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Eni Harmayani

Departemen Teknologi Pangan dan Hasil Pertanian, Fakultas Teknologi Pertanian, Universitas Gadjah Mada, Jl. Flora No. 1, Bulaksumur, Yogyakarta 55281

Author-ID : 2870810

Agriculture, Biological Sciences & Forestry

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Pengaruh Media Budidaya Menggunakan Air Laut dan Air Tawar terhadap Sifat Kimia dan Fungsional Biomassa Kering (Spirulina platensis) Nurfitri Ekantari; Yustinus Marsono; Yudi Pranoto; Eni Harmayani
agriTECH Vol 37, No 2 (2017)
Publisher : Faculty of Agricultural Technology, Universitas Gadjah Mada, Yogyakarta, Indonesia

Spirulina is a microalgae, easily cultivated and grows well in a low to high-level of salinity. Chemical contents in Spirulina can be influenced by the conditions of cultivation. Spirulina platensis sold in Indonesia is largerly cultured in marine water or fresh water medium. S. platensis can be used as a source of calcium because it has 700-1000 mg/100 g of dry biomass. This study aimed to determine the effect of sea water and fresh water cultivation medium on the chemical composition of S. platensis. Samples were determined the chemical composition included proximate analysis, mineral content of Calcium (Ca), Magnesium (Mg) and Phosphor (P), total glucose, starch, and dietary fiber. Functional properties were also determined i.e: solubility, water and oil binding capacities, emulsion and foam abilities. The results showed that the content of ash and minerals (Ca, Mg, P) of S. platensis cultivated in marine water was higher that of S. platensis cultivated in freshwater. This results suggested that S. platensis cultured in the sea water medium was potential as an alternative source of calcium (512,53 mg Ca/100 g) with a ratio Ca-P = 1:1.79. The carbohydrate content was at least 28,41 %db (total sugars almost 0,09 %db, starch 6,9 %db and total dietary fiber 24,81 %db). The dietary fiber was dominated by insoluble dietary fiber (24,81 %db). Functional properties were affected by cultured medium. Spirulina platensis cultivated in marine water exhibited high capacity on Water and Oil Holding Capacities (WHC and OHC) that were 4,46 ml/g and 2,35 ml/g, respectively. Water Solubility Index (WSI), foaming capacity, emulsion capacity were not affected by cultured media. ABSTRAKSpirulina merupakan mikroalga, mudah dibudidayakan dan dapat hidup dalam tingkat salinitas yang rendah hingga tinggi. Kandungan kimia dalam Spirulina dapat dipengaruhi oleh media budidayanya. Di Indonesia Spirulina platensis yang beredar sebagian merupakan hasil budidaya dari berbagai tempat dengan media budidaya air tawar maupun air laut. S. platensis dapat digunakan sebagai salah satu sumber kalsium karena kandungannya dapat mencapai 700-1000 mg/100 g biomassa kering. Penelitian ini bertujuan untuk mengetahui pengaruh media budidaya air laut dan air tawar terhadap komposisi kimia dan sifat fungsional dari S. platensis. Parameter kimia yang diamati yaitu komposisi proksimat, kandungan mineral Ca, Mg dan P, kandungan gula, pati dan serat pangan. Parameter sifat fungsional meliputi kelarutan, kemampuan mengikat air dan lemak, emulsifikasi dan kemampuan membentuk busa. Hasil penelitian menunjukkan bahwa kandungan abu dan mineral (Ca, Mg, P) S. platensis budidaya air laut lebih tinggi daripada budidaya air tawar. S. platensis asal budidaya laut berpotensi sebagai alternatif sumber kalsium (512,53 mg Ca/100 g) dengan rasio Ca:P = 1:1,79. Kandungan karbohidrat S. platensis hasil budidaya media air laut lebih rendah yaitu 28,41 %db (gula total dengan nilai 0,09 %db, pati 6,9 %db dan total serat pangan 24,81 %db), serat pangan terutama berupa serat pangan tak larut sebesar 24,18 %db. Sifat fungsional dipengaruhi oleh asal budidaya. Spirulina platensis asal budidaya laut memiliki sifat Water Holding Capacity (WHC) yang lebih tinggi yaitu 4,46 ml/g dibandingkan sifat Oil Holding Capacity (OHC) yaitu 2,35 ml/g, sedangkan Water Soluble Index (WSI), kapasitas membentuk busa dan emulsifikasi tidak dipengaruhi media budidaya.

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

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

Kinetika Oksidasi Protein Ikan Kakap (Lutjanus sp) Selama Penyimpanan Rahim Husain; Suparmo Suparmo; Eni Harmayani; Chusnul Hidayat
agriTECH Vol 37, No 2 (2017)
Publisher : Faculty of Agricultural Technology, Universitas Gadjah Mada, Yogyakarta, Indonesia

Fish protein is oxidased easily during storage. The oxidation reaction rate can be approached through the order to zero or first order. The objective of this research was to study the oxidation rate during storage by determining the amount of activation energy (Ea) and constant change (k). The results showed that the increased of temperature storage from 0 °C to 40oC can increased the k value from 0.0617 to 0.311. The carbonyl content of red snapper protein isolate can be increased to higher level as storage temperature increase to 40 °C with higher level increase at higher temperature. The activation energy of oxidation reactions that cause oxidation of the protein is 42.015 Kj/mol.K to zero order. Kinetics increase in protein carbonyls: the higher the temperature storage protein isolate red snapper (Lutjanus sp), the greater the value of a constant (k) is obtained. Kinetics studies show that an increase in the rate of reaction of oxidative damage fish protein (Lutjanus sp) during storage by following zero order reactions. ABSTRAKProtein ikan mudah rusak akibat oksidasi selama penyimpanan. Kecepatan reaksi oksidasi dapat didekati melalui orde ke nol maupun orde pertama. Penelitian ini bertujuan untuk mempelajari oksidasi selama penyimpanan dengan menentukan besaran energi aktivasi (Ea) dan konstanta perubahan (k). Hasil menunjukkan bahwa nilai k meningkat dari 0,0617 menjadi 0,311 dengan peningkatan suhu dari 0 °C ke 40 °C. Energi aktivasi reaksi oksidasi yang menyebabkan terjadinya oksidasi protein adalah 42,015 Kj/mol.K untuk orde nol. Kinetika peningkatan protein karbonil: semakin tinggi suhu penyimpanan protein ikan kakap (Lutjanus sp) semakin besar nilai konstanta (k) yang diperoleh. Studi kinetika juga memperlihatkan bahwa peningkatan laju reaksi kerusakan oksidasi protein ikan kakap (Lutjanus sp) selama penyimpanan mengikuti reaksi orde ke nol atau reaksi berjalan lambat.

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