Most of the food packaging material made from plastic, which is difilcult to be decomposed. We need food packaging materials environmentally friendly and edible directly with the product. The experiment was conducted in the laboratory of post-harvest, Yogyakarta AIAT in March to October 2012. The purpose of this study was to know the characteristics of edible film made from cassava starch and organoleptic value as primary packaging of snake fruit lunkhead. The experimental design used was completely randomized design with two factors, nine treatments and three replications. The first factor was the percentage of cassava starch used, the second factor was the type of plasticizer used. The results showed that: 1) The range of water content from the ninth edible film treatments were 10-32%. 2) The highest percentace of cassava starch addition, caused the increassing of edible film water vapor transmission rate. 3) The use of sorbitol plasticizers provides the highest water vapor transmission rate. 4) The range of peroxide content from ninth edible film treatment were 1,64 – 7,08 meq/kg. 5) As the primary packaging snake fruit lunkhead, the highest edible film panelist overall preferences was from sorbitol plasticizer and 4% use of cassava starch, ie. 80% of panelists like it, with an average value 3,8 which means they like it.

Cassava starch; Edible film; Lunkhead; Packaging

AOAC. 1990. Official Methods of Analysis of The Association of Offical Analytical Chemist. Vol I, Published by AOAC International, Arlington, USA

Anonim. 2014. Kumpulan Praktikum Chemistry. Http://maulanaadiwibowo150595-praktikum.blogspot.co.id/2014/06/kimia-org-n-ik-percobaan-peroksida.html

Belibi, P.C., Daou, T.J.., Ndjaka, J. M. B., Nsom, B., Michelin, L., and Durand, B. 2014. A Comparative Study of Some Properties of Cassava and Tree Cassava Starch. Physics Procedia, 55, 220{226.doi:10.1016/j.phpro.2014.07.032

Bourtoom, T. 2007. Effect of Some Process Parameters on The Properties of Edible Film Prepared form Starch. Department of Material Product Technology, Songkhala. (online) available at http://vishnu.sut.aac.th./iat/food_inovation/up/rice/%20starch%20film.doc

Careda, M. P., C. M. henrique, M. A. de Oliveira, M. V. Ferraz, N. M. Vincentini. 200. Characterization of Edible Films of Cassava Starch by Electron Microscopy. braz. J. Food technol 3: 91-95 (on line). avaliable at: http://www.ital.sp.gov.br/bj/artigos/bjft/2000/p0040.pdf

Chiumarelli, M. and Hubinger, M. D. 2014. Evaluation of Edible and Coatings Formulated with Cassava Startch, Glycerol, Carnauba Wax and Stearic Acid. Food Hydro-colloids, 38, 20{27.doi:10.1016/j.foodhyd.2013.11.013

Damat. 2008. Effects of Plasticizer Type and Concentration of The Edible Film Characteristics of Arrowroot Starch Butyrate. AGRITEK 16 (3): 333-339

Donhowe, G. and O. Fennema. 1993. Water Vapor and Oxygen Permeability of Wax Film. Journal of The Americal Oil Chemist Society. Volume 70. Issue 9. pp: 867-873

Fama, L., Rojas, A.M., Goyanes, S. and Gerschen, L. 2005. Mechanical Properties of Tapioca-Starch Edible Films Containing Sorbates. LWT 38:631-639

Gennadios, A., McHugh, T. H., Weller, C. L., and Krochta, J. M. 1994. Edible Coatings and Films Based On Proteins. In J. M. Krochta, E. A. Baldwin and M. Nisperos-Carriedo (Eds.), Edible Coatings and Films to Improve Food Quality (pp. 210-278). Lancaster: Technomic Pub. Co., Inc.

Gennadios, A., McHugh, T. H., Weller, C. L., and Krochta, J. M. 1994. Edible Coatings And Films Based On Proteins. In J. M. Krochta, E. A. Baldwin, & M. Nisperos - Carriedo (Eds.), Edible Coatings And Films To Improve Food Quality (pp. 210–278). Lancaster :Technomic Pub. Co., Inc

Gontard, N., Guilbert, S., & Cuq, J.-L. (1993).Water And Glycerol as Plasticizer Affect Mechanical And Water Vapor Barrier Properties of An Edible Wheat Gluten Film. Journal of Food Science,58, 206–211.

Guilbert, S. and B. Biquet. 1990. Edible Films And Coatings. In: G. Bureau and J.L. Multon (eds.). Food packaging, volume I. VCH Publishers, New York.

