Advanced search
Publication Cover
International Journal of Food Properties Volume 20, 2017 - Issue 11
Submit an article Journal homepage
4,829
Views
27
CrossRef citations to date
0
Altmetric
Articles

Sugar profile and physicochemical properties of Ethiopian monofloral honey

Abera BelayCenter for Food Science and Nutrition, Addis Ababa University, Addis Ababa, Ethiopia;Department of Food Science and Post-harvest Technology, Arsi University
,
Gulelat Desse HakiDepartment of Food Science and Technology, Botswana College of Agriculture, Botswana
,
Marc BirringerDivision of Convergence Technology, Fulda University of Applied Sciences, Fluda, Germany
,
Hannelore BorckDivision of Convergence Technology, Fulda University of Applied Sciences, Fluda, Germany
,
Young-Chul LeeKorea Food Research Institute, Seongnam, Korea
,
Chang-Won ChoKorea Food Research Institute, Seongnam, Korea
,
Kyung-Tack KimKorea Food Research Institute, Seongnam, Korea
,
Bikila BayissaFood, Medicines and Healthcare Administration & Control Authority of Ethiopia, Addis Ababa, Ethiopia
,
Kaleab BayeCenter for Food Science and Nutrition, Addis Ababa University, Addis Ababa, Ethiopia
&
Samuel MelakuDepartment of Chemistry, Columbus State University, Columbus, Georgia, USACorrespondence[email protected]
 show all
Pages 2855-2866 | Received 10 Aug 2016, Accepted 29 Oct 2016, Published online: 23 Mar 2017

References

  • Olaitan, P.B.; Adeleke, O.E.; Iyabo, O.O. Honey: A Reservoir for Microorganisms and An Inhibitory Agent for Microbes. African Health Sciences 2007, 7(3), 159–165.
  • Karasu, S.; Toker, O.S.; Yilmaz, M.T.; Karaman, S.; Dertli, E. Thermal Loop Test to Determine Structural Changes and Thermal Stability of Creamed Honey: Rheological Characterization. Journal of Food Engineering 2015, 150, 90–98.
  • Senyuva, H.Z.; Gilbert, J.; Silici, S.; Charlton, A.; Dal, C.; Gürel, N.; Cimen, D. Profiling Turkish Honeys to Determine Authenticity using Physical and Chemical Characteristics. Journal of Agricultural and Food Chemistry 2009, 57(9), 3911–3919.
  • Alvarez-Suarez, J.M.; González-Paramás, A.M.; Santos-Buelga, C.; Battino, M. Antioxidant Characterization of Native Monofloral Cuban Honeys. Journal of Agricultural and Food Chemistry 2010, 58(17), 9817–9824.
  • Belay, A.; Solomon, W.K., Bultossa, G.; Adgaba, N.; & Melaku, S. Physicochemical Properties of the Harenna Forest Honey, Bale, Ethiopia. Food Chemistry 2013, 141(4), 3386–3392.
  • Bogdanov, S.; Lüllmann, C.; Martin, P.; von der Ohe; W., Russmann, H.; Vorwohl, G.; Oddo, L.P., Sabatini, A.G., Marcazzan, G.L., Piro, R.; Flamini C. Honey Quality and International Regulatory Standards: Review by the International Honey Commission. Bee World 1999, 80(2), 61–9.
  • Venturi, L.; Rocculi, P.; Cavani, C.; Placucci, G.; Rosa, M.D.; Cremonini, M.A. Water Absorption of Freeze-dried Meat at Different Water Activities: A Multianalytical Approach using Sorption Isotherm, Differential Scanning Calorimetry, and Nuclear Magnetic Resonance. Journal of Agricultural and Food Chemistry 2007, 55(26), 10572–10578.
  • Fellows, P.J. Food Processing Technology: Principles and Practice; Woodhead Publishing Limited: Cambridge, England, 2009; 44–49.
  • Lavelli, V.; Kerr, W.; Sri Harsha, P.S.C. Phytochemical Stability in Dried Tomato Pulp and Peel as Affected by Moisture Properties. Journal of Agricultural and Food Chemistry 2013, 61(3), 700–707.
  • González-Miret, M.L.; Terrab, A.; Hernanz, D.; Fernández-Recamales, M.Á.; Heredia, F.J. Multivariate Correlation between Color and Mineral Composition of Honeys and by Their Botanical Origin. Journal of Agricultural and Food Chemistry 2005, 53(7), 2574–2580.
