Andrade, R. D., Skurtys, O., and Osorio, F. A. (2012). Atomizing spray systems for

application of edible coatings. Comprehensive Reviews in Food Science and Food Safety 11 (3), 323-337.

Arthur R. (2014). Project turns up the heat on biodegradable dairy packaging. Food Production 14-Jul-2014. Accessed, November 30th, 2014.

Balaguer, M. P., Fajardo, P., Gartner, H., Gomez-Estaca, J., Gavara, R., Almenar, E., and Hernandez-Munoz P. (2014). Functional properties and antifungal activity of films based on gliadins containing cinnamaldehyde and natamycin. International Journal of Food Microbiology 173, 62-71.

Bargmann, M., Kothe, H., Steinhoff, B., Alig, I., Rode, C., Wyrwa, R., and Schnabelrauch, M. (2013). PLA-based biodegradable and cytocompatible implant materials: Material development, processing and properties. Journal of Materials Science and Engineering B,

3 (10), 619-632.

Cao-Hoang, L., Chaine, A., Gregoire, L., and Wache, Y. (2010). Potential of nisin- incorporated sodium caseinate films to control Listeria in artificially contaminated cheese. Food Microbiology 27, 940-944.

Cerqueira, M., Lima, A., Souza, B., Teixeira, J., Moreira, R., and Vicente, A. (2009). Functional polysaccharides as edible coatings for cheese. Journal of Agricultural and Food Chemistry 57 (4), 1456-1462.

Cerqueira, M. A., Sousa-Gallagher, M. J., Macedo, I., Rodriguez-Aguilera, R., Souza,

B. W. S., Teixeira, J. A., and Vicente, A. A. (2010). Use of galactomannan edible coating application and storage temperature for prolonging shelf-life of “Regional" cheese. Journal of Food Engineering 97 (1), 87-94.

Communication Office of the University of the Basque Country. (2014). http://www. biomat/20141030_biomat.html. 30/10/2014. Accessed December 20th, 2014.

Conte, A., Longano, D., Costa, C., Ditaranto, N., Ancona, A., Cioffii, N., Scrocco, C., Sabbatini, L., Conto, F., and Del Nobile, M.A. (2013). A novel preservation technique applied to fiordilatte cheese. Innovative Food Science and Emerging Technologies 19, 158-165.

Detzel, A., Kauertz, B., and Derreza-Greeven, C. (2013). Study of the environmental impacts of packagings made of biodegradable plastics. medien/4446.html. Edited by Section III 1.6 Product Responsibility, Wolfgang Beier. Dessau-Rofilau, Germany. Federal Ministry of the Environment, Nature Conservation and Nuclear Safety. Federal Environment Agency (Germany).

Di Pierro, P., Sorrentino, A., Mariniello, L., Giosafatto, C. V. L., and Porta, R. (2011). Chitosan/whey protein film as active coating to extend Ricotta cheese shelf-life. LWT— Food Science and Technology 44, 2324-2327.

dos Santos Pires A.C., Ferreira Soares N., de Andrade N. J., Mendes da Silva L. H., Peruch Camilloto G. and Campos Bernardes P. (2008). Development and evaluation of active packaging for sliced mozzarella preservation. Packaging Technology and Science 21, 375-383.

Duan J., Park S.-I., Daeschel M.A. and Zhao Y. (2007). Antimicrobial chitosan-lysozyme (cl) films and coatings for enhancing microbial safety of mozzarella cheese. Journal of Food Science 72 (9), M355-M362.

Dukalska, L., Muizniece-Brasava, S., Murniece, I., Dabina-Bicka, I., Kozlinskis, E., and Sarvi, S. (2011). Influence of PLA film packaging on the shelf life of soft cheese World Academy of Science, Engineering and Technology, Kleo 5, 274-280.

EFSA. Accessed November 20th, 2014.

European Bioplastics. (2014). Accessed November 20, 2014.

Fajardo, P., Martins, J., Fucinos, C., Pastrana, L., Teixeira, J. and Vicente, A. (2010). Evaluation of a chitosan-based edible film as carrier of natamycin to improve the storability of Saloio cheese. Journal of Food Engineering 101, 349-356.

Food Biopack Project. (2000). Food biopackaging. In: Biobased packaging materials for the food industry. Status and Perspectives. A European concerted action. Edited by Claus J. Weber. KVL Publisher. Department of Dairy and Food Science. Frederiksberg, Denmark. Chapter 3. Pages 45-84.

Fortunati, E., Rinaldi, S., Peltzer, M., Bloise, N., Visai, L., Armentano, I., Jimenez, A., Latterini, L., Kenny, J. M. (2014). Nano-biocomposite films with modified cellulose nanocrystals and synthesized silver nanoparticles. Carbohydrate Polymers 101, 1122-1133.

Frederiksen C. S., Haugaard V. K., Poll, L., and Becker, E. M. (2003). Light-induced quality changes in plain yoghurt packed in polylactate and polystyrene. European Food Research and Technology 217, 61-69.

Gammariello, D., Conte, A., Buonocore, G. G., and Del Nobile, M. A. (2011). Bio-based nanocomposite coating to preserve quality of Fior di latte cheese. Journal of Dairy Science 94, 5298-5304.

