ВИНОГРАДНЫЕ ВИНА, ПРОБЛЕМЫ ОЦЕНКИ ИХ КАЧЕСТВА И РЕГИОНАЛЬНОЙ ПРИНАДЛЕЖНОСТИ

Yu. F. Yakuba, A. A. Kaunova, Z. A. Temerdashev, V. O. Titarenko, A. A. Halafjan

Аннотация


Проведен анализ опубликованных работ и нормативных документов, посвященных вопросам контроля качества и региональной принадлежности вин. Рассмотрен химический состав винограда и изготавливаемой из него винодельческой продукции, показано его качественное и количественное изменение в процессе винификации, созревания и выдержки вин. Установлены основные группы соединений, содержания и соотношения которых определяют качественные характеристики вин, а также играют важную роль в формировании аромата и вкуса напитка. Обсуждены предпосылки развития рынка поддельной продукции и способы фальсификации вин. Проведен анализ научной литературы и нормативной базы, регламентирующей качество вин на территории России и стран Европейского союза, существующих подходов к определению их подлинности, указаны достоинства и недостатки. Обсуждены примеры использования различных критериев для установления натуральных и фальсифицированных вин, а также подходов их комплексной идентификации и создания системы оценки качества винодельческой продукции с помощью методов физико-химического анализа. Проанализированы основные методические подходы к установлению региональной принадлежности вин, сочетающие возможности современных методов анализа, математического моделирования и статистики, продемонстрированы примеры их использования на практике.

Ключевые слова: вина, методы анализа, качество, подлинность, региональная принадлежность, фальсификация, математическое моделирование

DOI: http://dx.doi.org/10.15826/analitika.2014.18.4.001

 


Полный текст:

PDF (Russian)

Литература


Oganesiants L.A., Panasiuk A.L. [Statistical data on world production of wine]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2007, no. 2, pp. 6-7 (in Russian).

Egorov E.A., Guguchkina T.I., Adzhiev A.M., Oseledtseva I.V. Geograficheskie zony proizvodstva vin i natsional‘nykh kon‘iakov (brendi) vysokogo kachestva na iuge Rossii [Geographical areas and national wine production of cognac (brandy) High quality in southern Russia]. Krasnodar: GNU SKZNIISiV; Prosveshchenie-Iug, 2013. 155 p. (in Russian).

Ageeva N.M., Guguchkina T.I. Identifikatsiia i еkspertiza vinogradnykh vin i kon‘iakov [Identification and examination of wines and brandies]. Krasnodar: GNU SKZNIISiV; Prosveshchenie-Iug, 2008. 174 p. (in Russian).

Kosiura V.T., Donchenko L.V., Nadykta V.D. Osnovy vinodeliia [Basics of wine]. Moscow, DeLi print, 2004. 440 p. (in Russian).

Demin D.P., Zinchenko V.I., Zagoruiko V.A., Kosiura V.T. [Ways to improve the stability of port wines]. Trudy In-ta Magarach [Proceedings. Magaraci Institute], 1991, pp. 55-58 (in Russian).

Nilov V.I., Skurikhin I.M. Khimiia vinodeliia i kon‘iachnogo proizvodstva [Chemistry of winemaking and cognac production]. Moscow, Pishchepromizdat. 1960. 272 p. (in Russian).

Sobolev E.M. Tekhnologiia natural‘nykh i spetsial‘nykh vin [Technology of natural and special wines]. Maikop: GURIPP «Adygeia», 2006. 400 p. (in Russian).

Nuzhnyi V.P. [Modern ideas about the toxic properties of wine and food]. Vinograd i vino Rossii [Grapes and wine Russia], 1996, no. 2, pp. 29-32 (in Russian).

Savchuk S.A. [Quality control and identification authentication cognacs chromatographic methods]. Metody otsenki sootvetstviia [Methods for assessing compliance], 2006, no. 8, pp. 18-25 (in Russian).

Kozub G.I., Mamakova Z.A., Skorbanova E.A., Maksimova A.S. [Changing components of the chemical composition of sherry at his endurance]. Sadovodstvo, vinogradarstvo i vinodelie Moldavii [Horticulture, viticulture and winemaking Moldova], 1982, no. 1, pp. 33-36 (in Russian).

Kishkovskii Z.N., Skurikhin I.M. Khimiia vina [Wine chemistry]. Moscow, Agropromizdat, 1988. P. 45-67 (in Russian).

Filippovich Iu.B. Osnovy biokhimii [Fundamentals of Biochemistry]. Moscow, Agar, 1999. 507 p. (in Russian).

Iakuba Iu. F. Analitika i tekhnologiia vinogradnykh distilliatov [Research and Technology grape distillates]. Moscow, Moscow University Publ., 2013. 168 p. (in Russian).

Joon-Young J., Yun H. S., Lee J., Oh M.-K. Production of 1,2-Propanediol from Glycerol in Saccharomyces cerevisiae. J. Microbiol. Biotechnol., 2011, vol. 21, no. 8, pp. 846-853. doi: 10.4014/jmb.1103.03009.

Karpov S.S., Valuiko G.G., Nalimova A.A., Keptine A.I. [Some features of the formation of esters during fermentation of grape must]. Sadovodstvo, vinogradarstvo i vinodelie Moldavii [Horticulture, viticulture and winemaking Moldova], 1982, no. 2, pp. 31-33 (in Russian).

Rodopulo A.K. Osnovy biokhimii vinodeliia [Fundamentals of Biochemistry winemaking]. Moscow, Legkaia i pishchеvaia promyshlеnnost‘ Publ., 1983. 240 p. (in Russian).

Stabnikov V.N. Peregonka i rektifikatsiia еtilovogo spirta [Distillation and Rectification of ethyl alcohol]. Moscow, Pishchеvaia Promyshlennost‘ Publ., 1969. 456 p. (in Russian).

Marinchenko V.A., Smirnov V.A. Tekhnologiia spirta [Technology of alcohol]. Moscow, Legkaia i pishchеvaia promyshlеnnost‘ Publ., 1981. 416 p. (in Russian).

Strukova V.E. Karbonilamidnye reaktsii i ikh intensifikatsiia pri teplovoi obrabotke kreplenykh vin. Avtoref. diss. kand. [Reaction of carbonilamid and their intensification during the thermal treatment of fortified wines. Cand. sci. diss. abstract.]. Krasnodar, 1983. 26 p. (in Russian).

Shol‘ts E.P., Ponomarev S.V. Tekhnologiia pererabotki vinograda [Technology conversion of grapes]. Moscow, Agropromizdat, 1990. 447 p. (in Russian).

