Genetic profiles and diversity of Baltic spring barley material

Anonymous (2012). FAO. http://www.fao.orgSearch in Google Scholar

Chaabane, R., Felah, M. E., Salah, H.B., Nauceur, M.B.B., Abdelly, C., Ramala, D., Nada, A., Saker, M. (2009). Molecular characterization of Tunisian barley (Hordeum vulgare L.) genotypes using microsatellites (SSRs) markers. Eur. J. Sci. Res., 36, 6-15.Search in Google Scholar

Chen, F., Chen, D., Brau V., Pilar, M., Gao, Z., Chen, X. (2009). Analysis of diversity in Chinese cultivated barley with simple sequence repeats: Differences between eco-geographic populations. Biochem. Gen., 48, 44-56.10.1007/s10528-009-9294-720094841Search in Google Scholar

Excoffier, L., Laval, G., Schneider, S. (2005). Arlequin ver. 3.0: An integrated software package for population genetics data analysis. Evolutionary Bioinformatics Online, 1, 47-50.Search in Google Scholar

Hamrick, J.L., Godt, M.J.W. (1997). Allozyme diversity in cultivated crops. Crop Sci., 37, 26-30.10.2135/cropsci1997.0011183X003700010004xSearch in Google Scholar

Hvid, S., Nielsen, G. (1977). Esterase isoenzyme variants in barley. Hereditas, 87, 155-162.10.1111/j.1601-5223.1978.tb01257.xSearch in Google Scholar

Kalia, R.K., Manoj, K.-R., Kalia, S., Singh, R., Dhawan, A.K. (2011). Microsatellite markers: An overview of the recent progress in plants. Euphitica, 177, 309-334.10.1007/s10681-010-0286-9Search in Google Scholar

Koebner, R.M.D., Donini, P., Reeves, J.C., Cooke, R.J., Law, J.R. (2003). Temporal flux in the morphological and molecular diversity of UK barley. Theor. Appl. Gen., 106, 550-558.10.1007/s00122-002-1065-312589556Search in Google Scholar

Kolodinska Brantestam, A. (2005). A century of Breeding—is genetic erosion a reality? Temporal diversity changes in Nordic and Baltic barley. Doctoral thesis No. 2005:30. Swedish University of Agricultural Sciences.Search in Google Scholar

Kolodinska Brantestam, A., von Bothmer R., Rashal, I., Weibull, J. (2003). Changes in the genetic diversity of barley of Nordic and Baltic origin, studied by isozyme electrophoresis. Plant Gen. Res.: Characterization and Utilization, 1, 143-149. Kolodinska Brantestam A., von Bothmer R., Dayteg C., Rashal I., Tuvesson10.1079/PGR2003021Search in Google Scholar

S., Weibull, J. (2007). Genetic diversity changes and relationships in spring barley (Hordeum vulgare L.) germplasm of Nordic and Baltic areas as shown by SSR markers. Gen. Res. Crop Evol., 54, 749-758.10.1007/s10722-006-9159-4Search in Google Scholar

Lasa, J., Igartua, E. (2001). Morphological and agronomical diversity patterns in the Spanish barley core collection. Hereditas, 135, 217-225.10.1111/j.1601-5223.2001.00217.x12152338Search in Google Scholar

Liu F., von Bothmer R., Salomon, B. (1999). Genetic diversity among East Asian accessions of the barley core collection as revealed by six isozyme loci. Theor. Appl., Gen., 98, 1226-1233.10.1007/s001220051188Search in Google Scholar

Matus, I.A., Hayes, P.M. (2002). Genetic diversity in three groups of barley germplasm assessed by simple sequence repeats. Genome, 45, 1095-1106.10.1139/g02-07112502254Search in Google Scholar

Nei, M. (1973). Analysis of gene diversity insubdivided populations. Proc. Nat. Acad. Sci. USA, 70, 3321-3323.10.1073/pnas.70.12.33214272284519626Search in Google Scholar

Nielsen G., Johansen, H. (1986). Proposal for identification of barley varieties based on the genotypes for 2 hordein and 39 isoenzyme loci of 47 reference varieties. Euphtica, 35, 717-728.10.1007/BF00028579Search in Google Scholar

Reeves, J.C., Chiapparino, E., Donini, P., Ganal, M., Guiard, J., Hamrit, S., Heckenberger, M., Huang, X.-Q., van Kaauwen, M., Kochieva, E., Koebner, R., Law, J.R, Lea, V., Le Clerc, V., van der Lee, T., Leigh, F., van der Linden, G., Malysheva, L., Melchinger, A.E., Orford, S., Reif, J.C., Röder, M., Schulman A., Vosman, B., van der Wiel, C., Wolf, M., Zhang, D. (2004). Changes over time in the genetic diversity of four major European crops from the Gediflux Framework 5 project. In: Proceedings of 17^th EUCARPIA General Congress: Genetic variation for plant breeding (pp. 3-7). Vollmann, J., Grausgruber, H., Ruckenbauer, P. (eds.). Vienna: University of Natural Resources and Applied Life Sciences.Search in Google Scholar

Rogers, J.S. (1972). Measures of genetic similarity and genetic distance. In: Studies in Genetics. Vol. VII (pp. 145-153). Publ. 7213. Austin: University of Texas.Search in Google Scholar

Rolf, M. (1998). NTSYS-pc: Numerical taxonomy and multivariate analysis system. Version 2.1. Department of Ecology and Evolution. New York: State University of New York.Search in Google Scholar

Russel, J., Ellis, R., Thomas, B., Waugh, R., Provan, J., Booth, A., Fuller, J., Lawrence, P., Young, G., Powell, W. (2000). A retrospective analysis of spring barley germplasm development from ‘foundation' genotypes’ to currently successful cultivars. Mol. Breed., 6, 553-568.10.1023/A:1011372312962Search in Google Scholar

Tueryapina, R., Jensen, H.P., Rashal, I. (1996). Powdery mildew resistance genes in Baltic spring barley varieties and breeding lines. Barley Gen. Newslett., 27, 18-21.Search in Google Scholar

van de Wouw, M., van Hintum, T., Kik, C., van Treuren, R., Visser, B. (2010). Genetic diversity trends in twentieth century crop cultivars: A meta analysis. Theor. Appl. Gen., 120, 1241-1252.10.1007/s00122-009-1252-6283947420054521Search in Google Scholar