Abstract
The hybridisation of Vaccinium angustifolium with Vaccinium corymbosum has led to several cultivars which are also known as Lowbush or Half-highbush blueberry.
The appearance, taste and chemical composition of their fruits are reminiscent of those from wild varieties of Vaccinium angustifolium. The research was conductedat the Research Station of the Laboratory of Orchard at the West Pomeranian University of Technology in Szczecin. The plant height, size, yield, quality and the chemical composition of fruits of Lowbush blueberry bushes (‘Emil’ and ‘Putte’) were determined. Lowbush blueberry bushes were planted at distances of 1.0 × 2.5 m in acid muck soil (peat) at the Research Station of the Fruit Farming Department in 2005. Six-year-old bushes were characterized by a relatively low height, 70 cm on average; however, ‘Putte’ cultivar plants were slightly bigger. They also rendered a higher yield, totalling to 1401 g over the 4 years of
research. On average, 100 g of fruits were collected from one bush in the first year and 600–700 g in the last year. Moreover, fruits from these bushes were characterized by a higher content of extract, organic acids and polyphenolic compounds, among which anthocyanins constituted the largest group. ‘Emil’ cultivar fruits were bigger and firmer than fruits of ‘Putte’ cultivar.
References
Budryn G., Nebesny E., 2006. Fenolokwasy – ich właściwości, występowanie w surowcach roślinnych, wchłanianie i przemiany metaboliczne. Bromat. Chem. Toksykol. 39, 2, 103–110.
Hakkinen S.H., Torronen A.R., 2000. Content of flavonols and selected phenolic acids in strawberries and Vaccinium species: influence of cultivar, cultivation site and technique. Food Res. Int. 517–524.
Hjalmarsson I., 2006. Introduction of lowbush blueberry and hybrids in Sweden. Acta Hort. 715, 143–146.
Jackson E.D., Sanford K.A., Lawrence R.A., McRae K.B., Stark R., 1999. Lowbush blueberry quality changes in response to prepacking delays and holding temperatures. Postharvest Biol. Tech. 15, 117–126.
Kalt W., Ryan D.A.J., Duy J.C., Prior R.L., Ehlenfeldt M.K., Vander-Kloet S.P., 2001. Interspecific variation in anthocyanins, phenolics, and antioxidant capacity among genotypes of highbush and lowbush blueberries (Vaccinium section cyanococcus spp.). J. Agric. Food Chem. 49, 4761–4767.
Karp K., Starast M., Tiido T., 2000. Frost damages of arctic bramble (Rubus arcticus) and half highbush blueberry (Vaccinium corymbosum × Vaccinium angustifolium) depend on cultivation methods. Proceedings of the International Conference: Fruit Production and Fruit Breeding. Tartu. 244–247.
Konovalchuk V., Konovalchuk V., 2009. White fruited European lowbush blueberry (Vaccinium myrtillus L.) In natural habitat in Ukraine. Acta Hort. 810, 217–222.
Krzewińska D., Smolarz K., Tryngiel-Gac A., 2007. Evaluation of some new blueberry (Vaccinium spp.) cltivar in central Poland. International Conference “Vaccinium spp. and Less Known Small Fruits”. Book of abstracts. 30 September – 5 October, Nitra. 70–71.
Krzewińska D., Smolarz K., Tryngiel-Gać A., 2009. Porównanie kilku odmian borówki wysokiej i półwysokiej. Zesz. Nauk. ISK 17, 5–16.
Martineau L., Couturea A., Spoora D., Benhaddou-Andaloussia A., Harrisc C., Meddaha B., Leduca C., Burtc A., Vuonga T., Mai Lea P., Prentkie M., Bennettd S.A., Arnasonc J.T., Haddada P.S., 2006. Anti-diabetic properties of the Canadian lowbush blueberry Vaccinium angustifolium Ait. Phytomed. 13, 612–623.
Moyer R.A., Hummer K.E., Finn C.E., Frei B., Wrolstad R.E., 2002. Anthocyanins, phenolics, and antioxidant capacity in diverse small fruits: Vaccinium, Rubus, and Ribes. J. Agric. Food Chem. 50, 519–525.
Noormets M., Karp K., Starast M., Leis L., Muru K., 2006. The influence of freezing on the content of ascorbic acid in Vaccinium species berries. Acta Hort. 715, 539–543.
Ochmian I, Grajkowski J., Skupień K., 2009a. Influence of substrate on yield and chemical composition of highbush blueberry fruit cv. ‘Sierra’. J. Fruit Ornam. Plant Res. 17(1), 89–100.
Ochmian I., Grajkowski J., 2010. Effect of Substrates on Growth, Yield, and Phenol Content in Lowbush Blueberry (Vaccinium angustifolium Ait.) Fruit ‘Emil’. Ecol. Chem. Engin. A. 17, 9, 147–1152.
Singleton V.L., Rossi J.A., 1965. Colorimetry of total phenolics with phosphomolybdicphosphotungstic acid reagents. Am. J. Enol. Vitic. 16, 144–158.
Skupień K., 2006. Evaluation of chemical composition of fresh and frozen blueberry fruit (Vaccinium corymbosum L.). Acta Sci. Pol., Hortorum Cultus 5(1), 19–25.
Smolarz K., Chlebowska D., 2002. Review of some experiments with highbush blueberry at the Research Institute of Pomology and Floriculture, Skierniewice, Poland. Acta Hort. 574, 317–322.
Starast M., Karp K. Paal T., 2002. The effect of using different mulches and growth substrates on half-highbush blueberry (Vaccinium corymbosum × V. angustifolium) cultivars ‘Northblue’ and ‘Northcountry’. Acta Hort. 574, 281–286.
Starast M., Karp K., Vool E., Moor U., Tonutare T., Paal T., 2007. Chemical composition and quality of cultivated and natural blueberry fruit in Estonia. Vegetable Crops Res. Bull. 66, 143–153.
Starast M., Paal T., Vool E., Karp K., Albert T., Moor U., 2009. The productivity of some blueberry cultivars under Estonian conditions. Acta Hort. 810, 103–108.
Taruscio T., Barney D., Exon J., 2004. Content and profile of flavanoid and phenolic acid compounds in conjunction with the antioxidant capacity for a variety of northwest Vaccinium berries. Agric. Food Chem. 52, 31693176.
Vander Kloet S.P., 1988 The genus Vaccinium in North America. Publication, Agriculture Canada 1988, 201 pp. ISBN 0-660-13037-8.
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