Pengaruh Penambahan Spirulina platensis sebagai Sumber Protein Nabati pada Daging Analog bagi Vegetarian
Abstract
Spirulina platensis is a vegetable protein source that may improve the quality of food product. The objective of this study was to determine the effect of addition S. platensis on analog meat at concentrations of 0, 10, 20, and 30% and to determine the best concentration of addition S. platensis on meat analogs preferred by the panelists. The processing of meat analogs used steaming method at 100°C for 30 minutes. The researched method applied a completely randomized design. The analog meat samples were analyzed in terms of protein content, protein digestibility, moisture content, texture, color, and hedonic tests. The highest protein content and protein digestibility was at concentrations of S. platensis 30%, 32.24 and 62%. The moisture content obtained at 30% concentration was 54.70%, and the texture at 30% concentration was 1.53 N which resembles the texture of animal meat. Analog meat preferred by panelist was at concentration of 20% which had a texture preference of score of 6.33; aroma 5.00 and taste 6.33 from the average 30 panelist score and had a confidence interval value of 5.56<µ<6.22.
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Annissa LF, Afifah DN. 2015. Kadar protein, nilai cerna protein in vitro dan tingkat kesukaan kue kering komplementasi tepung jagung dan tepung kacang merah sebagai makanan tambahan anak gizi kurang. J Nutr College 4(2): 365-371. DOI: 10.14710/jnc.v4i4.10112.
[AOAC] Association of Official Analitycal of Chemist. 2005. Official Methods of Analysis of The Association of Official Analitycal of Chemist. Arlington, Association of Analitycal Chemist, Inc. Virginia, USA.
Astuti WM, Dewi EN, Kurniasih RA. 2019. Pengaruh perbedaan jenis pelarut dan suhu pemanasan selama ekstraksi terhadap stabilitas mikrokapsul fikosianin dari Spirulina platensis. J Ilmu Teknol Perikanan 1(1): 7-14.
Bohrer BM. 2019. An investigation of the formulation and nutritional composition of modern meat analogue products. Food Sci Hum Wellness 8(4): 320-329. DOI: 10.1016/j.fshw.2019.11.006.
Borchani C, Besbes S, Blecker CH, Attia H. 2010. Chemical characteristics and oxidative stability of sesame seed, sesame paste, and olive oils. J Agr Sci Tech 12(2010): 585-596.
[BSN] Badan Standardisasi Nasional. 2015. SNI 2346:2015 Pedoman Pengujian Sensori pada Produk Perikanan. Jakarta: Badan Standardisasi Nasional.
Caporgno MP, Böcker L, Müssner C, Stirnemann E, Haberkorn I, Adelmann H, Handscin S, Windhab EJ, Mathys A. 2020. Extruded meat analogues based on yellow, heterotrophically cultivated Auxenochlorella protothecoides microalgae. Innov Food Sci Emerg Technol 59: 1-10. DOI: 10.1016/j.ifset.2019.102275.
Christie J, Sumual MF, Lalujan LE, 2018. Pengaruh substitusi tepung jagung varietas manado kuning (Zea Mays L.) pada pembuatan daging analog. J Teknol Pertanian 9(2): 56-67.
Christwardana M, Nur MMA, Hadiyanto. 2013. Spirulina platensis: Potensinya sebagai bahan pangan fungsional. J Aplikasi Teknol Pangan 2(1): 1-4.
de Huidobro FR, Miguel E, Blázquez B, Onega E. 2005. A comparison between two methods (Warner-Bratzler and texture profile analysis) for testing either raw meat or cooked meat. Meat Sci 69(3): 527-536. DOI: 10.1016/j.meatsci.2004.09.008.
Dharmayanti L. 2019. Pengaruh konsumsi putih telur kukus terhadap penyembuhan luka jahitan post sectio caesarea. J Keperawatan dan Kebidanan 11(1): 6-10.
Ekantari N, Marsono Y, Pranoto Y, Harmayani E. 2017. Pengaruh media budidaya menggunakan air laut dan air tawar terhadap sifat kimia dan fungsional bio-massa kering Spirulina platensis. Agritech 37(2): 173-182. DOI: 10.22146/agritech.10843.
