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Analysis of hydrothermal conditions and their impact on early potato yields

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The work is based on data on monthly air temperatures, monthly sums of atmospheric precipitation and early potato yields in 2000–2013 obtained from seven COBORU (Research Centre for Cultivar Testing) stations situated in east-central Poland. Hydrothermal conditions during the growing season (April–July) of early potato were described by means of the Sielianinow’s coefficient. The relationships between potato yields and the Sielianinow’s hydrothermal coefficient of the growing season were examined using multiple regression equations generated by means of the step-wise regression procedure followed by polynomial regression procedure. The average Sielianinow’s coefficient values ranged from 1.43 in April to 1.66 in May during the early potato growing season in east-central Poland. The applied statistical methods revealed that the hydrothermal factors impacted on early potato yields, particularly in the second stage of potato growth and development.
Rocznik
Strony
120--124
Opis fizyczny
Bibliogr. 32 poz., tab, rys.
Twórcy
autor
  • University of Natural Sciences and Humanities in Siedlce, Prusa 14, 08-110 Siedlce, Poland
autor
  • University of Natural Sciences and Humanities in Siedlce, Prusa 14, 08-110 Siedlce, Poland
  • The Research Centre for Cultivar Testing in Słupia Wielka, 63-022 Słupia Wielka, Poland
Bibliografia
  • 1. Bartoszek K., Banasiewicz I., 2007. Agrometeorological characteristics of the vegetation period in 2005 against the background of the period of 1951-2005 in the Lublin region. Acta Agroph. 9(2), 275–283.
  • 2. Bochenek W. 2012. Evaluation of precipitation at the IG&SO pas research station in Szymbark during 40-year period (1971–2010)and its impact on the variability of ater runofffrom the Bystrzanka stream basin]. Woda Środ. Obsz. Wiej. 2(38), 29–44.
  • 3. Biniak M., Kostrzewa S., Żyromski A., 2007. Thermal and rainfall determinants of water demand in the Wrocław area as exemplified by medium-late potatoes. Zesz. Probl. Post. Nauk Rol. 519, 31–45.
  • 4. Chmura K., 2001. Natural and agrotechnological determinants of potato cultivation in south-western Poland. Zesz. Nauk. AR in Wrocław, Dissertations 410.
  • 5. Chotkowski J., Rembeza J., 2005. Consumer preferences and changes in potato consumption. Rocz. Nauk. Stow. Ekon. Rol. i Agrobiznesu 7(3), 42–49.
  • 6. Dmowski Z., Nowak L., Chmura K., 2004. Reaction of varying in the length of a vegetation period to differentiated water-fertilization conditions. Biul. Inst. Hod.i Aklim. Rośl. No 232. 141–148.
  • 7. Dzieżyc J., Nowak L., Panek K., 1987. Decade indices of precipitation requirements by crops in Poland. Zesz. Probl. Post. Nauk Roln., 314, 11–33.
  • 8. Głuska A., 2000. Effect of cultivation technology on the quality of potato yield. Biul. IHAR 213, 173–178.
  • 9. Hutorowicz H., Grabowski J., Olba-Zięty E., 2008. Frequency of occurrence of dry spells and droughts in two mesoregions of Masurian Lakeland. Acta Agroph. 12(3), 663–673.
  • 10. Jakubowski T., 2007. Potato tuber cropping and susceptibility to mechanical damage related to hydrothermal coefficient. Inżynieria Rol. 8(96), 87–93.
  • 11. Jefferies R.A., Lawson H.M., 1991: A key for the stages of development of potato (Solanum tuberosum). Ann. Appl. Biol., 119, 387–389.
  • 12. Kalbarczyk R., 2003. Thermal and precipitation conditions in relation to the yielding of potato in Poland. Annales UMCS. Sectio E. Vol. 58. 35–44.
