Free Access
Issue
Apidologie
Volume 35, Number Suppl. 1, 2004
European unifloral honeys
Page(s) S4 - S17
DOI https://doi.org/10.1051/apido:2004047
References of Apidologie 35 S4-S17
  • Accorti M., Piazza M.G., Persano Oddo L. (1987) La conductivité électrique et le contenu en cendre du miel, Apiacta 22, 19-20.
  • Alissandrakis E., Daferera D., Tarantilis P.A., Polissiou M., Harizanis P.C. (2003) Ultrasound-assisted extraction of volatile compounds from citrus flowers and citrus honey, Food Chem. 82, 575-582 [CrossRef].
  • Al-Khalifa A.S., Al-Arify I.A. (1999) Physicochemical characteristics and pollen spectrum of some Saudi honeys, Food Chem. 67, 21-25 [CrossRef].
  • Amiot M.J., Aubert S., Gonnet M., Tacchini M. (1989) Phenolic composition of honeys: preliminary study on identification and group quantification, Apidologie 20, 115-125.
  • Ampuero S., Bogdanov S., Bosset J. (2004) Classification of unifloral honeys with an MS-based electronic nose, using different sampling modes: SHS, SPME and INDEX, Eur. Food Res. Technol., in print.
  • Andrade P., Ferreres F., Amaral M.T. (1997a) Analysis of honey phenolic acids by HPLC, its application to honey botanical characterization, J. Liquid Chromatogr. Rel. Technol. 20, 2281-2288.
  • Andrade P., Ferreres F., Gil M.I., Tomas Barberan F.A. (1997b) Determination of phenolic compounds in honeys with different floral origin by capillary zone electrophoresis, Food Chem. 60, 79-84 [CrossRef].
  • Anklam E. (1998) A review of the analytical methods to determine the geographical and botanical origin of honey, Food Chem. 63, 549-562 [CrossRef].
  • Aubert S., Gonnet M. (1983) Mesure de la couleur des miels, Apidologie 14, 105-118.
  • Barbattini R., Greatti M., Iob M., Sabatini A.G., Marcazzan G.L., Colombo R. (1991) Osservazioni su Metcalfa pruinosa (Say) e indagine sulle caratteristiche del miele derivato dalla sua melata, Apicoltura 7, 113-135.
  • Baroni M.V., Chiabrando G.A., Costa C., Wunderlin D.A. (2002) Assessment of the floral origin of honey by SDS-page immunoblot techniques, J. Agric. Food Chem. 50, 1362-1367 [CrossRef] [PubMed].
  • Battaglini M., Bosi G. (1973) Caratterizzazione chimico-fisica dei mieli monoflora sulla base dello spettro glucidico e del potere rotatorio specifico, Sci. Tecnol. Aliment. 3, 217-221.
  • Benedetti S., Mannino S. Sabatini A.G., Marcazzan G.L. (2004) Electronic nose and neural network use for the classification of honey, Apidologie 35, 397-402 [EDP Sciences] [CrossRef].
  • Bergner K.G., Hahn H. (1972) Zum Vorkommen und zur Herkunft der freien Aminosäuren in Honig, Apidologie 3, 5-34.
  • Bergner K.G., Diemair S. (1975) Proteine des Bienenhonigs. I. Abtrennung und Konzentrierung der Proteine des Honigs, Z. Lebensm. Unters. Forsch. 157, 1-6 [PubMed].
  • Bogdanov S. (1997) Charakterisierung von Schweizer Sortenhonigen, Agrarforschung 4, 427-430.
  • Bogdanov S. (1999) Water content: comparison of refractometric methods with the Karl Fischer Method. Annual meeting of the International Honey Commission, Dijon (IHC site (http://www.apis.admin.ch/host/honey/minutes.htm) (accessed on 16 August 2004).
  • Bogdanov S., and 21 other members of the International Honey Commission (1999) Honey quality, methods of analysis and international regulatory standards: review of the work of the International Honey Commission, Mitt. Lebensm. Hyg. 90, 108-125.
  • Bogdanov S., Martin P. (2002) Honey authenticity: a review, Mitt. Lebensm. Hyg. 93, 232-254.