Negrul‘ A.M., Gordeeva L.N., Kalmykova T.I. Ampelografiia s osnovami vinogradarstva. Uchebnoе posobiе dlia tekhnolog. vuzov [Ampelography the basics of viticulture. Textbook for technological universities]. Moscow, Vysshaia shkola Publ., 1979. 199 p. (in Russian).

Pazo M., Almitfro E., Traveao C. Perfil de ammoacidos libres de los vinos Albarino у Godello. Alimfiitami, 2004, vol. 41, no 357, pp. 111-117.

Khristiuk V.T., Uzun L.M., Baryshev M.G. [Ferment grape juice and pulp after treatment with extremely low frequency electromagnetic field range]. Izvеstiia vuzov. Pishchevaia tekhnologiia [Proceedings of the universities. Food technology], 2002, no. 5-6, pp.43-44 (in Russian).

Herbert P., Barros P., Alves A. Detection of port wine imitation by discriminant analysis using free amino acids profiles. Amer. J. Enol. And Viticult., 2000, vol. 51, no.3, pp. 262-268.

Ough C.S., Stashak R.M. Further studies on proline concentration in grapes and wines. Am. J. Enol. Vitic., 1974, vol. 25, no. 1, pp. 7-12.

Iakuba Iu.F. [Direct determination of the basic amino acids of wine]. Zavodskaia laboratoriia. Diagnostika materialov [Industrial Laboratory. Diagnostics of materials], 2010, vol. 76, no. 4, pp.12-14 (in Russian).

Iakuba Iu.F. [Direct determination of phenylalanine, tryptophan and tyrosine residues in wines]. Zavodskaia laboratoriia. Diagnostika materialov [Industrial Laboratory. Diagnostics of materials], 2008, vol. 74, no. 2, pp. 15-18 (in Russian).

Bakker J., Bridle P., Timberlake C.F. The colours, pigment and phenol contents of young port wines: Effects of cultivar, season and site. Vitis, 1986, vol. 25, pp. 40-52.

Etievant P., Schlich P., Bertrand A. Varietal and geographic classification of French red wines in terms of pigments and flavonoid compounds. J. Sci. Food Agric., 1988, vol. 42, pp. 39-54.

Jackson M.G., Timberlake C.F., Bridle P. Red wine quality: Correlations between colour, aroma and flavor and pigment and other parameters of young Beaujolais. J. Sci. Food Agric., 1978, vol. 29, pp. 715-727.

Joslyn M. A., Little A. Relation of type and concentration of phenolics to the color and stability of rose wines. Am. J. Enol. Vitic., 1967, vol. 18, pp. 138-148.

Ramos R.A, Andrade P.В., Seabra R., Pereira C., Ferreira M.A., Faia M.A. Preliminary study of noncoloured phenolics in wines of varietal white grapes (codega, gouveio and malvasia fina): effects of grape variety, grape maduration and technology of winemaking. Food Chem., 1999, vol. 67, pp. 39-44.

Valuiko G.G. Biokhimicheskie osnovy tekhnologii krasnykh vin. Avtoref. diss.dokt. tekhn. nauk [Biochemical basis of technology red wines. Dr. techn. sci. diss. abstract]. Krasnodar, 1972. 74 p. (in Russian).

McDonald M.S., Hughes M.M., Burns J., Lean M.E. J., Matthews D., Crozier A. Survey of the free and conjugated myricetin and quercetin content of red wines of different geographical origins. J. Agric. Food Chem., 1998, vol. 46, pp. 368-375.

Delgado R., Pedro M. Evolucion de la composicion fenolica de las uvas tintas durante la maduracion. Alimenlaria, 2001, vol. 38, no. 326, pp. 139-145.

Christie P.J., Alfenito M.R., Walbot V. Impact of low-temperature stress on general phenylpropanoid and anthocyanin pathways: Enhancement of transcript abundance and anthocyanin pigmentation in maize seedlings. Planta, 1994, vol. 194, pp. 541-549.

Macheix J.J., Sapis J.C., Fleuriet A. Phenolic compounds and polyphenoloxidase in relation to browning in grapes and wines. Crit. Rev. Food Sci. Nutr., 1991, vol. 30, pp. 441-486.

Graham T.L. Flavonoid and isoflavonoid distribution in developing soybean seedling tissue and in seed and root exudates. Plant Physiol., 1991, vol. 95, pp. 594-603.

Kliewer W.M. Influence of temperature, solar radiation and nitrogen on coloration and composition of emperor grapes. Am. J. Enol. Vitic., 1977, vol. 28, pp. 96-103.

Tiutiunik V.I. Dinamika antotsianov pri sozrevanii i khranenii iagod nekotorykh standartnykh i gibridnykh sortov vinograda v predgornoi zone Kryma. Avtoref. diss. kand. biol. nauk [Anthocyan dynamics in berries ripening and storage of some standard and hybrid grape varieties in the foothill zone of Crimea. Kand. biol. sci. diss. abstract]. Kishinev, 1969. 21 p. (in Russian).

Yinrong Lu., Yeap Foo L. Unexpected rearrangement of pyranoanthocyanidins to furoanthocyanidins. Tetrahedron Letters, 2002, vol. 43, pp. 715-718.

Dallas C., Laureano O. Effect of SO2 on the extraction of individual anthocyanins and colored matter of three Portuguese grape varieties during winemaking. Vitis, 1994, vol. 33, pp. 41-47.

Revilla I., Gonzalez-Sanjose M. Compositional changes during the storage of red wines treated with pectolytic enzymes: low molecular-weight phenols and flavan-3-ol derivative levels. Food Chemistry, 2003, vol. 80, pp. 205-214.

Piermattei B., Amatti A., Castellari M. Preliminary studies on the use of dried grape stems in red winemaking. Vitis: Viticult., 2000, vol. 39, no. 1-2, pp. 4-46.

Oganesiants L.A. Dub i vinodelie [Oak and winemaking]. Moscow, Agropishchepromizdat, 2001. 359 p. (in Russian).

del Alamo Sanza M., Dominguez I. Nevares, Corcel L.M. Analysis for low molecular weight phenolic compounds in a red wine aged in oak chips. Anal. Chim. Acta, 2004, vol. 513, pp. 229-237.

Atanasova V., Fulcrand H., Cheynier V. Effect of oxygenation on polyphenol changes occurring in the course of wine-making. Anal. Chim. Acta, 2002, vol. 458, pp. 15-27.

Mateus N., Freitas V. De Evolution and stability of anthycyanin-derived pigments during port wine aging. J. Agr. and Food Chem., 2001, vol. 49, no. 11, pp. 5217-5222.