El Nakib DM, Ibrahim MM, Mahmoud NS, Abd El Rahman EN, Ghaly AE. 2019. Incorporation of spirulina (Athrospira platensis) in traditional egyptian cookies as a source of natural bioactive molecules and functional ingredients: Preparation and sensory evaluation of nutrition snack for school children. Eur J Nutr Food Saf 9(4): 372-397. DOI: 10.9734/ejnfs/2019/v9i430084.
Fibriafi R, Ismawati R. 2018. Pengaruh subtitusi tepung kedelai, tepung bekatul dan tepung rumput laut (Gracilaria sp) terhadap daya terima, zat besi dan vitamin B12 brownies. Media Gizi Indonesia 13(1): 12-19. DOI: 10.20473/mgi.v13i1.12-19.
Fikawati S, Wahyuni D, Syafiq A. 2012. Status gizi ibu hamil dan berat lahir bayi pada kelompok vegetarian. Makara Kesehatan 16(1): 29-35.
Grosshagauer S, Kraemer K, Somoza V. 2020. The true value of Spirulina. J Agric Food Chem 68(14): 4109-4115. DOI: 10.1021/acs.jafc.9b08251.
Gutiérrez-Salmeán G, Fabila-Castillo L, Chamorro-Cevallos G. 2015. Nutritional and toxicological aspects of Spirulina (Arthrospira). Nutr Hosp 32(1): 34-40. DOI: 10.3305/nh.2015.32.1.9001.
Hoseini SM, Khosravi-Darani KK, Mozafari MR. 2013. Nutritional and medical applications of Spirulina microalgae. Mini-Rev Med Chem 13(8): 1231-1237. DOI: 10.2174/1389557511313080009.
Inats A, Dewi EN, Purnamayanti L. 2020. Penghambatan oksidasi lemak bakso ikan lele (Clarias batracus) dengan edible coating karagenan yang diperkaya minyak Wijen. J Ilmu Teknol Perikanan 2(1): 37-42.
Ishartani D, Affandi DR, Habibina JN. 2016. Pengaruh penambahan minyak wijen (sesame oil) terhadap karakteristik fisik, kimia dan sensoris pasta tempe koro pedang (Canavalia ensiformis). J Teknosains Pangan 5(1): 12-18.
Kabinawa INK. 2014. Pangan dan herbal hayati menyehatkan dari mikroalga Spirulina. J Aplikasi Teknol Pangan 3(3): 103–109.
[Kemenkes RI] Kementrian Kesehatan Republik Indonesia. 2019. Peraturan Menteri Kesehatan Republik Indonesia NO.28 Tahun 2019 tentang Angka Kecukupan Gizi yang Dianjurkan untuk Masyarakat Indonesia.
Kovac DJ, Simeunović JB, Babić OB, Mišan AC, Milovanović IL. 2013. Algae in food and feed. Food Feed Res 40(1): 21-31.
Lindiarti T, Masahid AD, Daroini IK. 2020. Aplikasi daging analog berbahan dasar umbi kimpul (Xanthosoma sagittifolium) dan isolat protein kedelai pada pembuatan sosis. J Teknol Pertanian Andalas 24(1): 7–16. DOI: 10.25077/jtpa.24.1.7-16.2020.
Mauliasari ES, Agustini TW, Amalia U. 2019. Stabilisasi fikosianin Spirulina platensis dengan perlakuan mikroenkapsulasi dan pH. J Pengolahan Hasil Perikanan Indonesia 22(3): 526-534. DOI: 10.17844/jphpi.v22i3.29121.
Merthayasa JD, Suada IK, Agustina KK. 2015. Daya ikat air, pH, warna, bau dan tekstur daging sapi bali dan daging wagyu. Indonesia Medicus Veterinus 4(1): 16-24.
Nurhartadi E, Anam C, Ishartani D, Parnanto NH, Laily RA, Suminar N. 2014. Meat analog dari protein curd kacang merah (Phaseolus vulgaris L) dengan tepung biji kecipir (Psophocarpus Tetragonolobus) sebagai bahan pengisi: Sifat fisikokimia. J Teknol Hasil Pertanian 7(1): 12-19. DOI: 10.20961/jthp.v0i0.12908.