Hanum, F., 2010, Utilization Ginger Starch (Zingiber officinale) as Material Making Edible Film (Study of Ginger Starch and Glycerol Concentration), Thesis, FTP, Brawijaya University, Malang.

Harris, H. 2001. The Possible Use of Edible films from Tapioca Starch For Packaging Lempuk. Journal of Agricultural Sciences Indonesia 3 (2): 99-106

Kartika B., B. Hastuti and W. Supartono. 1988. Pedoman Uji Inderawi Bahan Pangan. PAU Pangan dan Gizi. UniversitasGadjah Mada. Yogyakarta.

Ketser, J.J., dan Fennema, O. 1986. Edible film and Coating: A View, Food Technology, 40 (12): 47 - 59.

Mchugh.T.J.. J.F. Aujard and J.M. Krochta. 1994. Plasticized Whey Protein Edible Film: Water Vapor Permeability Properties. Journal of Food Science.Volume 39. Issue 2 pp: 416–419.

Nurjannah.W. 2004. Isolasi dan Karakterisasi Alginat Dari Rumput Laut Surgasum sp Untuk Pembuatan Biogredable Film Komposit Alginat Tapioka. Thesis. Fakultas Teknologi Pertanian. Universitas Gadjah Mada. Yogyakarta.

Pagella, C., G. Spigno, and D.M. DeFaveri. 2002.Characterization of starch based edible coatings. Food and Bioproducts Processing 80:193 -198

Peroni, F.G.H., T.S. Rocha, and E.M.L. Franco. 2006. Some Structure And Physicochemical Charasteristics of Tuber And Root Starces. J.Food Science Technology International. Volume 12 Issue 6, pp. 550 – 523.

Prihatiningsih, N. 2000. The Effect of The Sorbitol Addition And Palmitic Acid to The Film Thicknes And Mechanical Properties of Zein Edible Film. Thesis. Department of Agricultural Technology, Faculty of Agricultural Technology, Gadjah Mada University, Yogyakarta. Thesis (unpublished).

Resurreccion, A.V.A., 1998. Consumer Sensory Testing for Product Development. Aspen Publisher, Inc., Maryland.

Rodriguez, M, J. Oses, K. Ziani, and J.I. Mate. 2006.Combined Effect of Plasticizers and Surfactants on The Physical Properties od Starch Based Edible Films. Food Res. Int. 39: 840-846.

Rukhanah. 2005. Dodol Rumput Laut. Thesis. Fakultas Perikanan Universitas Brawijaya. Malang.

Santoso ,B., D.Saputra, and R. Pambayun. 2004. Study of Edible Coating Technology from Starch and Its Application for Startch Primary Packaging Lempok Durian. Jorunal of Food technology and industries, Vol. XV No. 3 of 2004.

Sarmento, A. L. S. C., Sobral, P. J. A., & Menegalli, F. C. (2000). Influence of Main Process Variables on Solubility And Mechanical Properties of Cross - linked Gelatin Biofilm. Proceedings of 10th International Coating Science and Technology Symposium, Scottsdale, USA (pp. 242–244).

Setyowati. R., Surahman, and Asti Mulasari.2013. The Level of Housewife’s Knowledge and Behavior in Managing Plastic Waste. Public Health Journal Vol. 7, No. 12 Juli 2013. P. 562-566.

Sobral, P. J. A., Menegalli, F. C., Hubinger, M. D., & Roques, M. A. (2001). Mechanical, Water Vapor Barrier And Thermal Properties of Gelatin Based Edible. Food Hydrocolloids, 15 (4-6), 423{432. doi:10. 1016/S0268-005X(01)00061-3

Steel, R.G.D. and J.H. Torrie, 1993. Principples and Procedures of Statistics. A Biomedical Approach, 3rd Ed. Mc Graw Hill, Kagasukha Ltd., Tokyo.

Thirathumthavorn, D. and S. Charoenrein. 2007. Aging Effect on Sorbito And Non-crystallizing Sorbitol -Plasticized Tapioca Starch Films. Starch 59:493-497.

Vicentini, N. M. & Cereda, M. P. (1999). Uso de _lmes de f_ecula de mandioca em p_oscolheita de pepino (cucumis sativus l.) Brazilian Journal of Food Technology, 2 (1-2), 87-90

Winarno, F.G. 1991. Food Chemistry and Nutrition, Technology and Consumer. Jakarta: PT Gramedia.