References
- Alleweldt G., Düring H., Jung K.H., 1984. Zum Einfluss des Klimas auf Beerenentwicklung, ertrag und qualität bei Reben: Ergebnisse einer siebenjährigen Faktorenanalyse. Vitis 23: 127-142.
- Almanza P.J., Qulja no-Rico M.A., Fisher G., Cha ves B., Balag ueralopez H.E., 2010. Physicochemical characterization of ‘Pinot Noir’ grapevine (Vitis vinifera L.) fruit during its growth and development under high altitude tropical conditions. Agr. Colomb. 28: 173-180.
- Amerine M.A., 1951. The acids in California grapes and wines. II. Malic acid. Food Tech. 5: 13-16.
- Anastasiadi M., Pratsinis H., Kletsas D., Ska ltsounis A-L., Haroutounian S.A., 2010. Bioactive noncoloured polyphenols content of grapes, wines and vinification by-products: Evaluation of the antioxidant activities of their extracts. Food Res. Int. 43: 805-813.
- Cox J., 1999. From Vines to Wines. Fourth Edition, Storey Publishing LLC, North Adams, USA.
- Dobrowolska-Iwanek J., Gąstoł M., Wanat A., Krośniak M., Jancik M., Zagrodz ki P., 2014. The wine of cool-climate of South Poland. S. Afr. J. Enol. Vitic. 31(1): 1-9.
- Duncan O.D., Duncan B., 1955. A methodological analysis of segregation indexes. Am. Sociol. Rev. 20(2): 210-217.
- EUROSTAT , 2012. A vailable o nline a t h ttp://epp. eurostat.ec.europa.eu/portal/page/portal/statistics/ search_database; cited on 16 August 16 2014.
- FAO , 2012. Available online at http://faostat.fao.org/; cited on 16 August 2014.
- Gustafsson J.G., Mårtensson A., 2005. Potential for extending Scandinavian wine cultivation. Acta Agric. Scand. B 55: 82-97.
- Keller M., 2010. The science of grapevines. Anatomy and Physiology, Academic Press, Burlington.
- Kliewer W.M., 1971. Effect of day temperature and light density on concentration of malic and tartaric acids in Vitis vinifera L. grapes. J. Amer. Soc. Hort. Sci. 96: 372-377.
- Kliewer W.M., Torres R.E., 1972. Effect of controlled day and night temperatures on grape coloration. Am. J. Enol. Vitic. 22:172-177.
- Lisek J., 2005. Zdrowotność, plonowanie i rozmnażanie wybranych genotypów winorośli (Vitis sp. L.) w warunkach Polski. Zeszyty Nauk. Inst. Sadow. Kwiac., Monografie i rozprawy, 94 pp.
- Lisek J., 2010. Yielding and healthiness of selected grape cultivars for processing in central Poland. J. Fruit Ornam. Plant. Res. 18(2): 265-272.
- Mori K.., Sug aya S., Gemm a H. 2005. Decreased anthocyanin biosynthesis in grape berries grown under elevated night temperature condition. Sci. Hortic. 105: 319-330.
- Myśliwiec R., 2006. Winorośl i wino. PWRiL, Warszawa.
- Nowosielski O., 1988. Zasady opracowywania zaleceń nawozowych w ogrodnictwie. PWRiL. Warszawa.
- Ochmi an I., Grajkowski J., Chełpi ński P., Strzelecki R., 2013. The impact of cutting and mulching grapevine Regent on yielding and fruit quality. Folia Pomer. Univ. Technol. Stetin, Agric., Aliment., Pisc., Zootech. 304(26): 87-96.
- Pacifico D., Gaiotti F., Giu sti M., Tomasi D., 2013. Performance of interspecific grapevine varieties in north-east Italy Agr. Sci. 4(2): 91-101.
- Parejo J., Minguez S., Sella J., Espinas E., 1995. Sixteen years of monitoring the cultivar Xarello (Vitis vinifera L.) on several rootstocks. Acta Hort. 388: 123-128.
- Paśko P., Bartoń H., Zagrodz ki P., Groinstein S., Fołta M., Zachwieja Z., 2009. Antocyanins, total polyphenols and antioxidant activity in amaranth and quinoa seeds and sprouts during their growth. Food Chem. 115: 994-998.
- Pavloušek P., Kum šta M., 2011. Profiling of primary metabolits in grapes of interspecific grapevine varieties: Sugars and organic acids. Czech J. Food Sci. 29: 361-372.
- Price S.F., Breen P.J., Valladao M., Watson B.T., 1995. Cluster sun exposure and quercetin in Pinot noir grapes and wine. Am. J. Enol. Vitic. 46(2): 187-194.
- Reynolds A.G., Naylor A.P., 1994. Pinot-Noir and riesling grapevines respond to water-stress duration and soil water-holding capacity. HortSci. 29: 1505-1510.
- Romero I., Sanchez-Ballesta M.T., Escriba no M.I., Merodi o C., 2008. Individual anthocyanins and their contribution to total antioxidant capacity in response to low temperature and high CO2 in stored Cardinal table grapes. Postharvest Biol. Tec. 49: 1-9.
- Santesteban L.G., Miranda C., Royo J.B., 2010. Vegetative growth, reproductive development and vineyard balance. In: Methodologies and Results in Grapevine Research. S. Delrot, H. Medrano, E. Or, L. Bavaresco, S. Grando (eds), Springer Science+Media B.V, Dodrecht, Netherlands.
- Spayd S.E., Tarara J.M., Mee D.L., Fergu son J.C., 2002. Separation of sunlight and temperature effects on the composition of Vitis vinifera cv. Merlot berries. Am. J. Enol. Vitic. 53(3): 171-182.
- Stafford H., 1959. Distribution of tartaric acid in the leaves of certain angiosperms. Amer. J. Bot. 46: 347-352.
- Tonietto J., Carbonneau A., 2004. A multicriteria climatic classification system for grape-growing regions worldwide. Agric. For. Meteorol. 124: 81-97.
- USDA., 2014. USDA Nutrient Database for Standard Reference, Release 27. Available online at https:// www.ars.usda.gov/Services/docs.htm?docid=8964ov/ba/bhncr/ndl; cited on 16 August 2014.
- Walter H., Lieth H., 1960. Klimadiagramm - Weltatlas, VEB Gustav Fischer Verlag, Jena.
- Winkler A.J., Cook J.A., Kliewer W.M., Lider L.A., 1974. General viticulture. University of California Press, Berkeley, California.
- Wolf T.K., Pool R.M., 1988. Effects of rootstock and nitrogen fertilization on the growth and yield of Chardonnay grapevines in New York. Am. J. Enol. Vitic. 39: 29-33.