Palanisamy M, Töpfl S, Berger RG, Hertel C. 2019. Physicochemical and nutritional properties of meat analogues based on Spirulina/lupin protein mixtures. Eur Food Res Technol 245(2019): 1889-1898. DOI: 10.1007/s00217-019-03298-w.
Prasanna RA, Sood P, Jaiswal S, Nayak V, Gupta V, Chaudhary M, Joshi C, Natarajan. 2010. Rediscovering cyanobacteria as valuable sources of bioactive compounds. Appl Biochem Microbiol 46(2): 119-134. DOI: 10.1134/S0003683810020018.
Pristiana DY, Susanti S, Nurwantoro. 2017. Antioksidan dan kadar fenol berbagai ekstrak kopi potensi aplikasi bahan alami untuk fortifikasi pangan. J Aplikasi Teknol Pangan 6(2): 89-92. DOI: 10.17728/jatp.205.
Rahmi R, Restuastuti T, Ernalia Y. 2015. Kecukupan asupan protein dan asupan vitamin B12 pada anak vegetarian di sekolah dasar metta maitreya. J Online Mahasiswa Fakultas Kedokteran Univ Riau 2(2): 1-9.
Samard S, Ryu GH. 2018. A comparison of physicochemical characteristics, texture, and structure of meat analogue and meats. J Sci Food Agric 99(6): 2708-2715. DOI: 10.1002/jsfa.9438.
Sanjaya YD, Sumardianto, Riyadi PH. 2016. Pengaruh Penambahan ekstrak rosella (Hibiscus sabdariffa Linn) terhadap warna dan kualitas pada terasi udang rebon (Acetes sp.). J Pengolahan Bioteknol Hasil Perikanan 5(2): 1-9.
Schreuders FKG, Schlangen M, Kyriakopoulou K, Boom RM, van der Goot AJ. 2021. Texture methods for evaluating meat and meat analogue structures: A review. Food Control 127: 1-14. DOI: 10.1016/j.foodcont.2021.108103.
Sedjati S, Yudiati E, Suryono. 2012. Profil pigmen polar dan non polar mikroalga laut Spirulina sp. dan potensinya sebagai pewarna alami. Indonesian J Marine Sci 17(3): 176-181.
Sudarmanto S. 1991. Analisis Bahan Berprotein. Pusat Antar Universitas Pangan dan Gizi Universitas Gadjah Mada. Yogyakarta.
Utama AN, Anjani G. 2016. Substitusi isolat protein kedelai pada daging analog kacang merah (Phaseolus vulgaris L.). J Nutr College 5(4): 402-411.
Virera JI, Tamrin, Isamu KT. 2018. Pengaruh formulasi tepung daun kelor (Moringa oleifera) dan tepung ikan teri (Stolephorus sp.) terhadap penilaian sensoris, kimia dan angka kecukupan gizi (AKG) biskuit pendamping ASI. J Sains Teknol Pangan 3(5): 1588-1600.
Wild F, Czerny M, Janssen AM, Kole APW, Zunabovic M, Domig KJ. 2014. The evolution of a plant-based alternative to meat from niche markets to widely accepted meat alternatives. Agro Food Industry Hi Tech 25(1): 45–49.
Windrati WS, Nafi A, Augustine PD. 2010. Sifat nutrisional protein rich flour (Prf) koro pedang (Canavalia ensiformis L.). Agrotek 4(1): 18–26.
Yildirim A, Atasoy AF. 2020. Quality characteristics of some durum wheat varieties grown in Southeastern Anatolia Region of Turkey (GAP). Harran Tarım ve Gıda Bilimleri Derg 24(4): 420-431.
Yuliarti O. 2020. Textural Characteristics of World Food. First Edition. 137-150. John Willey & Sons Ltd. DOI: 10.1002/9781119430902.ch10.
Yuliarti O, Kovis TJK, Yi NJ 2021. Structuring the meat analogue by using plant-based derived composites. J Food Eng 288: 110138. DOI: 10.1016/j.jfoodeng.2020.110138.