  • Belay, A.; Solomon, W.K., Bultossa, G.; Adgaba, N.; Melaku, S. Botanical Origin, Colour, Granulation, and Sensory Properties of the Harenna Forest Honey, Bale, Ethiopia. Food Chemistry 2015, 167, 213–219.
  • Popek, S. A procedure to Identify a Honey Type. Food Chemistry 2002, 79(3), 401–406.
  • Tuberoso, C.I.G.; Jerković, I.; Sarais, G.; Congiu, F.; Marijanović, Z.; Kuś, P.M. Color Evaluation of Seventeen European Unifloral Honey Types by Means of Spectrophotometrically Determined CIE Chromaticity Coordinates. Food Chemistry 2014, 145, 284–291.
  • Saxena, S.; Gautam, S.; Sharma, A. Physical, Biochemical and Antioxidant Properties of Some Indian Honeys. Food Chemistry 2010, 118(2), 391–397.
  • Chirife, J.; Zamora, M.C.; Motto, A. The Correlation between Water Activity and % Moisture in Honey: Fundamental Aspects and Application to Argentine Honeys. Journal of Food Engineering 2006, 72(3), 287–292.
  • Abramovič, H.; Jamnik, M.; Burkan, L.; Kač, M. Water Activity and Water Content in Slovenian Honeys. Food Control 2008, 19(11), 1086–1090.
  • Serem, J.C.; Bester, M.J. Physicochemical Properties, Antioxidant Activity and Cellular Protective Effects of Honeys from Southern Africa. Food Chemistry 2012, 133(4), 1544–1550.
  • Gómez-Díaz, D.; Navaza, J.M.; Quintáns-Riveiro, L.C. Physicochemical Characterization of Galician Honeys. International Journal of Food Properties 2012, 15(2), 292–300.
  • Meli, M.A.; Desideri, D.; Roselli, C.; Feduzi, L.; Benedetti, C. Radioactivity in Honey of the Central Italy. Food Chemistry 2016, 202, 349–355.
  • Belay, A.; Haki, G.D.; Birringer, M.; Borck, H.; Addi, A; Baye, K; Melaku, S. Rheology and Botanical Origin of Ethiopian Monofloral Honey. LWT-Food Science and Technology 2017, 75, 393–401.
  • Ohe, W.V.D.; Oddo, L.P.; Piana, M.L.; Morlot, M.; Martin, P. Harmonized Methods of Melissopalynology. Apidologie 2004, 35, S18–S25.
  • Bogdanov, S. Harmonised Methods of the International Honey Commision; IHC World Network of Honey Science, 2009, 5, 1–62.
  • AOAC. Official Methods of Analysis of AOAC International. (15th ed) Association of Official Analysis Chemists International, USA. 1990
  • Gleiter, R.A.; Horn, H.; Isengard, H.D. Influence of Type and State of Crystallisation on the Water Activity of Honey. Food Chemistry 2006, 96(3), 441–445.
  • Aazza, S.; Lyoussi, B.; Antunes, D.; Miguel, M.G. Physicochemical Characterization and Antioxidant Activity of Commercial Portuguese Honeys. Journal of Food Science 2013, 78(8), C1159–C1165.
  • De La Fuente, E.; Ruiz-Matute, A.I.; Valencia-Barrera, R.M.; Sanz, J.; Castro, I.M. Carbohydrate Composition of Spanish Unifloral Honeys. Food Chemistry 2011, 129(4), 1483–1489.
  • Ouchemoukh, S.; Schweitzer, P.; Bey, M.B.; Djoudad-Kadji, H.; Louaileche, H. HPLC Sugar Profiles of Algerian Honeys. Food Chemistry 2010, 121(2), 561–568.
  • León‐Ruiz, V.; Vera, S.; González‐Porto, A.V.; & Andrés, M.P.S. Vitamin C and Sugar Levels as Simple Markers for Discriminating Spanish Honey Sources. Journal of Food Science 2011, 76(3), C356–C361.
  • Manzanares, A.B.; García, Z.H.; Galdón, B.R.; Rodríguez, E.R.; Romero, C.D. Differentiation of Blossom and Honeydew Honeys using Multivariate Analysis on the Physicochemical Parameters and Sugar Composition. Food Chemistry 2011, 126(2), 664–672.