Magomedov Z.B., Makuev G.A. [Coloring and phenolics substances varieties of grapes and the dynamics of their content in wines with aging]. Khranenie i pererabotka sel‘khozsyr‘ia [Storage and processing of agricultural], 2001, no. 10, pp. 51-50 (in Russian).

GOST R 55242-2012. Vina zashchishchennykh geograficheskikh ukazanii i vina zashchishchennykh naimenovanii mesta proiskhozhdeniia. Obshchie tekhnicheskie usloviia [State Standard 55242-2012. Wines from protected geographical indications and wines with a protected place of origin. General specifications]. Moscow, Standartinform Publ., 2013. 12 p. (in Russian).

GOST R 52523–2006. Vina stolovye i vinomaterialy stolovye. Obshchie tekhnicheskie usloviia [State Standard 52523–2006. Table wines and wine materials. General specifications]. Moscow, Standartinform Publ., 2008. 12 p. (in Russian).

GOST R 52195–2003. Vina aromatizirovannye. Obshchie tekhnicheskie usloviia [State Standard 52195–2003. Flavored wine. General specifications]. Moscow, Standartinform Publ., 2009. 8 p. (in Russian).

GOST R 52404–2005. Vina spetsial‘nye i vinomaterialy spetsial‘nye. Obshchie tekhnicheskie usloviia [State Standard 52404–2005. Wines and special wine materials. General specifications]. Moscow, Standartinform Publ., 2006. 8 p. (in Russian).

GOST R 51158–2009. Vina igristye. Obshchie tekhnicheskie usloviia [State Standard 51158–2009. Sparkling wines. General specifications]. Moscow, Standartinform Publ., 2009. 8 p. (in Russian).

SanPiN 2.3.2.1078–01. Gigienicheskie trebovaniia bezopasnosti i pishchevoi tsennosti pishchevykh produktov [Sanitary Standard 2.3.2.1078–01. Hygienic safety and nutritional value of foods]. 144 p. (in Russian).

Nikolaeva M.A., Polozhishnikova M.A. Identifikatsiia i obnaruzhenie fal‘sifikatsii prodovol‘stvennykh tovarov: uchebnoe posobie [Identification and determination of falsification of food products: a tutorial]. Moscow, «FORUM»: INFRA-M Publ., 2009. 464 p. (in Russian).

Holmberg L. Wine fraud. International Journal of Wine Research, 2010, vol. 2, pp. 105-113. doi: 10.2147/IJWR.S14102.

Martin G.J. The chemistry of chaptalization. Endowour, New Series, 1990, vol. 14, no. 3. pp. 137-143. doi: 10.1016/0160-9327(90)90007-E.

Ogrinc N., Kosir I.J., Spangenberg J.E., Kidric J. The application of NMR and MS methods for detection of adulteration of wine, fruit juices, and olive oil. A review. Anal. Bioanal. Chem., 2003, vol. 376, pp. 424-430. doi: 10.1007/s00216-003-1804-6.

Savchuk S.A., Vlasov V.N. [Identification of wine products using high performance liquid chromatography and spectrometry]. Vinograd i vino Rossii [Grapes and wine Russia], 2000, no. 5, pp. 5-13 (in Russian).

GOST R 51149–98. Produkty vinodel‘cheskoi promyshlennosti. Upakovka, markirovka, transportirovanie i khranenie [State Standard 51149–98. Wine industry products. Packaging, labeling, transportation and storage]. Moscow, Standartinform Publ., 2009. 6 p. (in Russian).

GOST R 51074-2003. Produkty pishchevye. Informatsiia dlia potrebitelia. Obshchie trebovaniia [State Standard 51074-2003. Foodstuffs. Information for Consumers. general requirements]. Moscow, Standartinform Publ., 2006. 23 p. (in Russian).

GOST R 51653-2000. Alkogol‘naia produktsiia i syr‘e dlia ee proizvodstva. Metod opredeleniia ob«emnoi doli еtilovogo spirta [State Standard 51653-2000. Alcoholic products and raw materials for its production. Method of determining of the ethanol volume fraction]. Moscow, Standartinform Publ., 2009. 6 p. (in Russian).

GOST 13192-73. Vina, vinomaterialy i kon‘iaki. Metod opredeleniia sakharov [State Standard 13192-73. Wine, brandy and wine materials. Method of sugars determination]. Moscow, Standartinform Publ., 2011. 10 p. (in Russian).

GOST R 51621-2000. Alkogol‘naia produktsiia i syr‘e dlia ee proizvodstva. Metody opredeleniia massovoi kontsentratsii titruemykh kislot [State Standard 51621-2000. Alcoholic products and raw materials for its production. Methods of determination of the mass concentration of titratable acid]. Moscow, Standartinform Publ., 2009. 5 p. (in Russian).

GOST R 51654-2000. Alkogol‘naia produktsiia i syr‘e dlia ee proizvodstva. Metod opredeleniia massovoi kontsentratsii letuchikh kislot. [State Standard 51654-2000. Alcoholic products and raw materials for its production. Method of determination of the mass concentration of volatile acids]. Moscow, Standartinform Publ., 2009. 7 p. (in Russian).

GOST R 51620-2000. Alkogol‘naia produktsiia i syr‘e dlia ee proizvodstva. Metod opredeleniia massovoi kontsentratsii privedennogo еkstrakta [State Standard 51620-2000. Alcoholic products and raw materials for its production. Method of determination of the mass concentration of the powered extract]. Moscow, Standartinform Publ., 2009. 6 p. (in Russian).

GOST R 52391-2005. Produktsiia vinodel‘cheskaia. Metod opredeleniia massovoi kontsentratsii limonnoi kisloty [State Standard 52391-2005. Wine products. Method of determination of the mass concentration of citric acid]. Moscow, Standartinform Publ., 2007. 8 p. (in Russian).

GOST R 51655-2000. Alkogol‘naia produktsiia i syr‘e dlia ee proizvodstva. Metod opredeleniia massovoi kontsentratsii svobodnogo i obshchego dioksida sery [State Standard 51655-2000. Alcoholic products and raw materials for its production. Method of determination of free and total sulfur dioxide]. Moscow, Standartinform Publ., 2009. 6 p. (in Russian).

GOST R 51766-2001. Syr‘e i produkty pishchevye. Atomno-absorbtsionnyi metod opredeleniia mysh‘iaka. [State Standard 51766-2001. Raw materials and food products. Determination of arsenic using Atomic absorption spectroscopy]. Moscow, Standartinform Publ., 2011. 10 p. (in Russian).

