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Adaptability and stability of standard yield in production of certified seeds from Bulgarian potato varieties

Year 2014, Volume: 1 Issue: Özel Sayı-2, 1559 - 1564, 01.03.2014

Abstract

The experiment was performed in the Maritsa Vegetable Crops Research Institute, Plovdiv and Experimental station, Samokov during the period 2009-2011. The aim of this study was to evaluate the adaptability and stability of standard yield in production of certified seeds from four Bulgarian potato varieties. Three factors field experiment was set with 12 combinations to established effect of the factors - fertilization rate, planting density and term of leaf striping on the standard yield of the seed fractions in varieties Rozhen, Perun, Kalina and Bor. It was established that varieties Bor, Perun and Kalina are described with a complex value, combining high level, relatively stability and adaptability of standard yield in change of the environmental conditions in the variant including higher level of nitrogen and potassium fertilization, higher planting density and earlier term of leaf striping. High level of stability and adaptability, but lower productivity is recorded in variety Rozhen in the variant including fertilization rate N16 P14 K18, higher planting density and later term of leaf striping

References

  • Becker H., Leon J., 1988. Stability analysis in plant breeding. Plant Breeding 101: 1-23.
  • Eberhart S., Russell W., 1966. Stability Parameters for Comparing Varietes. Crop Science 6: 36-40.
  • Jovović Z., Dolijanović, Ž., Kovačević, D., Velimirović, A., Biberdžic, M., 2012. The productive traits of different potato genotypes in mountainous region of Montenegro. Genetika 44 (2): 389-397.
  • Lakin G., 1990. Biometrics. Higher school, Moscow: 352 p.
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  • Liu, R., Li, Y., Wang, F., Chen, Z., Zhao, T., Chen, C., 2009. Effect of Different Style Potassium Fertilizer on Potato Nutrient Elements Accumulation and Yield. Acta Agriculturae Boreali-Occidentalis Sinica 1: 31.
  • Nacheva E., 2006. Evaluation of the productivity in components materials. Selekcia i semenarstvo 3-4: 9- 13. breeding
  • Nakitandwe, J., Adipala, E., El-Bedewy, R., Wagoire, Adaptability of sift potato genotypes in different agro-ecologies of Uganda. African Crop Science Journal, 13(2): 107- 116. B., 2006.
  • Pereira A., Villa Nova, N., Ramos, V., 2008. Potato potential yield based on climatic elements and cultivar characteristics. Bragantia 67 (2): 327-334.
  • USDA, National Agricultural Statistics Service - http://www.nass.usda.gov/
  • Valchinkov, S., 1990. Method for classification of genotypes with relatively high and stabile Agricultural University XXXV (4): 161- works of
  • Vayda, M., Bradshaw, J, Mackay, G., 1994. Environmental stress and its impact on potato yield. Potato genetics: 239-261.
  • Wang F, 2008. The importance of quality potato seed in increasing potato production in Asia and the Pacific region. In: Papademetriou MK (ed) Proceedings of a workshop international year of the potato. Bangkok, Thailand. 6 May 2008. FAO: 46- 53. the

Adaptability and stability of standard yield in production of certified seeds from Bulgarian potato varieties

Year 2014, Volume: 1 Issue: Özel Sayı-2, 1559 - 1564, 01.03.2014

Abstract

References

  • Becker H., Leon J., 1988. Stability analysis in plant breeding. Plant Breeding 101: 1-23.
  • Eberhart S., Russell W., 1966. Stability Parameters for Comparing Varietes. Crop Science 6: 36-40.
  • Jovović Z., Dolijanović, Ž., Kovačević, D., Velimirović, A., Biberdžic, M., 2012. The productive traits of different potato genotypes in mountainous region of Montenegro. Genetika 44 (2): 389-397.
  • Lakin G., 1990. Biometrics. Higher school, Moscow: 352 p.
  • Lidanski T., Vasileva, B., 1995. Differential evaluation of alfalfa samples stability. Plant science XXXII (6): 21-27.
  • Liu, R., Li, Y., Wang, F., Chen, Z., Zhao, T., Chen, C., 2009. Effect of Different Style Potassium Fertilizer on Potato Nutrient Elements Accumulation and Yield. Acta Agriculturae Boreali-Occidentalis Sinica 1: 31.
  • Nacheva E., 2006. Evaluation of the productivity in components materials. Selekcia i semenarstvo 3-4: 9- 13. breeding
  • Nakitandwe, J., Adipala, E., El-Bedewy, R., Wagoire, Adaptability of sift potato genotypes in different agro-ecologies of Uganda. African Crop Science Journal, 13(2): 107- 116. B., 2006.
  • Pereira A., Villa Nova, N., Ramos, V., 2008. Potato potential yield based on climatic elements and cultivar characteristics. Bragantia 67 (2): 327-334.
  • USDA, National Agricultural Statistics Service - http://www.nass.usda.gov/
  • Valchinkov, S., 1990. Method for classification of genotypes with relatively high and stabile Agricultural University XXXV (4): 161- works of
  • Vayda, M., Bradshaw, J, Mackay, G., 1994. Environmental stress and its impact on potato yield. Potato genetics: 239-261.
  • Wang F, 2008. The importance of quality potato seed in increasing potato production in Asia and the Pacific region. In: Papademetriou MK (ed) Proceedings of a workshop international year of the potato. Bangkok, Thailand. 6 May 2008. FAO: 46- 53. the
There are 13 citations in total.

Details

Primary Language Turkish
Journal Section Research Articles
Authors

Emilia Nacheva This is me

Violeta Blagoeva This is me

Stoika Masheva This is me

Miroslav Mıchov This is me

Vinelina Yankova This is me

Emil Ilıev This is me

Dima Markova This is me

Publication Date March 1, 2014
Submission Date January 26, 2015
Published in Issue Year 2014 Volume: 1 Issue: Özel Sayı-2

Cite

APA Nacheva, E., Blagoeva, V., Masheva, S., Mıchov, M., et al. (2014). Adaptability and stability of standard yield in production of certified seeds from Bulgarian potato varieties. Turkish Journal of Agricultural and Natural Sciences, 1(Özel Sayı-2), 1559-1564.