  • Manzanares, A.B.; García, Z.H.; Galdón, B.R., Rodríguez, E.R.; Romero, C.D. Physicochemical Characteristics of Minor Monofloral Honeys from Tenerife, Spain. LWT-Food Science and Technology 2014, 55(2), 572–578.
  • Münstedt, K.; Sheybani, B; Hauenschild, A; Brüggmann, D; Bretzel, R.G; Winter, D. Effects of Basswood Honey, Honey-comparable Glucose-fructose Solution, and Oral Glucose Tolerance Test Solution on Serum Insulin, Glucose, and C-peptide Concentrations in Healthy Subjects. Journal of Medicinal Food 2008, 11(3), 424–428.
  • Swallow, K.W; Low, N.H. Analysis and Quantitation of the Carbohydrates in Honey using High-performance Liquid Chromatography. Journal of Agricultural and Food Chemistry 1990, 38(9), 1828–1832.
  • Low, N.I.H.; Sporns, P. Analysis and Quantitation of Minor di‐and Trisaccharides in Honey, Using Capillary Gas Chromatography. Journal of Food Science 1988, 53(2), 558–561.
  • De la Fuente, E.; Sanz, M.L., Martínez-Castro, I.; Sanz, J.; Ruiz-Matute, A.I. Volatile and Carbohydrate Composition of Rare Unifloral Honeys from Spain. Food Chemistry 2007, 105(1), 84–93.
  • Gomes, S.; Dias, L.G.; Moreira, L.L.; Rodrigues, P.; Estevinho, L. Physicochemical, Microbiological and Antimicrobial Properties of Commercial Honeys from Portugal. Food and Chemical Toxicology 2010, 48(2), 544–548.
  • Zamora, M.C.; Chirife, J. Determination of Water Activity Change Due to Crystallization in Honeys from Argentina. Food Control 2006, 17(1), 59–64.
  • Scandurra, G.; Tripodi, G.; Verzera, A. Impedance Spectroscopy for Rapid Determination of Honey Floral Origin. Journal of Food Engineering 2013, 119(4), 738–743.
  • Karabagias, I.K.; Badeka, A.; Kontakos, S.; Karabournioti, S.; Kontominas, M.G. Characterization and Classification of Thymus capitatus (L.) Honey According to Geographical Origin Based on Volatile Compounds, Physicochemical Parameters and Chemometrics. Food Research International 2014, 55, 363–372.
  • Hernández, O.M.; Fraga, J.M.G.; Jiménez, A.I.; Jimenez, F.; Arias, J.J. Characterization of Honey from the Canary Islands: Determination of the Mineral Content by Atomic Absorption Spectrophotometry. Food Chemistry 2005, 93(3), 449–458.
  • Nanda, V.; Sarkar, B.C.; Sharma, H.K.; Bawa, A.S. Physico-chemical Properties and Estimation of Mineral Content in Honey Produced from Different Plants in Northern India. Journal of Food Composition and Analysis 2003, 16(5), 613–619.
  • Baroni, M.V.; Arrua, C.; Nores, M.L.; Fayé, P.; del Pilar Díaz, M.; Chiabrando, G.A.; Wunderlin, D. A. Composition of Honey from Córdoba (Argentina): Assessment of North/South Provenance by Chemometrics. Food Chemistry 2009, 114(2), 727–733.
  • Madejczyk, M.; Baralkiewicz, D. Characterization of Polish Rape and Honeydew Honey According to their Mineral Contents using ICP-MS and F-AAS/AES. Analytica Chimica Acta 2008, 617(1), 11–17.
  • Kaškonienė, V.; Venskutonis, P.R.; Čeksterytė, V. Carbohydrate Composition and Electrical Conductivity of different Origin Honeys from Lithuania. LWT-Food Science and Technology 2010, 43(5), 801–807.
  • Feás, X.; Pires, J.; Iglesias, A.; Estevinho, M.L. Characterization of Artisanal Honey Produced on the Northwest of Portugal by Melissopalynological and Physico-chemical data. Food and Chemical Toxicology 2010, 48(12), 3462–3470.
  • Zamora, M.C.; Chirife, J.; Roldán, D. On the Nature of the Relationship between Water Activity and% Moisture in Honey. Food Control 2006, 17(8), 642–647.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.