GOST R 51823-2001. Alkogol‘naia produktsiia i syr‘e dlia ee proizvodstva. Metod inversionno-vol‘tamperometricheskogo opredeleniia soderzhaniia kadmiia, svintsa, tsinka, medi, mysh‘iaka, rtuti, zheleza i obshchego dioksida sery [State Standard 51823-2001. Alcoholic products and raw materials for its production. Determination of cadmium, lead, zinc, copper, arsenic, mercury, iron and total sulfur dioxide using voltamperometry]. Moscow, Standartinform Publ., 2009. 18 p. (in Russian).

GOST 26927-86. Syr‘e i produkty pishchevye. Metody opredeleniia rtuti [State Standard 26927-86. Raw materials and food products. Methods of determination of mercury]. Moscow, Standartinform Publ., 2010. 15 p. (in Russian).

GOST 26930-86. Syr‘e i produkty pishchevye. Metod opredeleniia mysh‘iaka [State Standard 26930-86. Raw materials and food products. Method of the determination of arsenic]. Moscow, Standartinform Publ., 2010. 6 p. (in Russian).

GOST 26932-86. Syr‘e i produkty pishchevye. Metody opredeleniia svintsa [State Standard 26932-86. Raw materials and food products. Methods of determination of lead]. Moscow, Standartinform Publ., 2010. 11 p. (in Russian).

GOST 26933-86. Syr‘e i produkty pishchevye. Metody opredeleniia kadmiia [State Standard 26933-86. Raw materials and food products. Methods of determination of cadmium]. Moscow, Standartinform Publ., 2010. 10 p. (in Russian).

GOST 30178-96. Syr‘e i produkty pishchevye. Atomno-absorbtsionnyi metod opredeleniia toksichnykh еlementov [State Standard 30178-96. Raw materials and food products. Determination of toxic elements using atomic absorption spectroscopy]. Moscow, Standartinform Publ., 2010. 8 p. (in Russian).

GOST 30538-97. Produkty pishchevye. Metodika opredeleniia toksichnykh еlementov atomno-еmissionnym metodom [State Standard 30538-97. Foodstuffs. Analysis of toxic elements using atomic-emission methods]. Moscow, Standartinform Publ., 2010. 27 p. (in Russian).

Panasiuk A.L., Babaeva M.I. [Quality criteria for white wines of the New World]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2013, no. 5. pp. 22-24 (in Russian).

Tochilina R.P. [About improvement of methods for the identification of wine production]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2007, no. 2. pp. 14-15 (in Russian).

Tochilina R.P [Wine production quality and the problem of its identification]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2001, no. 3, pp. 8-9 (in Russian).

GOST R 52813-2007. Produktsiia vinodel‘cheskaia. Metody organolepticheskogo analiza [State Standard 52813-2007. Wine products. Sensory analysis methods]. Moscow, Standartinform Publ., 2008. 13 p. (in Russian).

GOST R ISO 3972–2005. Organolepticheskii analiz. Metodologiia. Metod issledovaniia vkusovoi chuvstvitel‘nosti [State Standard 3972–2005. Sensory analysis. Methodology. Methods of investigation of taste sensitivity]. Moscow, Standartinform Publ., 2006. 7 p. (in Russian).

Kushnereva G.K., Guguchkina T.I., Pankin M.I., Lopatina L.I. [Investigation of table wines quality from physical and chemical parameters using mathematical]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2011, no. 4. pp. 18-21 (in Russian).

Vina i alkogol‘nye napitki. Direktivy i reglamenty Evropeiskogo Soiuza [Wines and alcoholic drinks. EU directives and regulations]. Moscow, IPK Standards Publ., 2000. 616 p. (in Russian).

International Organisation of Vine and Wine http://www.oiv.int/ (accessed 02.07.14)

Yakuba Yu. F., Guguchkina T.I., Ageeva N.M., Lopatina L.M. Sposob opredeleniia kachestva vinogradnogo vina [A method of determining of the wine quality]. Patent RF, no. 2310192, 2007. (in Russian).

Kushnereva E.V., Guguchkina T.I. [Development of criteria for authenticity naturally semi-sweet and semi-dry wines]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2012, no. 5-6, pp. 70-72 (in Russian).

Panasiuk A.L., Kuz‘mina E.I., Zakharov M.A., Kharlamova L.N., Kornilina I.A. ["Ash and alkalinity" as indicators in the system of the authentication criteria of table wines]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2011, no. 1, pp. 20-21 (in Russian).

Cliff M.A., King M.C., Schlosser J. Anthocyanin, phenolic composition, colour measurement and sensory analysis of BC commercial red wines. Food Research International, 2007, vol. 40, pp. 92–100. doi: 10.1016/j.foodres.2006.08.002.

González G., Peña-Méndez E.M. Multivariate data analysis in classification of must and wine from chemical measurements. Eur. Food Res. Technol., 2000, vol. 212, pp. 100–107. doi: 10.1007/s002170000207.

Lunina L.V., Guguchkina T.I., Ageeva N.M. Iakuba Iu.F. [The criteria of determining of the authenticity of wines]. Partnery i konkurenty [Partners and competitors], 2005, no. 5, pp. 27-29 (in Russian).

Ageeva N.M., Guguchkina T.I., Markovskii M.G. [Once again about falsification of wines]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2002, no. 4, pp. 22-23 (in Russian).

Valgina L.V., Zhirova V.V., Smirnova E.A. [Identification of wine production]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2010, no. 1, pp. 10-11 (in Russian).

Sеn‘kina Z.E., Arbuzov V.N., Aleshkin B.M. [Instrumental methods of analysis for the identification of grape wines]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2004, no. 1, pp. 25-27 (in Russian).

Dergunov A.V., Lopin S.A., Il‘iashenko O.I. [Influence of the biochemical composition of perspective white wine grapes on the quality of wine production]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2012, no. 4, pp. 22-25 (in Russian).

Valgina L.A. Razrabotka kompleksnoi tovarovednoi otsenki i identifikatsii stolovykh polusladkikh vin. Dis. kand. tеkhn. nauk [Development of a comprehensive assessment and identification semi sweet wines Cand. tehn. sci. diss.]. Moscow, 2011. 147 p. (in Russian).

Larionov A.B., Tokmin D.G., Sarvarova N.N., Marchenko I.A., Gerasimov M.K. [5-hydroxymethyl content as an additional indicator of the quality of alcoholic beverages]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2013, no. 5, pp. 25-27 (in Russian).

Yakuba Yu. F., Guguchkina T.I., Ageeva N.M., Lopatina L.M., Lunina L.V. Sposob opredeleniia kachestva stolovogo vinogradnogo vina [Method of determining the quality of table grape wine]. Patent RF, no. 2312342, 2007 (in Russian).

