Genealogical Analysis of the North-American Spring Wheat Varieties with Different Resistance to Pre-harvest Sprouting

Anonymous (2013). Genetic Resources Information System for Wheat and Triticale GRIS. Available at: http://wheatpedigree.net (accessed 12 December 2015).Search in Google Scholar

Chono, M., Matsunaka, H., Seki, M., Fujita, M, Kiribuchi-Otobe, C., Oda, S., Kojima, H., Nakamura N. (2015). Molecular and genealogical analysis of grain dormancy in Japanese wheat varieties, with specific focus on MOTHER OF FTAND TFL1 on chromosome 3A. Breeding Sci., 65 (1), 103–109.10.1270/jsbbs.65.103437455925931984Search in Google Scholar

Cox, T. S., Kiang, Y. T., Gorman, M. B., Rodgers, D. M. (1985). Relationship between coefficient of parentage and genetic similarity indices in the soybean. Crop Sci., 25, 529–532.10.2135/cropsci1985.0011183X002500030023xSearch in Google Scholar

DePauw, R. M., Clarke, F. R., Fofana, B., Knox, R., Humphreys, G., Cloutier, S. (2009). RL-4137 contributes pre-harvest sprouting resistance to Canadian wheats. Euphytica,168, 347–361.10.1007/s10681-009-9933-4Search in Google Scholar

Dobrotvorskaya, T. V., Martynov, S. P. (2013). Comparative genealogical analysis of resistance to preharvest sprouting of spring wheat varieties from Volga region and North America. Proc. Applied Botany, Genetics and Breeding [Добротворская Т. В., Мартынов С. П. Сравнительный генеалогический анализ сортов яровой пшеницы Поволжья и Северной Америки, различающихся по устойчивости к предуборочному прорастанию. Труды по прикл. ботан., генет. и селекции], 173, 83–90 (in Russian).Search in Google Scholar

Gfeller, F., Svejda, F. (1960). Inheritance of post-harvest seed dormancy and kernel colour in spring wheat lines. Can. J. Plant Sci., 40 (1), 1–6.10.4141/cjps60-001Search in Google Scholar

Krupnov V. A., Krupnova O. V. (2015). Approaches to improve wheat grain quality: Breeding for falling number. Vavilov J. Genet. Breed., 19 (5), 604–612.10.18699/VJ15.07Search in Google Scholar

Martynov, S. P. (1998). Analysis of genetic profiles of winter wheats from Russia. Euphytica,52, 305–311.10.1023/A:1018357718307Search in Google Scholar

Martynov, S. P., Dobrotvorskaya, T. V. (2009). Technology of genetic resources analysis of cereal crops on the base of the GRIS4.0 system. In: Genetic Resources of Cultivated Plants in XXI Century [Мартынов С. П., Добротворская Т. В. Технологияанализа генетических ресурсов зерновых культурна основе системы GRIS4.0. Генетические ресурсы культурных растений в XXI веке. ВИР, Санкт-Петербург].. St. Petersburg, pp. 93–105 (in Russian).Search in Google Scholar

Martynov, S. P., Dobrotvorskaya, T. V., Dotlacil, L., Stehno, Z., Faberova, I., Bares, I. (2003). Genealogical approach to the formation of the winter wheat core collection. Russian J. Genetics,39, 917–923.10.1023/A:1025382807351Search in Google Scholar

Merezhko, A. F. (1994). The Problem of Donors in Plant Breeding [Мережко А. Ф. Проблема доноров в селекции растений]. Vavilov Institute of Plant Genetic Resources (VIR), St. Petersburg. 127 pp. (in Russian).Search in Google Scholar

Souza, E., Sorrells, M. E. (1991). Prediction of progeny variation in oat from parental genetic relationships. Theor. Appl. Genet.82, 233–241.10.1007/BF0022621924213072Search in Google Scholar