REFERENCES
- Ferreira, I.C.F.R.; Aires, E.; Barreira, J.C.M.; and Estevinho, L.M. Antioxidant Activity of Portuguese Honey Samples: Different Contributions of the Entire Honey and Phenolic Extract. Food Chemistry 2009, 114, 1438–1443.
- Boussaid, A.; Chouaibi, M.; Rezig, L.; Donsi, F.; Ferrari, G.; Hamdi, S. Physicochemical and Bioactive Properties of Six Honey Samples from Various Floral Origins from Tunisia. Arabian Journal of Chemistry [Online early access]. DOI:10.1016/j.arabjc.2014.08.011. Published Online: Aug 28, 2014.
- The National Honey Board. Honey-Health and Therapeutic Qualities. http://www.nhb.org/download /factsht/compendium 2002. (accessed December 11, 2004).
- Alvarez-Suarez, J.M.; Tulipani, S.; Díaz, D.; Estevez, Y.; Romandini, S.; Giampieri, F.; Damiani, E.; Astolfi, P.; Bompadre, S.; Battino, M. Antioxidant and Antimicrobial Capacity of Several Monofloral Cuban Honeys and Their Correlation with Color, Polyphenol Content, and Other Chemical Compounds. Food and Chemical Toxicology 2010, 48, 2490–2499.
- Shoham, S.; Youdim, M.B. Iron Involvement in Neural Damage and Microgliosis in Models of Neurodegenerative Diseases. Cellular and Molecular Biology 2000, 46(4), 743–760.
- Finola, M.S.; Lasagno, M.C.; Marioli, J.M.; Microbiological and Chemical Characterization of Honeys from Central Argentina. Food Chemistry 2007, 100, 1649–1653.
- Ahmed, J.; Prabhu, S.T.; Raghavan, G.S.V.; Ngadi, M. Physico-Chemical, Rheological, Calorimetric, and Dielectric Behavior of Selected Indian Honey. Journal of Food Engineering 2007, 79, 1207–1213.
- Chen, Y.W.; Lin, C.H.; Wu, F.Y.; Chen, H.H. Rheological Properties of Crystallized Honey Prepared by a New Type of Nuclei. Journal of Food Process Engineering 2007, 32, 512–527.
- Conforti, P.A.; Lupano, C.E.; Malacalza, N.H.; Arias, V.; Castells, C.B. Crystallization of Honey at –20°C. International Journal of Food Properties 2006, 9, 99–107.
- Bhandari, B.; D’arcy, B.; Chow, S. A Research Note: Rheology of Selected Australian Honeys. Journal of Food Engineering 1999, 41, 65–68.
- Juszczak, L.; Fortuna, T. Rheology of Selected Polish Honeys. Journal of Food Engineering 2006, 73, 43–49.
- Gleiter, R.A.; Horn, H.; Isengard, H.D. Influence of Type and State of Crystallization on the Water Activity of Honey. Food Chemistry 2006, 96, 441–445.
- Witczaka, M.; Juszczak, L.; Gałkowsk, D. Non-Newtonian Behaviour of Heather Honey. Journal of Food Engineering 2011, 104, 532–537.
- Smanalieva, J.; Senge, B. Analytical and Rheological Investigations into Selected Unifloral German Honey. European Food Research and Technology 2009, 229, 107–113.
- AOAC. Official Methods of Analysis of AOAC International, 16th Ed; Association of Official Analytical Chemists: Washington, DC, 1990.
- Bonta, V.; Mărghitas, P.; Bobis, O.; Dezmirean, D. HPLC Sugar Profile in Quality and Authenticity Determination of Romananian Honey. Apiculture-from Science to Agri-Business and Apitherapy. Cluj-Napoca Proceedings 2007, 3, 58–63.
- Codex Alimentarius Commission Standards (2001). CODEX STAN 12-1981, Rev.1, 1987, Rev.2.
- Ouchemoukh, S.; Louaileche, H.; Schweizer, P. Physicochemical Characteristics and Pollen Spectrum of Some Algerian Honey. Food Control 2007, 18, 52–58.
- Conti, M.E. Lazio Region (Central Italy) Honeys: Determination of Mineral Content and Typical Quality Parameters. Food Control 2000, 11, 459–463.
- Terrab, A.; Recamales, A.F.; Hernanz, D.; Heredia, F.J. Characterization of Spanish Thyme Honeys by Their Physicochemical Characteristics and Mineral Contents. Food Chemistry 2004, 88, 537–542.