Sobolev Е.M., Kudlai D.V. Sposob opredeleniia natural‘nosti belykh vin [Method of determining of the naturalness of white wines]. Patent RF, no. 2271000, 2006 (in Russian).

Sarvarova N.N., Marchenko I.A., Rizvanov I.Kh., Tokmin D.G. [Determination of polyols by GC-MS without extraction for quality evaluation of the table wines]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2012, no. 6, pp. 16-20 (in Russian).

Panasiuk A.L., Kuz‘mina E.I., Kharlamova L.N., Zakharov M.A., Kadykova N.E., Babaeva M.V. [Controlled parameters of the natural wines. White wines of Chile]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2008, no. 4, pp. 8-11 (in Russian).

Iakuba Iu.F., Lozhnikova M.S. [Improving of the analytical control of wine products]. Analitika i kontrol‘ [Analysis and control], 2011, vol. 15, no. 3, pp. 309-312 (in Russian).

Kushnereva E.V., Markovskii M.G., Guguchkina T.I., Ageeva N.M. [Determination of biogenic amines in the vines]. Izvestiia vuzov. Pishchevaia tekhnologiia [Proceedings of the universities. Food technology], 2012, no. 1, pp. 106-108 (in Russian).

Martuscelli M., Arfelli G., Manetta A.C., Suzzi G. Biogenic amines content as a measure of the quality of wines of Abruzzo (Italy). Food Chemistry., 2013, vol. 140, pp. 590–597. doi: 10.1016/j.foodchem.2013.01.008.

Leitão M. C., Marques A. P., San Romão M. V. A survey of biogenic amines in commercial Portuguese wines. Food Control., 2005, vol. 16, pp. 199-204. doi: 10.1016/j.foodcont.2004.01.012.

Soufleros E.H., Bouloumpasi E., Tsarchopoulos C., Biliaderis C.G. Primary amino acid profiles of Greek white wines and their use in classification according to variety, origin and vintage. Food Chem., 2003, vol. 80, no. 2, pp. 261-273. doi: 10.1016/S0308-8146(02)00271-6.

Zakharova A.M., Kartsova L.A., Grinshtein I.L. [Determination of organic acids, carbohydrates or sweeteners in food products and dietary supplements using HPLC]. Analitika i kontrol‘ [Analysis and control], 2013, vol. 17, no. 2, pp. 204-210 (in Russian).

GOST R 52841-2007. Produktsiia vinodel‘cheskaia. Opredelenie organicheskikh kislot metodom kapilliarnogo еlektroforeza [State Standard 52841-2007. Wine products. Determination of organic acids by capillary electrophoresis]. Moscow, Standartinform Publ., 2008. 7 p. (in Russian).

Skorbanova E.A., Kairiak N.F., Mamakova Z.A. [Modern methods of detection of falsified wines]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2005, no. 6, pp. 26-27 (in Russian).

Jackowetz J.N., Mira de Orduña R. Survey of SO2 binding carbonyls in 237 red and white table wines. Food Control, 2013, vol. 32, pp. 687-692. doi: 10.1016/j.foodcont.2013.02.001.

Bodorev M.M., Subbotin B.S. [Chromatographic analysis of aromatic aldehydes and acids in wine]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2001, no. 1, pp. 19-21 (in Russian).

Polozhishnikova M.A., Perelygin O.N. [Determination of the biological value and identification of red wines using content of flavanols phenolic acids]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2005, no. 6, pp. 22-24 (in Russian).

Bridle P., Garcia-Viguera C. A simple technique for the detection of red wine adulteration with elderberry pigments. Food Chemistry, 1996, vol. 55, no. 2, pp. 111-113. doi: 10.1016/0308-8146(95)00179-4.

Tochilina R.P., Peschanaia V.A., Poznanskaia E.V., Goncharov S.A., Larina S.M. [About the problem of wines identifying. Effect on total pentose sugars in table wines]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2011, no. 1, pp. 13 (in Russian).

GOST R 53193-2008. Napitki alkogol‘nye i bezalkogol‘nye. Opredelenie kofeina, askorbinovoi kisloty, konservantov i podslastitelei metodom kapilliarnogo еlektroforeza [State Standard 53193-2008. Alcoholic and non-alcoholic drinks. Determination of caffeine, ascorbic acid, preservatives, and sweeteners by capillary electrophoresis]. Moscow, Standartinform Publ., 2010. 11 p. (in Russian).

Fauhl C, Wittkowski R, Lofthouse J, Hird S, Brereton P, Versini G, Lees M, Guillou C. Gas Chromatographic/Mass Spectrometric Determination of 3-Methoxy-1,2-Propanediol and Cyclic Diglycerols, By-Products of Technical Glycerol, in Wine: Interlaboratory Study. Journal of AOAC International, 2004, vol. 87, no. 5, pp. 1179-1188.

Nieuwoudt H.H., Prior B.A., Pretorius S., Bauer F.F. Glycerol in South African Table Wines: An Assessment of its Relationship to Wine Quality. S. Afr. J. Enol. Vitic., 2002, vol. 23, no. 1, pp. 22-30.

GOST R 53154-2008. Vina i vinomaterialy. Opredelenie sinteticheskikh krasitelei metodom kapilliarnogo еlektroforeza [State Standard 53154. Wine and wine materials. Determination of synthetic dyes by capillary electrophoresis]. Moscow, Standartinform Publ., 2010. 11 p. (in Russian).

Zhirov V.M., Presniakova O.P., Neudakhina O.K., Doronin M.B. [Qualitative and quantitative analysis of elements in wines using ICP-MS]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2012, no. 6, pp. 30-31 (in Russian).

Kolesnov A.Iu., Filatova I.A., Zadorozhniaia D.G., Maloshitskaia O.A. [Mass spectrometry of stable oxygen isotopes 18O/16O in wine production to establish its authenticity]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2012, no. 6, pp. 10-15 (in Russian).

Zhirova V.V., e.a. Sposob opredeleniia proiskhozhdeniia organicheskikh oksikislot v vinakh i sokosoderzhashchikh napitkakh [Determination of the origin of organic hydroxy acids in wine and juice drinks]. Patent RF, no. 2487348, 2013. 12 с. (in Russian).

Calderone G., Guillou C. Analysis of isotopic ratios for the detection of illegal watering of beverages. Food Chemistry, 2008, vol. 106, pp. 1399-1405. doi: 10.1016/j.foodchem.2007.01.080.

Guyon F., Gaillard L., Salagoïty M.-H., Médina B. Intrinsic ratios of glucose, fructose, glycerol and ethanol 13C/12C isotopic ratio determined by HPLC-co-IRMS: toward determining constants for wine authentication. Anal. Bioanal. Chem., 2011, vol. 401, pp. 1551-1558. doi: 10.1007/s00216-011-5012-5.