  • 13. Kalbarczyk R., Kalbarczyk E., 2009. The requirements and deficiency in atmospheric precipitation in cultivated mid-late and late potato in Poland. Infrastructure and Ecology of Rural Areas, Nr 3. 129–140.
  • 14. Kapuściński J., Nowak R., 2003. The frequency of the occurrence of droughts and post-droughts periods in mid-west Poland on the example of Poznań, Wałcz and Wieluń. In: Management and conservation of the forest environment. Climate vs forest (Ed. Miler A.) Agricultural University in Poznań, 76–88.
  • 15. Lutomirska B., 2005. The effect of temperature in mid-growing season on potato yield. Ziemniak Polski No 4. Bonin. 14–15.
  • 16. Lutomirska B., 2006. Accelerating very early potato harvest. Ziemniak Polski No 1, 9–11.
  • 17. Lutomirska B., 2008. The effects of cultivars and meteorological factors on variability of the potato phenophases. Ziemniak Polski No 247. Bonin. 119–134.
  • 18. Mazurczyk W., Wierzbicka A., Wroniak J., 2009. Influence of optimisation of irrigation and nitrogen fertilisation on some growth parameters and yield of early potato variety. Infrastructure and Ecology of Rural Areas, No 3, 91–100.
  • 19. Nowak L., 1989. Water requirements of rainfed tuber and root crops. Zesz. Probl. Post. Nauk Roln., 343, 27–42.
  • 20. Nowak L., 2001. The effect of irrigation of medium-early potato in the Wrocław area. Fragm. Agron. 1, 68–75.
  • 21. Nowak L., 2006. Water requirements of tuber and root crops. In: Plant Irrigation (Eds Kaczmarczyk S., Nowak L., PWRiL, Poznań, 368–372.
  • 22. Radzka E., Jankowska J., Koc. G, Rak J., 2010. The effect of droughts on potato yields in east-central Poland. Fragm. Agron. 27(4), 111-118.
  • 23. Rolbiecki S., Rzekanowski Cz., Rolbiecki R., 2009. Estimation of needs and results of irrigation of medium-early potato in the vicinity of Bydgoszcz in the years 2005-2007. Acta Agroph., 13(2), 463–472.
  • 24. Sawicka B., 1991. A study of variation in selected characteristics and degeneration of different potato cultivars in the Biała Podlaska area. Publishing Centre of Agricultural University in Lublin, Rozpr. Nauk., 141, 1–75.
  • 25. Sawicka B, Krochmal-Marczak B., 2005. Influence of agrometeorological factors on length of developmental phases of very early and early potato cultivars. Acta Agroph. 6(1), 225–236.
  • 26. Skowera B., 2014. Changes of hydrothermal conditions in the Polish area (1971−2010). Fragm. Agron. 31(2), 74–87.
  • 27. Skowera B., Puła J., 2004. Pluviometric extreme conditions in spring season in Poland in the years 1971-2000. Acta Agroph., 3(1), 171–177.
  • 28. Szutkowska M., Lutomirska B., 2002. Influence of environmental conditions and agriculture factors on tubers infection with Streptomyces scabies. Biul. IHAR 221, 153–167.
  • 29. Szwejkowski Z., Dragańska E, Suchecki S., 2008. Forecast of influence of expected global warming in year 2050 on crop yielding in north-eastern Poland. Acta Agroph. 12(3), 791–800.
  • 30. Trętowski J., Wójcik A. R., 1991. Methodology of Agricultural Experiments. WSRP Siedlce, 79–94.
  • 31. Ziernicka-Wojtaszek A., 2009. Verification of agro-climatic regionalisation types in Poland in the light of contemporary climate change. Acta Agroph., 13(3), 803–812.
  • 32. Żarski J., 2011. Trends in changes of climatic indices for irrigation needs of plants in the region of Bydgoszcz. Infrastructure and Ecology of Rural Areas, 5, 29–37.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-20d5ef1f-2b15-440d-8cb5-d6d81693fc43
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