![]() MediHerb Profess Rev 59:14īrevis PA, Bassil NV, Ballington JR, Hancock JF (2008) Impact of wide hybridization on highbush blueberry breeding. In: Plants and animal genome XIV conference, San Diego, CA, USA, p 133īone K, Morgan M (1997) Bilberry: the vision herb. ![]() Mol Ecol Notes 5:657–660īoches P, Rowland LJ, Hummer KE, Bassil NV (2006) Microsatellite markers evaluate genetic diversity in blueberry and generate unique fingerprints. J Am Soc Hortic Sci 133:701–707īoches P, Rowland LJ, Bassil NV (2005) Microsatellite markers for Vaccinium from EST and genomic libraries. Acta Hortic 810:181–187īell D, Rowland LJ, Polashock J, Drummond F (2008) Suitability of EST-PCR markers developed in highbush blueberry ( Vaccinium corymbosum L.) for genetic fingerprinting and relationship studies in lowbush blueberry ( V. Small Fruits Rev 2:15–29īassil N, Oda A, Hummer KE (2009) Blueberry microsatellite markers identify cranberry cultivars. ![]() HortScience 11:410–411īallington JR, Luby JJ, Jahn OL (1988) Small fruit germplasm collections in the Pacific Northwest, 21 July to, North Carolina State University, Horticulture Crops Research Series No 78, NC, USAīarney DL (2003) Prospects for domesticating western huckleberries. Acta Hortic 810:49–60īallington JR, Galletta GJ, Pharr DM (1976) Gibberellin effects on rabbiteye blueberry seed germination. HortScience 36:213–220īallington JR (2009) The role of interspecific hybridization in blueberry improvement. ![]() Fruit Var J 44:54–62īallington JR (2001) Collection, utilization and preservation of genetic resources in Vaccinium. Agscience, Auburndale, FL, 160 pīallington JR (1990) Germplasm resources available to meet future needs for blueberry cultivar improvement. Latvia, Zinatne, Riga, pp 151–202 (in Russian)Īustin ME (1994) Rabbiteye blueberries: development, production and marketing. In: Ripa AK, Kolomiiceva VF, Audrinja BA (eds) Cranberry, blueberry, lingonberry. BMC Plant Biol 7:05Īruna M, Ozias-Akins P, Austin ME, Kochert G (1993) Genetic relatedness among rabbiteye blueberry ( Vaccinium ashei) cultivars determined by DNA amplification using single primers of arbitrary sequence. This process is experimental and the keywords may be updated as the learning algorithm improves.Īlkharouf NW, Dhanaraj AL, Naik D, Overall C, Matthews BF, Rowland LJ (2007) Bbgd: an online database for blueberry genomic data. These keywords were added by machine and not by the authors. Marker-assisted selection and genomic databases are beginning to emerge that will aid in the efficiency of Vaccinium breeding. Controlled hybridization and deliberate selection has been used as the dominant technology for advanced breeding. Currently, Vaccinium cultivars are generated exclusively through traditional breeding approaches. Demand for berries from the various domesticated Vaccinium species will continue to grow in the near future. Vaccinium fruits are considered a health-promoting food due to their nutritional and therapeutic properties highlighted by their relatively high levels of antioxidant phytonutrients and antiinflammatory capacity. Three Vaccinium fruit crops (blueberry, cranberry, and lingonberry) have been domesticated in the twentieth century, while bilberry and several other non-cultivated Vaccinium species show great potential as new crops. Genus Vaccinium consists of approximately 450 species, of which the most important are found in the sections Cyanococcus, Oxycoccus, Vitis-Idaea, Myrtillus, and Vaccinium.
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