Cabaňero A.I., Recio J.L., Rupérez M. Isotope ratio mass spectrometry coupled to liquid and gas chromatography for wine ethanol characterization. Rapid Commun. Mass Spectrom., 2008, vol. 22. pp. 3111-3118. doi: 10.1002/rcm.3711.

Cabaňero A.I., Recio J.L., Rupérez M. Simultaneous stable carbon isotopic analysis of wine glycerol and ethanol by liquid chromatography coupled to isotope ratio mass spectrometry. J. Agric. Food Chem., 2010, vol. 58, pp. 722-728. doi: 10.1021/jf9029095.

Versinia G., Camina F., Ramponia M., Dellacassa E. Stable isotope analysis in grape products: 13C-based internal standardization methods to improve the detection of some types of adulterations. Analytica Chimica Acta, 2006, vol. 563, pp. 325-330. doi: 10.1016/j.aca.2006.01.098.

Kravchenko S.N., Kagan E.S., Stoletova A.A. [Development of mathematical model for assessing the quality of products]. Izvestiia vuzov. Pishchevaia tekhnologiia [Proceedings of the universities. Food technology], 2011, no. 4, pp. 105-109 (in Russian).

Perelygin O.N. Ustanovlenie podlinnosti sukhikh vinogradnykh vin na osnove fiziko-khimicheskikh pokazatelei. Diss. kand. tekhn. nauk [Authentication of the dry wines using physical and chemical parameters. Cand. tehn. sci. diss.]. Moscow, 2004. 140 p. (in Russian).

Charlton A. J., Wrobel M.S., Stanimirova I., Daszykowski M., Grundy H. H., Walczak B. Multivariate discrimination of wines with respect to their grape varieties and vintages. Eur. Food Res. Technol., 2010, vol. 231, pp. 733-743. doi: 10.1007/s00217-010-1299-2.

Košira I. J., Kocjančičb M., Ogrincc N., Kidrič J. Use of SNIF-NMR and IRMS in combination with chemometric methods for the determination of chaptalisation and geographical origin of wines (the example of Slovenian wines). Analytica Chimica Act, 2001, vol. 429, pp. 195-206. doi: 10.1016/S0003-2670(00)01301-5.

Gavrilina V.A. Metodologiia kontrolia vina raspoznavaniem. Diss. Dokt.tekhn. nauk [Methodology control wine using recognition. Dr. tehn. sci. diss.]. Orel, 2013. 259 p. (in Russian).

Sidorova A.A., Ganzha O.V. Sposob identifikatsii ob«ekta putem postroeniia ego kharakteristicheskogo еlektroforeticheskogo profilia [Method of object identification by building its characteristic electrophoretic profile]. Patent RF, no. 2327978, 2008. 7 с. (in Russian).

Ageeva N.M., Guguchkina T.I., Iakuba Iu.F. Sposob ustanovleniia natural‘nosti vina [Method for establishing natural wine]. Patent RF, no. 2156976, 2000 (in Russian).

Markosov V.A., Ageeva N.M., Guguchkina T.I., Iakuba Iu.F., Gaponov A.I. [Evaluation of the quality of special wines "Anapa strong" and "Cahors"]. Vinograd i vino Rossii [Grapes and wine Russia], 2001, no. 4, pp. 45-46 (in Russian).

Gavrilina V.A., Mal‘tseva O.I., Bulgakov D.S., Sychev S.N., Sychev K.S. [Application of principal component analysis to identify and compare natural wines. Part 2: Criteria of identity and similarity of dry red wines using a combination of principal component analysis and HPLC with spectrophotometric detection]. Vinodelie i vinogradarstvo [Wine-making and Viticulture], 2007, no. 3, pp. 30-32 (in Russian).

Petrov V.I. Razrabotka skhemy identifikatsii natural‘nykh vin po rezul‘tatam ikh mul‘tiеlementnogo analiza. Diss. kand. khim. nauk [Development of natural wines identification scheme based on the results of their multielement analysis. Cand. chem. sci. diss.]. Krasnodar, 2013. 157 p. (in Russian).

Aramina A.A., Sadovoi V.V. [Assessment of compliance with regulatory requirements of wine production]. Izvestiia vuzov. Pishchevaia tekhnologiia [Proceedings of the universities. Food technology], 2011, no. 5-6, pp. 92-94 (in Russian).

Duchowicza P.R., Giraudob M.A., Castroa E.A., Pomilio A.B. Amino acid profiles and quantitative structure–property relationship models as markers for Merlot and Torrontes wines. Food Chemistry, 2013, vol. 140, pp. 210-216. doi: 10.1016/j.foodchem.2013.02.064.

Urbano M., Luque de Castro M. D., Pérez P. M., García-Olmo J., Gómez-Nieto M. A. Ultraviolet–visible spectroscopy and pattern recognition methods for differentiation and classification of wines. Food Chemistry. 2006, vol. 97, pp. 166-175. doi:10.1016/j.foodchem.2005.05.001.

Guilleän D., Palma M., Natera R., Romero R., Barroso C. G. Determination of the Age of Sherry Wines by Regression Techniques Using Routine Parameters and Phenolic and Volatile Compounds. J. Agric. Food Chem., 2005, vol. 53, pp. 2412-2417. doi: 10.1021/jf048522b.

Gerzhikova V.G., Zagoruiko V.A. [Quality control methods of the wine products]. Vinodelie i vinogradarstvo [Winemaking and Viticulture], 2003, no. 5, pp. 24-26 (in Russian).

Arozarena I., Casp A., Marín R., Navarro M. Multivariate differentiation of Spanish red wines according to region and variety. Journal of the Science of Food and Agriculture. 2000, vol. 80, pp.1909-1917. doi: 10.1002/1097-0010(200010)80:13<1909::AID-JSFA728>3.0.CO;2-U.

Stupakova R.K., Sergeev E.N. [Wine quality control]. Vinodelie i vinogradarstvo [Winemaking and Viticulture], 2001, no. 4, pp. 15 (in Russian).

Seeber R., Sferlazzo G., Leardi R., Dalla Serra A., Versini G. Multivariate data analysis in classification of musts and wines of the same variety according to vintage year. J. Agric. Food Chem., 1991, vol 39, no. 10, pp 1764-1769. doi: 10.1021/jf00010a014.

Perestrelo R., Barros A.S., Câmara J.S., Rocha S.M. In-Depth Search Focused on Furans, Lactones, Volatile Phenols, and Acetals As Potential Age Markers of Madeira Wines by Comprehensive Two-Dimensional Gas Chromatography with Time-of-Flight Mass Spectrometry Combined with Solid Phase Microextraction. J. Agric. Food Chem., 2011, vol. 59, pp. 3186-3204. doi: 10.1021/jf104219t.