  • Bogdanov S., Martin P., Lüllmann C. (1997) Harmonised methods of the European Honey Commission, Apidologie, extra issue, 1-59. Online: (http://www.apis.admin.ch/host/doc/pdfhoney/IHCmethods_e.pdf) (accessed on 16 August 2004).
  • Bosi G., Battaglini M. (1978) Gas analysis of free and protein amino acids in some unifloral honeys, J. Apic. Res. 17, 152-166.
  • Bouseta A., Collin S. (1995) Optimized Likens- Nickerson Methodology for Quatifying Honey Flavours, J. Agric. Food Chem. 43, 1890-1896.
  • Bouseta A., Collin S., Dufour J.P. (1992) Characteristic aroma profiles of unifloral honeys obtained with a dynamic headspace GC-MS system, J. Apic. Res. 31, 96-109.
  • Bouseta A., Scheirman V., Collin S. (1996) Flavor and free amino acid composition of lavender and eucalyptus honey, J. Food Sci. 61, 683-687.
  • Cabras P., Angioni A., Tuberoso C., Floris I., Reniero F., Guillou C., Ghelli S. (1999) Homogentisic acid: A phenolic acid as a marker of strawberry-tree (Arbutus unedo) honey, J. Agric. Food Chem. 47, 4064-4067 [CrossRef] [PubMed].
  • Caroli S., Forte G., Iamiceli A.L., Galoppi B. (1999) Determination of Essential and Potentially Toxic Trace Elements in Honey by Inductively Couplet Plasma-Based Techniques, Talanta 50, 327-336 [CrossRef].
  • Cepurnoi I. (2000) Determination of honey quality, Agricultural cooperative Institute of Stawropol, Kavkazkij Krai, p. 52 (in Russian).
  • Codex Alimentarius (2001), Codex standard 12, Revised Codex Standard for Honey, Standards and Standard Methods, Volume 11 (http://www.codexalimentarius.net) (accessed on 14 June 2004).
  • Conte L.S., Miorini M., Giomo A., Bertacco G., Zironi R. (1998) Evaluation of some fixed components for unifloral honey characterization, J. Agric. Food Chem. 46, 1844-1849 [CrossRef].
  • Conte L., Persano Oddo L., Cozzoli O., Piana M.L. (2002) Armonizzazione e validazione delle metodologie analitiche concernenti il miele, in: Sabatini A.G., Bolchi Serrini G., Frilli F., Porrini C., Il ruolo della ricerca in apicoltura, Litosei, Bologna, pp. 263-268.
  • Cordella C., Militao J.S.L.T., Clément M.C., Cabrol-Bass D. (2003) Honey characterization and adulteration detection by pattern recognition applied on HPAEC-PAD profiles. 1. Honey floral species characterization, J. Agric. Food Chem. 51, 3234-3242 [CrossRef] [PubMed].
  • Cotte J.F., Casabianca H., Giroud B., Albert M., Lheritier J., Grenier-Loustalot M.F. (2004) Characterization of honey amino acid profiles using high-pressure liquid chromatography to control authenticity, Anal. Bioanal. Chem. 378, 1342-1350 [CrossRef] [PubMed].
  • Davies A.M.C. (1975) Amino acid analysis of honeys from eleven countries, J. Apic. Res. 14, 29-39.
  • Davies A., Radovic B., Fearn T., Anklam E. (2002) A preliminary study on the characterisation of honey by near infrared spectroscopy, J. Near Infrared Spectrosc. 10, 121-135.
  • Davies A.M.C., Harris R.G. (1982) Free amino acid analysis of honeys from England and Wales: application to the determination of the geographical origin of honeys, J. Apic. Res. 21, 168-173.
  • Del Nozal M.J., Bernal J.L., Marinero P., Diego J.C., Frechilla J.I., Higes M., Llorente J. (1998) High performance liquid chromatographic determination of organic acids in honeys from different botanical origin, J. Liq. Chromatogr. Relat. Technol. 21, 3197-3214.
  • Del Nozal M.J., Bernal J.L., Toribio L., Jimenez J.J., Martin M.T. (2001) High-performance liquid chromatographic determination of methyl anthranilate, hydroxymethylfurfural and related compounds in honey, J. Chromatogr. A 917, 95-103 [CrossRef] [PubMed].
