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Vol. 13 No. 1 (2014)

Articles

EFFECT OF CHILLING STRESS BEFORE TRANSPLANTING ON MORPHOLOGICAL PARAMETERS OF BROCCOLI HEADS

Submitted: November 20, 2020
Published: 2014-02-28

Abstract

Vegetable crops produced in the field from transplants for early harvest are exposed to various stressful conditions. Standard treatment for transplants before planting out is hardening, through lowering the temperature or less-frequent watering. This process launches several plant defensive mechanisms against stress. However, chilling must be adjusted to specific crop species or even cultivars, because their response to low temperature may be different. The aim of the present experiment was to determine the effect of transplant chilling on the morphology of broccoli inflorescences. The experiment was conducted in the years 2011–2012. Broccoli transplants were chilled for 1 week or 2 weeks at 6, 10 and 14°C. Control plants were exposed to 18°C. Bud diameter and bud stalk length of broccoli inflorescences were measured, as well as diameter and weight of mature heads. In response to longer transplant chilling period, in the following growing
stages plants formed inflorescences with longer bud stalks compared to the non-chilled control. The same tendency was observed for bud diameter in inflorescences. The greatest diameter of buds was noted for plants exposed to 10°C in comparison to the control, with buds about 29% smaller in diameter. Mean diameter of mature heads was the lowest for control plants, while the widest was obtained from plants chilled at 6°C or 10°C for 2 weeks, depending on the year. Chilling of transplants positively influenced the weight of broccoli heads at harvest in most cases, and the heaviest heads were obtained as a result
of transplant chilling at 6°C. Relationships between temperature and some parameters of broccoli heads were found and regression equations were created.

References

Björkman T., Pearson K.J., 1998. High temperature arrest of inflorescence development in broccoli (Brassica oleracea var. italica L.). J. Exp. Bot. 49, 101–106.
Dufault R.J., 1996. Dynamic relationships between field temperatures and broccoli head quality. J. Amer. Soc. Hort. Sci. 121(4), 705–710.
Goraj S., Libik-Konieczny M., Surówka E., Rozpądek P., Kalisz A., Libik A., Nosek M., Waligórski P., Miszalski Z., 2012. Differences in the activity and concentration of elements of the antioxidant system in different layers of Brassica pekinensis head. J. Plant Physiol. 169, 1158–1164.
Grabowska A., Sękara A., Bieniasz M., Kunicki E., Kalisz A., 2013. Dark-chilling of seedlings affects initiation and morphology of broccoli inflorescence. Not. Bot. Hort. Agrobot. Cluj. (In print).
Huang M., Guo Z., 2005. Responses of antioxidative system to chilling stress in two rice cultivars differing in sensitivity. Biol. Plant 49(1), 81–84.
Janská A., Maršík P., Zelenková S., Ovesná J., 2010. Cold stress and acclimation – what is important for metabolic adjustment? Plant Biol. 12, 395–405.
Jian L.-C., Lu C.-F., Li J.-H., Li P.H., 2005. Increment of chilling tolerance and its physiological basis in chilling-sensitive corn sprouts and tomato seedlings after cold-hardening at optimum temperatures. Acta Agron. Sin. 31(8), 971–976.
Kalisz A., Cebula S., 2006. The effect of temperature on growth and chemical composition of Chinese cabbage seedlings in spring period. Folia Hort. 18(1), 3–15.
Kalisz A., Siwek P., 2006. Yield and quality of spring Chinese cabbage as affected by different temperature conditions during seedling production. Folia Hort. 18(2), 3–15.
Kałużewicz A., Krzesiński W., Knaflewski M., Lisiecka J., Spiżewski T., Frąszczak B., 2010. The effect of temperature on the broccoli yield and length of the period from head initiation to harvest. Acta Sci. Pol., Hortorum Cultus 9(3), 167–174.
Kałużewicz A., Krzesiński W., Knaflewski M., Lisiecka J., Spiżewski T., Frąszczak B., 2012. Broccoli (Brassica oleracea var. italica) head initiation under field conditions. Acta Agrobot. 65(2), 93–98.
Korkmaz A., Dufault R.J., 2001a. Developmental consequences of cold temperature stress at transplanting on seedling and field growth and yield. I. Watermelon. J. Amer. Soc. Hort. Sci. 126(4), 404–409.
Korkmaz A., Dufault R.J., 2001b. Developmental consequences of cold temperature stress at transplanting on seedling and field growth and yield. I. Muskmelon. J. Amer. Soc. Hort. Sci. 126(4), 410–413.
Kosmala A., 2009. Molekularne podstawy aklimatyzacji roślin do niskich temperatur. Post. Nauk Rol. 1, 11–23.
Michaels S., Amasino R., 2000. Memories of winter: Vernalization and the competence to flower. Plant Cell Environ. 23, 1145–1154.
Pastori G.M., Foyer C.H., 2002. Common components, networks and pathways of cross-tolerance to stress. The central role of ‘redox’ and abscisic-acid-mediated controls. Plant Physiol. 129, 460–468.

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