Paneque P., Álvarez-Sotomayor Ma T., Clavijo A., Gómez I.A. Metal content in southern Spain wines and their classification according to origin and ageing. Microchemical Journal, 2010, vol. 94, pp. 175-179. doi: 10.1016/j.microc.2009.10.017.

Cuadros-Inostroza A., Giavalisco P., Hummel J., Eckardt A., Willmitzer L., Peña-Cortés H. Discrimination of wine attributes by metabolome analysis. Analytical Chemistry, 2010, vol. 82, pp. 3573-3580. doi: 10.1021/ac902678t.

Khiabakhov T.S. [Basic conditions for the development of good practice winemaking]. Vinodelie i vinogradarstvo [Winemaking and Viticulture], 2011, no. 5, pp. 8-9 (in Russian).

Galitskaia Iu.N., Martynova T.A. [Perspectives of development of the wine industry on Kuban]. Izvestiia vuzov. Pishchevaia tekhnologiia [Proceedings of the universities. Food technology], 2006, no. 4, pp. 9-12 (in Russian).

Kaishev V.G., Usachev A.M. [Viticulture and winemaking Russia. Development of production for 1999-2003., problems and prospects]. Vinodelie i vinogradarstvo [Winemaking and Viticulture], 2004, no. 2, pp. 4-8 (in Russian).

Tolokov N.R. [Legal regulation of wines by origin in Russia]. Vinodelie i vinogradarstvo [Winemaking and Viticulture], 2005, no. 2, pp. 9-10 (in Russian).

Di Paola-Naranjo R.D, Baroni M.V, Podio N.S, Rubinstein H.R, Fabani M.P, Badini R.G, Inga M, Ostera H.A, Cagnoni M, Gallegos E, Gautier E, Peral-Garcia P, Hoogewerff J, Wunderlin D.A. Fingerprints for Main Varieties of Argentinean Wines: Terroir Differentiation by Inorganic, Organic, and Stable Isotopic Analyses Coupled to Chemometrics. J. Agric. Food Chem., 2011, vol. 59, pp. 7854-7865. doi: 10.1021/jf2007419.

Kallithraka S., Arvanitoyannis I.S., Kefalas P., El-Zajouli A., Soufleros E., Psarra E. Instrumental and sensory analysis of Greek wines; implementation of principal component analysis (PCA) for classification according to geographical origin. Food Chemistry, 2001, vol. 73, pp. 501-514. doi: 10.1016/S0308-8146(00)00327-7.

Núñez M., Peña R.M., Herrero C., García-Martín S. Analysis of some metals in wine by means of capillary electrophoresis. Application to the differentiation of Ribeira Sacra Spanish red wines. Analusis, 2000, vol. 28, pp. 432-437. doi: 10.1051/analusis:2000129.

Galgano F., Favati F., Caruso M., Scarpa T., Palma A. Analysis of trace elements in southern Italian wines and their classification according to Provenance. LWT—Food Science and Technology, 2008, vol. 41, pp. 1808-1815. doi: 10.1016/j.lwt.2008.01.015.

Díaz C., Conde J.E., Estévez D., Pérez Olivero S.J., Pérez Trujillo J.P. Application of multivariate analysis and artificial neural networks for the differentiation of red wines from the Canary Islands according to the Island of origin. J. Agric. Food Chem., 2003, vol. 51, pp. 4303-4307. doi: 10.1021/jf0343581.

Soler, F., Garcia-Rodrigues, G., Pérez-Lopez, M., Hernández-Moreno, D. Characterization of “Ribera del Guadiana” and “Méntrida” Spanish red wines by chemometric techniques based on their mineral contents. Journal of Food and Nutrition Research, 2011, vol. 50, no. 1, pp. 41-49.

Frías S., Pérez Trujillo J., Peña E., Conde J. E. Classification and differentiation of bottled sweet wines of Canary Islands (Spain) by their metallic content. Eur. Food Res. Technol., 2001, vol. 213, pp. 145-149. doi: 10.1007/s002170100344.

Frías S., Conde J.E., Rodríguez-Bencomo J.J., García-Montelongo F., Pérez-Trujillo J.P. Classification of commercial wines from the Canary Islands (Spain) by chemometric techniques using metallic contents. Talanta, 2003, vol. 59, pp. 335-344. doi: 10.1016/S0039-9140(02)00524-6.

Kruzlicova D., Fiket Ž., Kniewald G. Classification of Croatian wine varieties using multivariate analysis of data obtained by high resolution ICP-MS analysis. Food Research International, 2013, vol. 54, pp. 621-626. doi: 10.1016/j.foodres.2013.07.053.

Castiñeira Gómez Mdel M., Feldmann I., Jakubowski N., Andersson J.T. Classification of German white wines with certified brand of origin by multielement quantitation and pattern recognition techniques. J. Agric. Food Chem., 2004, vol. 5, pp. 2962-2974. doi: 10.1021/jf035120f.

Boschetti W., Rampazzo R.T., Dessuy M.B., Vale M.G., de Oliveira Rios A., Hertz P., Manfroi V., Celso P.G., Ferrão M.F. Detection of the origin of Brazilian wines based on the determination of only four elements using high-resolution continuum source flame AAS. Talanta, 2013, vol. 111, pp. 147-155. doi: 10.1016/j.talanta.2013.02.060.

Moreno I.M., González-Weller D., Gutierrez V., Marino M., Cameán A.M., González A.G., Hardisson A. Differentiation of two Canary DO red wines according to their metal content from inductively coupled plasma optical emission spectrometry and graphite furnace atomic absorption spectrometry by using Probabilistic Neural Networks. Talanta, 2007, vol. 72, pp. 263-268. doi: 10.1016/j.talanta.2006.10.029.

Rodrigues S.M., Otero M., Alves A.A., Coimbra J., Coimbra M.A., Pereira E., Duarte A.C. Elemental analysis for categorization of wines and authentication of their certified brand of origin. Journal of Food Composition and Analysis, 2011, vol. 24, no. 4–5, pp. 548-562. doi: 10.1016/j.jfca.2010.12.003.

Bentlin F.R.S., Pulgati F.H., Dresslerc V.L., Pozebon D. Elemental analysis of wines from South America and their classification according to country. Journal of the Brazilian Chemical Society, 2011, vol. 22, no. 2, pp. 327-336. doi: 10.1590/S0103-50532011000200019.