  • Deshusses J., Gabbai A. (1962) Recherche de l'anthranilate de méthyle dans les miels espagnols de fleur d'oranger par chromatographie sur couche mince, Mitt. Lebensm. Unters. Hyg. 53, 408-411.
  • Dvash L., Afik O., Shafir S., Schaffer A., Yeselson Y., Dag A., Landau S. (2002) Determination by near-infrared spectroscopy of perseitol used as a marker for the botanical origin of avocado (Persea americana Mill.) honey, J. Agric. Food Chem. 50, 5283-5287 [CrossRef] [PubMed].
  • Echigo T., Takenaka T. (1974) Production of organic acids in honey by honeybees, J. Agric. Chem. Soc. Jap. 48, 225-230.
  • European Commission (2002) Council Directive 2001/110/EC of 20 December 2001 relating to honey, Off. J. Eur. Commun. L10, 47-52.
  • Fell R.D. (1978) The color grading of honey, Am. Bee J. 18, 782-789.
  • Feller-Demalsy M.J., Vincent B., Beaulieu F. (1989) Mineral content and geographical origin of Canadian honeys, Apidologie 20, 77-91.
  • Ferreres F., Andrade P., Tomas-Barberan F.A. (1994a) Flavonoids from Portuguese heather honey, Z. Lebensm. Unters. Forsch. 1991, 32-37.
  • Ferreres F., Garcia-Viguera C., Tomas-Lorente F., Tomas-Barberan F.A. (1993) Hesperitin: A marker of the floral origin of citrus honey, J. Sci. Food Agric. 61, 121-123.
  • Ferreres F., Giner J.M., Tomas-Barberan F.A. (1994b) A comparative study of hesperetin and methyl anthranilate as markers of the floral origin of citrus honey, J. Sci. Food Agric. 65, 371-372.
  • Fiori J., Serra G., Sabatini A.G., Zucchi P., Barbattini R., Gazziola F. (2000) Dextrins HPLC analysis in Metcalfa pruinosa (Say) honeydew, Ind. Aliment. 39, 463-466.
  • Garcia Alvarez M., Ceresuela S., Huidobro J.F., Hermida M., Rodriguez Otero J.L. (2002) Determination of polarimetric parameters of honey by near-infrared transflectance spectroscopy, J. Agric. Food Chem. 50, 419-425 [CrossRef] [PubMed].
  • Gilbert J., Shepherd M.J., Wallwork M.A., Harris R.G. (1981) Determination of the geographical origin of honeys by multivariate analysis of gas chromatographic data on their free amino acid content, J. Apic. Res. 20, 125-135.
  • Goodall I., Dennis M.J., Parker I., Sharman M. (1995) Contribution of high-performance liquid chromatographic analysis of carbohydrates to authenticity testing of honey, J. Chromatogr. A 706, 353-359 [CrossRef].
  • Guidotti M., Vitali M. (1998) Identification of volatile organic compounds present in different honeys through SPME and GC/MS, Ind. Aliment. 37, 351-353.
  • Guyot C., Bouseta A., Scheirman V., Collin S. (1998) Floral origin markers of chestnut and lime tree honeys, J. Agric. Food Chem. 46, 625-633 [CrossRef] [PubMed].
  • Guyot G., Scheirman V., Collin S. (1999) Floral origin markers of heather honeys: Calluna vulgaris and Erica arborea, Food Chem. 64, 3-11 [CrossRef].
  • Iglesias M.T., de Lorenzo C., Polo M.D., Martin-Alverez P.J., Pueyo E. (2004) Usefulness of amino acid composition to discriminate between honeydew and floral honeys. Application to honeys from a small geographic area, J. Agric. Food Chem. 52, 84-89 [CrossRef] [PubMed].
  • Ivanov T., Chervenakova Y. (1984) Content of some macro-, oligo- and microelements in bee honey, royal jelly and pollen, Anim. Sci. 21, 65-69.