Ganesh, V., Hettiarachchy, N. S., Griffis, C. L., Martin, E. M., and Ricke, S. C. (2012). Electrostatic spraying of food-grade organic and inorganic acids and plant extracts to decontaminate Escherichia coli O157:H7 on spinach and iceberg lettuce. Journal of Food Science 77 (7), M391-M396.

Garrido, T., Etxabide, A., Leceta, I., Cabezudo, S., de la Caba, K., Guerrero, P. (2014). Valorization of soya by-products for sustainable packaging. Journal of Cleaner Production, 64, 228-233.

GISOWASTE. (2014). packaging. (24/09/2014). Accessed December 20th, 2014.

Haiyan, Li, and Jiang Chang. (2005). pH-compensation effect of bioactive inorganic fillers on the degradation of PLGA. Composites Science and Technology 65 (14), 2226-2232.

Holm, V. K., Mortensen, G., and Risbo, J. (2006a). Quality changes in semi-hard cheese packaged in a polylactic acid material. Food Chemistry 97, 401-410.

Holm, V. K., Mortensen, G., Vishart M., Petersen, M. A. (2006b). Impact of polylactic acid packaging material on semi-hard cheese. International Dairy Journal 16, 931-939.

Martins, J., Cerqueira, M., Souza, B., Carmo Avides, M. and Vicente, A. (2010). Shelf life extension of ricotta cheese using coatings of galactomannans from nonconventional sources incorporating nisin against Listeria monocytogenes. Journal of Agricultural and Food Chemistry 58 (3), 1884-1891.

McHugh, T., and Krochta, J. (1994). Sorbitol- vs. glycerol-plasticized whey protein edible films: integrated oxygen permeability and tensile property evaluation. Journal of Agricultural and Food Chemistry 42 (2), 841-845.

Medeiros, B. G. de S., Souza, M. P., Pinheiro, A. C., Bourbon, A. I., Cerqueira, M. A., Vicente, A. A., and Carneiro-da-Cunha, M. G. (2014). Physical characterisation of an alginate/lysozyme nano-laminate coating and its evaluation on ‘Coalho' cheese shelf life. Food and Bioprocess Technology 7, 1088-1098.

Mitrus, M., Wojtowicz, A., Moscicki, L. (2010). Biodegradable polymers and their practical utility. In: Thermoplastic Starch. Edited by L. P.B.M. Janssen and L. Moscicki. Wiley- VCH Verlag GmbH and Co. Kgaa, Weinheim, Germany.

Moreira, M., Pereda, M., Marcovich, N. E., and Roura, S. I. (2011). Antimicrobial

effectiveness of bioactive packaging materials from edible chitosan and casein polymers: assessment on carrot, cheese, and salami. Journal of Food Science 76 (1), M54-M63.

Natureworks. (2011). Releases/2011/05-25-11-Danone-Launch. Accessed November 30th, 2014.

Olle Resa, C. P., Gerschenson, L. N., and Jagus, R. J. (2014a). Natamycin and nisin

supported on starch edible films for controlling mixed culture growth on model systems and Port Salut cheese. Food Control 44,146-151.

Olle Resa, C. P., Jagus, R. J., and Gerschenson, L. N. (2014b). Natamycin efficiency for controlling yeast growth in models systems and on cheese surfaces. Food Control 35, 101-108.

Petersen, K., Vaggemose, Nielsen P., Bertelsen, G., Lawther, M., Olsen, M. B., Nilssonk,

N. H., and Mortensen G. (1999). Potential of biobased materials for food packaging. Trends in Food Science and Technology 10, 52-68.

Ramos O., Silva S., Soaresa J., Fernandes, J., Po^as M., Pintado, M., and Malcata, F. (2012). Features and performance of edible films, obtained from whey protein isolate formulated with antimicrobial compounds. Food Research International 45 (1), 351-361.

Sawpan, M., Pickering, K. L., and Fernyhough, A. (2011). Improvement of mechanical performance of industrial hemp fiber reinforced polylactide biocomposites. Composites Part A: Applied Science and Manufacturing, 42, 310-319.

Scannell, A. G., Hill, C., Ross, R. P., Marx, S., Hartmeier, W., and Arendt, E. K. (2000). Development of bioactive food packaging materials using immobilised bacteriocins lacticin 3147 and nisaplin. International Journal of Food Microbiology 60, 241-249.

Scott-Thomas, C. (2014). MEPs reject nanoparticles in novel foods. Food (25-Nov-2014). Accessed November 30th, 2014.

Song, J. H., Murphy, R. J., Narayan, R., and Davies, G. B. H. (2009). Biodegradable and compostable alternatives to conventional plastics. Philosophical Transactions of the Royal Society B, 364, 2127-2139.

Ture, H., Eroglu, E., Ozen, B., and Soyer, F. (2011). Effect of biopolymers containing natamycin against Aspergillus niger and Penicillium roquefortii on fresh kashar cheese. International Journal of Food Science and Technology 46, 154-160.

Wagh, Y. R., Pushpadass, H. A., Emerald F. M., and Nath, B. S. (2014). Preparation and characterization of milk protein films and their application for packaging of cheddar cheese. Journal of Food Science and Technology 51 (12), 3767-3775.

Zhong, Y., Cavender, G., and Zhao, Y. (2014). Investigation of different coating application methods on the performance of edible coatings on Mozzarella cheese. LWT—Food Science and Technology 56 (1), 1-8.

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