiri atas konsentrasi ekstrak gambir; 0, 1,5, dan 3 (% b/v), konsentrasi minyak sawit; 0, 1,5, dan 3 (% v/v), dan pH (3, 4, 5, dan 6). Hasil penelitian menunjukkan bahwa interaksi ekstrak gambir, minyak sawit, dan derajat keasaman (pH) berpengaruh nyata terhadap kelarutan edible film. Interaksi ekstrak gambir dengan minyak sawit berpengaruh nyata terhadap ketebalan, persen pemanjangan, dan kelarutan edible film. Interaksi minyak sawit dengan derajat keasaman (pH) berpengaruh nyata terhadap kelarutan edible film. Interaksi ekstrak gambir dengan derajat keasaman (pH) berpengaruh nyata terhadap kelarutan edible film. Karakteristik edible film yang dihasilkan adalah ketebalan 0,15–0,28 mm, persen pemanjangan 23,33–87,78%, kelarutan 33,9–49,16%, laju transmisi uap air 3,43–8,52 g.m-2.hari-1, dan diameter daya hambat terhadap Staphylococcus aureus 0,2–8,2 mm.Kata kunci: Antibakteri; edible film; gambir; minyak sawit; pH

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