  • Kanematsu H., Aoyama M., Maruyama T., Niiya I. (1982) Amino acid analysis of honeys with different geographical and floral origin, J. Jpn Soc. Food Nutr. 35, 297-303.
  • Känzig A., Kaufmann D., Bogdanov S. (2001) Stability of hydroxymethylfurfural during determination by HPLC, Annu. Meet. Int. Honey Comm. in Athens, available at http://www.apis.admin.ch/english/host/pdf/honey/HMF_abstract.pdf (accessed on 14 June 2004).
  • Krauze A., Zalewski R.I. (1991) Classification of honeys by principal component analysis on the basis of chemical and physical parameters. Klassifizierung von Honigen durch chemische und physikalische Parameter mit Hilfe der Hauptkomponentenanalyse, Z. Lebensm. Unters. Forsch. 192, 19-23.
  • Lichtenberg-Kraag B. (2003) Infrared spectroscopy: The quality assurance in honey analysis, Apidologie 34, 479-480.
  • Lichtenberg-Kraag B., Hedtke C., Bienefeld K. (2001) Infrared spectroscopy in routine quality analysis of honey, Apidologie 32, 1-8.
  • Low N.H., Nelson D.L., Sporns P. (1988) Carbohydrate analysis of western Canadian honeys and their nectar sources to determine the origin of honey oligosaccharides, J. Apic. Res. 27, 245-251.
  • Mateo R., Bosch-Reig F. (1997) Sugar profiles of Spanish unifloral honeys, Food Chem. 60, 33-41 [CrossRef].
  • Molan P.C. (1998) The limitations of the methods of identifying the floral source of honeys, Bee World 79, 59-68.
  • Negueruela A.I., Perez Arquillue C. (2000) Color measurement of rosemary honey in the solid state by reflectance spectroscopy with black background, J. AOAC Int. 83, 669-674 [PubMed].
  • Ortiz Valbuena A., Silva Losada M.C. (1990) Caracterizacion cromatica (CIE L10, a10, b10) de las mieles de la alcarria y zonas adyacentes, Cuad. Apic. 8-11.
  • Pawlowska M., Armstrong D.W. (1994) Evaluation of enantiomeric purity of selected amino acids in honey, Chirality 6, 270-276 [PubMed].
  • Perez A.C., Herrera A. (1987) Analisis de aminoacides proteinicos en mieles de los Monegros, Alimentaria 24, 167-172.
  • Perez R.A., Sanchez-Brunete C., Calvo R.M., Tadeo J.L. (2002) Analysis of volatiles from Spanish honeys by solid-phase microextraction and gas chromatography-mass spectrometry, J. Agric. Food Chem. 50, 2633-2637 [CrossRef] [PubMed].
  • Persano Oddo L., Pulcini P. (1999) A scientific note on the Phadebas method for honeys with low enzyme content, Apidologie 30, 347-348.
  • Persano Oddo L., Piro R. (2004) Main European unifloral honeys: descriptive sheets, Apidologie 35 (Suppl. 1), S38-S81.
  • Persano Oddo L., Baldi E., Accorti M. (1990) Diastatic activity in some unifloral honeys, Apidologie 21, 17-24.
  • Persano Oddo L., Baldi E., Piazza M.G. (1986) Acidita e pH nei principali mieli uniflorali Italiani, Apicoltura 2, 145-154.
  • Persano Oddo L., Piazza M.G., Zellini G. (1995a) Caratteristiche cromatiche dei mieli uniflorali, Apicoltura 10, 109-120.
  • Persano Oddo L., Piazza M.G., Sabatini A.G., Accorti M. (1995b) Characterization of unifloral honeys, Apidologie 26, 453-465.
  • Persano Oddo L., Piazza M.G., Pulcini P. (1999) Invertase activity in honey, Apidologie 30, 57-65.
  • Persano Oddo L., Sabatini A.G., Accorti M., Colombo R., Marcazzan G.L., Piana M.L., Piazza M.G., Pulcini P. (2000) I mieli uniflorali italiani. Nuove schede di caratterizzazione, Ministero delle Politiche Agricole e Forestali.
  • Petrov V. (1974) Quantitative determination of amino acids in some Australian honeys, J. Apic. Res. 13, 61-66.