Gonzálvez A., Llorens A., Cervera M.L., Armenta S., de la Guardia M. Elemental fingerprint of wines from the protected designation of origin Valencia. Food Chemistry, 2009, vol. 112, pp. 26-34. doi: 10.1016/j.foodchem.2008.05.043.

Geana I., Iordache A., Ionete R., Marinescu A., Ranca A., Culea M. Geographical origin identification of Romanian wines by ICP-MS elemental analysis. Food Chemistry, 2013, vol. 138, pp. 1125–1134. doi: 10.1016/j.foodchem.2012.11.104.

Coetzee P.P., Steffens F.E., Eiselen R.J., Augustyn O.P., Balcaen L., Vanhaecke F. Multi-element analysis of South African wines by ICP-MS and their classification according to geographical origin. J. Agric. Food Chem., 2005, vol. 53, pp. 5060-5066. doi: 10.1021/jf048268n.

Cozzolino D., Cynkar W.U., Shah N., Smith P.A. Can spectroscopy geographically classify Sauvignon Blanc wines from Australia and New Zealand?. Food Chemistry, 2011, vol. 126, pp. 673-678. doi: 10.1016/j.foodchem.2010.11.005.

Liu L., Cozzolino D., Cynkar W.U., Dambergs R.G., Janik L., O’Neill B.K., Colby C.B., Gishen M. Preliminary study on the application of visible–near infrared spectroscopy and chemometrics to classify Riesling wines from different countries. Food Chemistry, 2008, vol. 106, pp. 781-786. doi: 10.1016/j.foodchem.2007.06.015.

Heberger K., Csomos E., Simon-Sarkadi S.L. Principal component and linear discriminant analyses of free amino acids and biogenic amines in hungarian wines. J. Agric. Food Chem., 2003, vol. 51, pp. 8055-8060. doi: 10.1021/jf034851c.

Galgano F., Caruso M., Perretti G., Favati F. Authentication of Italian red wines on the basis of the polyphenols and biogenic amines. European Food Research and Technology, 2011, vol. 232, pp. 889-897. doi: 10.1007/s00217-011-1457-1.

Jaitz L., Siegl K., Eder R., Rak G., Abranko L., Koellensperger G., Hann S. LC-MS/MS analysis of phenols for classification of red wine according to geographic origin, grape variety and vintage. Food Chemistry, 2010, vol. 122, pp. 366-372. doi: 10.1016/j.foodchem.2010.02.053.

Arozarena I., Casp A., Marín R., Navarro M. Differentiation of some Spanish wines according to variety and region based on their anthocyanin composition. European Food Research and Technology, 2000, vol. 212, pp. 108-112. doi: 10.1007/s002170000212.

Rastija V., Srečnik G., Marica-Medić-Šarić Polyphenolic composition of Croatian wines with different geographical origins. Food Chemistry. 2009, vol. 115, pp. 54-60. doi: 10.1016/j.foodchem.2008.11.071.

Li Z., Pan Q., Jin Z., Mu L., Duan C. Comparison on phenolic compounds in Vitisvinifera cv. Cabernet Sauvignon wines from five wine-growing regions in China. Food Chemistry, 2011, vol. 125, pp. 77-83. doi: 10.1016/j.foodchem.2010.08.039.

Bellomarino S.A., Conlan X.A., Parker R.M., Barnett N.W., Adams M.J. Geographical classification of some Australian wines by discriminant analysis using HPLC with UV and chemiluminescence detection. Talanta, 2009, vol. 80, pp. 833-838. doi: 10.1016/j.talanta.2009.08.001.

Rebolo S., Peña R.M., Latorre M.J., Garcı́a S., Botana A.M., Herrero C. Characterization of Galician (NW Spain) Ribeira Sacra wines using pattern recognition analysis. Analytica Chimica Acta, 2000, vol. 417, pp. 211-220. doi: 10.1016/S0003-2670(00)00929-6.

Gremaud G., Quaile S., Piantini U., Pfammatter E., Corvi C. Characterization of Swiss vineyards using isotopic data in combination with trace elements and classical parameters. Eur. Food Res. Technol., 2004, vol. 219, pp. 97-104. doi: 10.1007/s00217-004-0919-0.

Dutra S.V, Adami L, Marcon A.R, Carnieli G.J, Roani C.A, Spinelli F.R, Leonardelli S, Ducatti C, Moreira M.Z, Vanderlinde R. Determination of the geographical origin of Brazilian wines by isotope and mineral analysis. Analytical and Bioanalytical Chemistry, 2011, vol. 401, pp. 1571-1576. doi: 10.1007/s00216-011-5181-2.

Almeida C.M., Vasconcelos M.T.S.D. ICP-MS determination of strontium isotope ratio in wine in order to be used as a fingerprint of its regional origin. J. Anal. At. Spectrom., 2001, vol. 16, pp. 607-611. doi: 10.1039/B100307K.

Liu L., Cozzolino D., Cynkar W.U., Gishen M., Colby C.B. Geographic Classification of Spanish and Australian Tempranillo Red Wines by Visible and Near-Infrared Spectroscopy Combined with Multivariate Analysis. J. Agric. Food Chem., 2006, vol. 54, pp. 6754-6759. doi: 10.1021/jf061528b.

Brescia M.A, Kosir I.J, Caldarola V., Kidric J., Sacco A. Chemometric Classification of Apulian and Slovenian Wines Using 1H NMR and ICP-OES Together with HPICE Data. J. Agric. Food Chem., 2003, vol. 51, pp. 21-26. doi: 10.1021/jf0206015.

Adami L, Dutra S.V, Marcon A.R, Carnieli G.J, Roani C.A, Vanderlinde R. Geographic origin of southern Brazilian wines by carbon and oxygen isotope analyses // Rapid Communications in Mass Spectrometry. 2010, vol. 24, no. 20, pp. 2943-2948. doi: 10.1002/rcm.4726.

Dutra S.V., Adami L., Marcon A.R., Carnieli G.J., Roani C.A., Spinellia F.R., Leonardelli S., Vanderlinde R. Characterization of wines according the geographical origin by analysis of isotopes and minerals and the influence of harvest on the isotope values. Food Chemistry, 2013, vol. 141, no. 3, pp. 2148-2153. doi: 10.1016/j.foodchem.2013.04.106.

Kaunova A.A., Petrov V.I., Tsiupko T.G., Tеmеrdashеv Z.A., Pеrеkotii V.V., Luk‘ianov A.A. [Identification of wine provenance by ICP-AES multielement analysis], Journal of Analytical Chemistry, 2013, vol. 68, no. 9, pp. 917-922. doi: 10.7868/S0044450213090065.


Ссылки

  • На текущий момент ссылки отсутствуют.