- Conti, M.E.; Saccares, S.; Cubadda, F.; Cavallina, R.; Tenoglio, C.A.; Ciprotti, L. Honey in Lazio: Survey content in trace metals and radionuclides. Riv.Sci. Alim 1998, 2, 107–119.
- EU. Council Directive 2001/110 Relating to Honey. Official Journal of the European Communities 2001, 10, 47–52.
- Gomes, T.; Fea’s, X.; Iglesias, A.; Estevinho, L.M. Study of Organic Honey from the Northeast of Portugal. Molecules 2011, 16, 5374–5386.
- Barnes, H.A.; Walters, K. The Yield Stress Myth? Rheologica Acta 1985, 24(4), 323–326.
- Barnes, H.A. The Yield Stress-A Review or παντα ρει—Everything Flows? Journal of Non-Newtonian Fluid Mechanics 1999, 81, 133–178.
- Mujumdar, A.N.; Beris, A.N.; Metzner, A.B. Transient Phenomena in Thixotropic Systems. Journal of Non-Newtonian Fluid Mechanics 2002, 102, 157–178.
- Sopade, P.A.; Halley, P.; Bhandari, B.D.; Arcy, B.; Doebler, C.; Caffin, N. Application of the Williams-Landel-Ferry Model To The Viscosity-Temperature Relationship of Australian Honeys. Journal of Food Engineering 2002, 56, 67–75.
- Lazaridou, A.; Biliaderis, C.G.; Bacandritsos, N.; Sabatini, A.G. Composition, thermal, and Rheological Behaviour of Selected Greek Honeys. Journal of Food Engineering 2004, 64, 9–21.
- Cohen, I.; Weihs, D. Rheology and Microrheology of Natural and Reduced-Calorie Israeli Honeys as a Model for High-Viscosity Newtonian Liquids. Journal of Food Engineering 2010, 10, 366–371.
- Chouaibi, M.; Mahfoudhi, N.; Rezig, L.; Donsì, F.; Ferrari, G.; Hamdi, S. A Comparative Study on Physicochemical, Rheological, and Surface Tension Properties of Tunsisan Jujube (Zizyphus Lotus L.) Seed and Vegetable Oils. International Journal of Food Engineering 2012, 8, 1–20. DOI:10.1515/1556-3758.2759.
- Mohammadifara, M.A.; Musavia, S.M.; Kiumarsib, A.; Williamsc, P.A. Solution Properties of Targacanthin (Water Soluble Part of Gum Tragacanth Exudate from Astragalus Gossypinus). International Journal of Biological Macromolecules 2006, 38, 31–39.
- Kang, K.M.; Yoo, B. Dynamic Rheological Properties of Honeys at Low Temperatures As Affected by Moisture Content and Temperature. Food Science and Biotechnology 2008, 17(1), 90–94.
- Oroian, M.; Amariei, S.; Escriche, I.; Gutt, G. Aviscoelastic Model for Honeys Using the Time-Temperature Superposition Principle (TTSP). Food Bioprocess Technology 2013, 6, 2251–2260.
- Bohdanecky, M.; Kovar, J. Viscosity of Polymer Solutions. In Polymer Kience Library Vol. 2; Jenkis, A.D.; Ed.; Elsevier Scientific: Amsterdam-Oxford-New York, 1982.
- Lapasin, R.; Pricl, S. Rheology of Polysaccharide Systems. In Rheology of Industrial-pol. Saccharides: Theory and Applications; Lapasin, R.; Pricl, S.; Eds.;. Blackie Academic and Professional: Glasgow, 1995; 250–494.
- Khondkara, D.; Testera, R.F.; Hudsonb, N.; Karkalasa, J.; Morrow, J. Rheological Behaviour of Uncross-Linked and Cross-Linked Gelatinized Waxy Maize Starch with Pectin Gels. Food Hydrocolloids 2007, 21, 1296–1301.
- Ouchemoukh, S.; Schweitzer, P.; Bey, M.B.; Djoudad-Kadji, H.; Louaileche, H. HPLC Sugar Profiles of Algerian Honeys. Food Chemistry 2010, 121, 561–568.
- Venir, E.; Spaziani, M.; Maltini, E. Crystallization in “Tarassaco” Italian Honey Studied by DSC. Food Chemistry 2010, 122, 410–415.