  • Piasenzotto L., Gracco L., Conte L. (2003) Solid phase microextraction (SPME) applied to honey quality control, J. Sci. Food Agric. 83, 1037-1044 [CrossRef].
  • Piazza M.G., Persano Oddo L. (2004) Bibliographical review of the main European unifloral honeys, Apidologie 35 (Suppl. 1), S94-S111.
  • Piazza M.G., Accorti M., Persano Oddo L. (1991) Electrical conductivity, ash, colour and specific rotatory power in Italian unifloral honeys, Apicoltura, 51-63.
  • Pierard J.-Y., Cornet I., Bruneau E., Meurens M. (2000) Spectrométrie NIR : l'analyse d'un miel en quelques secondes, Abeilles & Cie, 6-11.
  • Pirini A., Conte L., Francioso O., Lercker G. (1992) Capillary gas chromatographic determination of free amino acids in honey as means of discrimination between botanical sources, J. High Res. Chromatogr. 15, 165-170.
  • Piro R., Guidetti G., Persano Oddo L., Piazza M.G. (2002) Mathematical diagnosis of unifloral honeys, in: Sabatini A.G., Bolchi Serini G., Frilli R., Porrini C., Il ruolo della ricerca in apicoltura, Litosei, Bologna, pp. 235-239.
  • Popek S. (2002) A procedure to identify a honey type, Food Chem. 79, 401-406 [CrossRef].
  • Qiu P.Y., Ding H.B., Tang Y.K., Xu R.J. (1999) Determination of chemical composition of commercial honey by near-infrared spectroscopy, J Agric. Food Chem. 47, 2760-2765 [CrossRef] [PubMed].
  • Radovic B.S., Anklam E. (1999) Determination of geographical and botanical origin of honey: activities coordinated by the joint research centre for the European commission, Fifth Eur Symp. on food authenticity, 9-11 June 1999, Atlantia - La Baule, France.
  • Radovic B.S., Careri M., Mangia A., Musci M., Gerboles M., Anklam E. (2001a) Contribution of dynamic headspace GC-MS analysis of aroma compounds to authenticity testing of honey, Food Chem. 72, 511-520 [CrossRef].
  • Radovic B., Goodacre R., Anklam E. (2001b) Contribution of pyrolysis-mass spectrometry (Py-MS) to authenticity testing of honey, J. Anal. Pyrolysis 60, 79-87.
  • Radovic B.S., White R., Parker I., Dennis M.J., Sharman M., Geiss H., Anklam E. (2001c) Contribution of high temperature gas chromatographic analysis of oligosaccharides and ion chromatographic analysis of various cations and anions to authenticity testing of honey, Dtsch. Lebensm. Rundsch. 97, 380-384.
  • Raude-Roberg L. (1994) Analyse der Saccharide spaltenden Enzyme des Bienenhonigs, Ph.D. thesis, Niedersächsisches Institut für Bienenkunde, Celle, Germany.
  • Ruoff K. (2003) Solid-phase microextraction of honey volatiles: a method for the determination of the botanical origin of honey, Master Thesis, University of Helsinki.
  • Ruoff K., Luginbühl W., Bogdanov S., Estermann B., Ziolko T., Amado R. (2003), Potential of Near Infrared Spectroscopy for Authenticity Testing of Unifloral Honey, Eur. Congr. for Authenticity of Food, Nyon, Switzerland.
  • Sabatini A.G., Grillenzoni F.V. (2002) Contenuto in prolina in differenti mieli uniflorali, in: Sabatini A.G., Bolchi Serrini Frilli F., Porrini C., Il ruolo della ricerca in apicoltura, Litosei, Bologna, pp. 260-262.
  • Sabatini A.G., Persano Oddo L., Piazza M.G., Accorti M., Nanetti A. (1989) Glucide spectrum in the main Italian unifloral honeys. I. Fructose and glucose, Apicoltura 5, 35-46.
  • Sabatini A.G., Persano Oddo L., Piazza M.G., Accorti M., Marcazzan G. (1990) Glucide spectrum in the main Italian unifloral honeys. II. Di- and trisaccharides, Apicoltura 6, 63-70.
