Evaluation of yield stability of winter oilseed rape cultivars on the basis of post-registration variety testing system in diversified soils and climatic conditions in Lower Silesia
Andrzej Latusek
kghrin@upwr.edu.plKatedra Genetyki, Hodowli Roślin i Nasiennictwa, Uniwersytet Przyrodniczy we Wrocławiu (Poland)
Henryk Bujak
Katedra Genetyki, Hodowli Roślin i Nasiennictwa, Uniwersytet Przyrodniczy we Wrocławiu (Poland)
Abstract
The paper presents an analysis of genotype-environment interaction and yield stability evaluation of winter oilseed rape. Experimental data were obtained from trials conducted in the years 2008-2010 at the following locations: Krościna Mała, Naroczyce Pawłowice, Tarnów Śląski, Tomaszów Bolesławiecki and Zybiszów. Six population cultivars: Cabriolet, Cadeli, Californium, Casoar, Castille, PR46W10 and four hybrid cultivars: Extend, Nelson, Toccata and Vectra were grown at intensive level of cultivation. Chosen sources of variability: years, locations and genotypes were analyzed in the orthogonal system. The interpretation of the stability of yield was based on multivariate analysis of variance. Statistics stability is a measure of the contribution of each variety in the genotype-environment interaction and it was calculated based on a combination of Shukla’s variance stability (1972) and Kang’s ranks (1988). We found a significant diversity of yield of oilseed rape in the analyzed experiments, and significant interaction between variety and locations and years of research. Detailed analysis has identified interaction effects for hybrid varieties: Extend, Nelson and Toccata, as high-yielding, as evidenced by significantly positive values calculated for the main effects of these varieties. In addition, hybrid variety Nelson gave stable and high yields in all the years of research, it is thus a stable and high-yielding variety.
Supporting Agencies
Keywords:
grain yield, variety, winter oilseed rape, yield stabilityReferences
Bujak H., Jedyński S., Kaczmarek J. 2008 a. Ocena stabilności plonowania odmian żyta ozimego na podstawie parametrycznych i nieparametrycznych metod. Biul. IHAR 250: 189 — 202.
Google Scholar
Bujak H., Jedyński S., Kaczmarek J., Kotecki A. 2008 b. Ocena stabilności plonowania populacyjnych i mieszańcowych odmian rzepaku ozimego. Biul. IHAR 250: 261 — 271.
Google Scholar
Caliński T., Czajka S., Kaczmarek Z., Krajewski P., Siatkowski J. 2003. Podręcznik użytkownika programu Sergen 4. IGR Poznań 2003.
Google Scholar
Eberhart S. A., Russell W. A. 1966. Stability parameters for comparing varieties. Crop Sci. 6: 36 — 40.
Google Scholar
Główny Urząd Statystyczny (GUS). 2010. Wynikowy szacunek produkcji głównych ziemiopłodów rolnych i ogrodniczych w 2010 roku.
Google Scholar
Kaczmarek J., Kotecki A., Kotowicz L., Weber R. 2003. Interakcja genotypowo-środowiskowa plonowania odmian rzepaku ozimego w doświadczeniach PDO. Biul. IHAR 226/227/2: 395 — 403.
Google Scholar
Kamińska A., Kaczmarek J., Śmiałek E., Kotowicz L. 2010. Wyniki Porejestrowych Doświadczeń Odmianowych na Dolnym Śląsku. Rzepak ozimy 2010 (2008-2010). SDOO Tomaszów Bolesławiecki, 1 (12).
Google Scholar
Kang M. S. 1988. A rank sum method for selecting high yielding and stable crop genotypes. Cereal Res. Commun. 16: 113 — 115.
Google Scholar
Kang M. S. 1998. Using genotype-by-environment interaction for crop cultivar development. Adv. Agron. 35: 199 — 240.
Google Scholar
Kang M. S., Pham H. N. 1991. Simultaneous selection for high yielding and stable crop genotypes. Agron. J. 83: 161 — 165.
Google Scholar
Kotecki A., Kozak M., Malarz W. 2004. Wpływ zróżnicowanego poziomu agrotechniki na rozwój i plonowanie odmian rzepaku ozimego. Rośliny Oleiste-Oilseed Crops XXV: 97 — 108.
Google Scholar
Krajewski P., Kaczmarek Z., Czajka S. 2006. Planowanie i analiza statystyczna doświadczeń hodowlanych. Podręcznik użytkownika programu EKSPLAN wersja 2 (2006).
Google Scholar
Muśnicki Cz., Jerzak M. 1992. Produkcyjne i ekonomiczne skutki uproszczeń w agrotechnice rzepaku ozimego. Rośliny Oleiste-Oilseed Crops XIV (2): 318 — 334.
Google Scholar
Nabugoomu F., Kempton R. A., Talbot M. 1999. Analysis of series of trials where varieties differ in sensitivity to locations. J. Agric. Biol. Env. Stat., Vol. 4, No. 3: 310 — 325.
Google Scholar
Ogrodowczyk M., Liersch A., Bartkowiak-Broda I. 2000. Analiza zmienności składników plonu mieszańców złożonych rzepaku ozimego. Biul. IHAR 216: 483 — 490.
Google Scholar
Shukla G. K. 1972. Some statistical aspects of partitioning genotype-environmental components of variability. Heredity 29: 237 — 245.
Google Scholar
Weber R., Karczmarek J., Kotecki A. 2003. Wpływ środowiska na zmienność plonowania odmian rzepaku ozimego w warunkach Dolnego Śląska. Rośliny Oleiste-Oilseed Crops XXIV (2): 395 — 403.
Google Scholar
Wójtowicz M., Czernik-Kołodziej K. 2003. Reakcja zarejestrowanych odmian rzepaku ozimego na poziom agrotechniki. Rośliny Oleiste-Oilseed Crops XXIV (1): 85 — 94.
Google Scholar
Authors
Andrzej Latusekkghrin@upwr.edu.pl
Katedra Genetyki, Hodowli Roślin i Nasiennictwa, Uniwersytet Przyrodniczy we Wrocławiu Poland
Authors
Henryk BujakKatedra Genetyki, Hodowli Roślin i Nasiennictwa, Uniwersytet Przyrodniczy we Wrocławiu Poland
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