  • Sanchez M.D., Huidobro J.F., Mato I., Muniategui S., Sancho M.T. (2001) Correlation between proline content of honeys and botanical origin, Dtsch. Lebensm. Rundsch. 97, 171-175.
  • Sevlimli H., Bayulgen N., Varinioglu A. (1992) Determination of trace elements in honey by INAA in Turkey, J. Radioanal. Nucl. Chem., Letters 165, 319-325.
  • Serra Bonvehi J. (1988) Determinacion de antranilato de metilo en la miel de citricos (Citrus sp.) del Levante Espanol, y su influencia en la actividad diastasica de la miel, Alimentaria 197, 37-40.
  • Speer K., Montag A. (1986) Verteilung freier Aminosäuren in Honigen, Dtsch. Lebensm. Rundsch. 82, 248-253.
  • Talpay B. (1985) Spezifikationen für Trachthonige, Dtsch. Lebensm. Rundsch. 81, 148-152.
  • Terrab A., Diez M.J., Heredia F.J. (2002a) Chromatic characterisation of Moroccan honeys by diffuse reflectance and tristimulus colorimetry - Non-uniform and uniform colour spaces, Food Sci. Tech. Int. 8, 189-195.
  • Terrab A., Diez M.J., Heredia F.J. (2002b) Characterisation of Moroccan unifloral honeys by their physicochemical characteristics, Food Chem. 79, 373-379 [CrossRef].
  • Tomas-Barberan F.A., Martos I., Ferreres F., Radovic B.S., Anklam E. (2001) HPLC flavonoid profiles as markers for the botanical origin of European unifloral honeys, J. Sci. Food Agric. 81, 485-496 [CrossRef].
  • Verzera A., Campisi S., Zappala M., Bonaccorsi I. (2001) SPME-GC/MS analysis of honey volatile components for the characterization of different floral origin, Am. Lab. 18-21.
  • Vinci G., Carunchio F., D'Ascenzo F., Ruggieri R., Tarola A. (1997) Chemical composition (water, sugars, HMF, N) of different botanical origin honey samples: a statistical evaluation, Euro Food Chem. IX, Authenticity and adulteration of food, the analytical approach, Interlaken, 671-676.
  • Von der Ohe W., Dustmann J.H., von der Ohe K. (1991) Prolin als Kriterium der Reife des Honigs, Dtsch. Lebensm. Rundsch. 87, 383-386.
  • Von der Ohe W., Persano Oddo L., Piana M.L., Morlot M., Martin P. (2004) Harmonised methods of melissopalynology, Apidologie 35 (Suppl. 1), S18-S25.
  • Von der Ohe W., von der Ohe K. (1996) Characterisation of honeydew honey with specific saccharides, Apidologie 27, 270-272.
  • Von der Ohe W., von der Ohe K., Raude-Roberg L., Dustmann J.H. (1999) Vergleich der Methoden zur Bestimmung der Saccharase-Aktivität im Honig, Apidologie 30, 412-413.
  • Vorwohl G. (1964) Die Beziehungen zwischen der elektrischen Leitfähigkeit der Honige und ihrer trachtmässigen Herkunft, Ann. Abeille 7, 301-309.
  • White J.W. (1966) Methyl anthranilate content of citrus honey, J. Food Sci. 31, 102-104.
  • White J.W., Petty J., Hoger R. (1958) Composition of honey II. Lactone content, J. AOAC 41.
  • Wilkins A.L., Lu Y., Tan S.T. (1995) Extractives from New Zealand honeys: 5. Aliphatic dicarboxylic acids in New Zealand rewarewa (Knightea excelsa) honey, J. Agric. Food Chem. 43, 3021-3025.
  • Wunderlin D.A., Pesce S.F., Ame M.V., Faye P.F. (1998) Decomposition of hydroxymethylfurfural in solution and protective effect of fructose, J. Agric. Food Chem. 46, 1855-1863 [CrossRef].
  • Zürcher K., Hadorn H. (1980) Vergleichende Wasserbestimmungen in Honig nach Karl Fischer, aus Dichte, refraktometrisch und gravimetrisch, Mitt. Geb. Lebensm. Hyg. 71, 396-403.