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Tom 13 Nr 5 (2014)

Artykuły

THE EFFECT OF CULTIVATION METHOD ON SELECTED TRAITS RELATED TO THE SOWING VALUE OF SHALLOT (Allium cepa L. var. ascalonicum Backer) SEED

Przesłane: 30 listopada 2020
Opublikowane: 2014-10-31

Abstrakt

In many countries, the traditional method of growing shallots from bulbs is replaced by direct seeding in the field or by planting seedlings. The availability of shallot
seed with high parameters of the sowing value is an important condition for growing shallot in larger areas. It is possible thanks to the progress in breeding and introduction into cultivation of new cultivars that produce seed stalks and seed. Therefore, the aim of the present study was to evaluate the sowing value of seed of the true-breeding cultivar ‘Toto’, when this seed is obtained by planting steckling bulbs (bulb-to-seed method) and by using the seed-to-seed method. This study, conducted in the period 2010–2012, was to evaluate some important characteristics of the seed quality obtained by planting different diameter bulbs (20–60 mm, 4 fractions every 10 mm) in autumn and spring and from seedlings planted in summer (third 10-day period of July and first and third 10-day period August). The quality of shallot seed was evaluated taking into account the following parameters: 1000 seed weight (TSW), germination energy and capacity as well as vigour
tests (seedling growth test and seedling growth rate test). Shallot cultivation method had a large effect on 1000 seed weight, but it only slightly affected germination capacity and vigour of seed obtained. Larger seeds were obtained from bulbs, regardless of their planting time, compared to the cultivation method involving planting seedlings in summer. The diameter of bulbs used for planting at autumn planting time proved to be an important factor for TSW, germination energy and the traits determining seed vigour. In the case of this planting time, seed obtained from large bulbs with a diameter of 40–60 mm was distinguished
by the best quality. The study did not show such a correlation for seed derived from spring bulb planting.

Bibliografia

Aoba T., 1960. The influence of the storage temperature for onion bulbs on their seed production. J. Hort. Assoc. J., 29, 135–141.
Asaduzzaman M., Hasan M., Moniruzzaman M., 2012. Quality seed production of onion (Allium cepa L.): An integrated approach of bulb size and plant spacing. J. Agric. Res., 50(1), 119–128.
Brink L., Basuki R.S., 2012. Production of true seed shallots in Indonesia. Acta Hort., 958, 115–120.
Cohat J., Chauvin J.E., Le Nard M., 2001. Shallot (Allium cepa var. Aggregatum) production and breeding in France. Acta Hort., 555, 221–225.
Dąbrowska B., Pokojska H., Suchorska-Tropiło K., 2000. Metody laboratoryjnej oceny materiału siewnego. Wyd. SGGW, Warszawa.
Degewione A., Alamerew S., Tabor G., 2011. Genetic variability and association of bulb yield and related traits in shallot (Allium cepa var. aggregatum Don.) in Ethiopia. Int. J. Aghric. Res., 6,517–536.
El-Helaly M.M., Karam S.S., 2012. Influence of planting date on the production and quality of onion seeds. J. Hort. Sci. Ornam. Plants, 4(3), 275–279.
Garay O.J. A.,Gomez J.A.E., 1996. Yield and quality of onion seed production by seed to seed method. Rev. Fitotec. Mexic., 19(1),75–86.
Getahun D., Zelleke A., Derso E., Kiflu E., 2003. Storability of shallot cultivars (Allium cepa L. var. ascalonicum Backer) at Debre Zeit, Ethiopia. Acta Hort., 604, 639–646.
Getahun D., Zelleke A., 2006. Identification of appropriate planting period for shallot (Allium cepa L. var. ascalonicum Backer) seed production at Debre Zeit, Ethiopia. Crop Sci. Soc. Ethiopia. Addis Abeba, 26–28 April 2004, 169–195.
Hampton J.G., TeKrony D.M., 1995. Handbook of vigour test methods. 3rd Edit. ISTA, Zurich, Switzerland.
Harikarunakar D., Rajalingam G.V., Haripriya K., 2000. Seed set and seed yield of aggregatum onion (Allium cepa L. aggregatum Don.). Madras Agric. J., 87(7–9), 370–372.
Hesse P.S., Vest G., Honma S., 1979. The effect of 4 storage treatments on seed yield components of 3 onion inbreds. Sci. Hort., 11(3), 207–215.
Khokhar K.M., 2009. Effect of size and storage temperature on bolting, bulbing and seed yield. Sci. Hort., 122(2), 187–194.
Khokhar K.M., Hadley P., Pearson S., 2007. Effect of cold temperature durations of onion sets in store on the incidence of bolting, bulbing and seed yield. Sci. Hort., 112(1), 16–22.
Krontal Y., Kamenetsky R., Rabinowitch H.D., 1998. Lateral development and floregenesis of a tropic al shallot: a comparison with bulb onion. Int. J. Plant Sci., 159(1), 57–64.
Krontal Y., Kamenetsky R., Rabinowitch H.D., 2000. Flowering physiology and some vegetative traits of short-day shallot: a comparison with bulb onion. J. Hort. Sci. Biotech., 75(1), 35–41.
Lu X., Wang J., Al-Qadiri H.M., Ross C.F., Powers J.R., Tang J., Rasco B.A., 2011. Determination of total phenolic content and antioxidant capacity of onion (Allium cepa) and Shallot (Allium oschaninii) using infrared spectroscopy. Food Chem., 129, 637–644.
Permadi A.H., 1994. Growing shallot from true seed – research results and problems. Onion Newslet. Tropics., 5, 35–38.
Pham T.M.P., Isshiki S., Tashiro T., 2006. Comparative study on shallot (Allium cepa L. Aggregatum Group) from Vietnam and the Surrounding Countries. J. Japan. Soc. Hort. Sci., 75(4), 306–311.
RăduicaD.V., Popescu V., 2010. Research on the biology, technology and use of shallots (Allium ascalonicum). J. Hort. Foest. Biotech., 14(2), 250–257.
Ruggeri A., Branca F., 1994. Sowing date and GA3 in onion seed production. Acta Hort., 362, 35–42.
Soedomo R.P., 1999. Influence of vernalization on flowering of eight of shallot cultivars (Allium ascalonicum L.) at highland area, Bandung District (Indonesia). Bul. Ilm. Inst., 6(1), 44–59.
Sumami N., Soetiarso T.A., 1998. Effect of planting time and seed bulb size on the growth, yield and cost of true shallot seed production. J. Hort., 8(2), 1085–1094.
Tabor G., Stüetzel H., Zelleke A., 2005. Juvenility and bolting in shallot (Allium cepa L. var. ascalonicum Backer). J. Hort. Sci. Biotechnol., 80(6), 751–759.
Tashiro Y., Miyazaki S., Kanazawa K., 1982. On the shallot cultivated in the countries of Southeastern Asia. Bull. Fac. Agric. Saga Univ., 53, 65–73.
Tendaj M., Mysiak B., 2010. Content of certain chemical components in shallot bulbs after harvest and long-term storage. Acta Sci. Pol., Hortorum Cultus, 9(2), 75–83.
Tendaj M., Mysiak B., 2013a. The effect of summer seedling planting date on the development of seed stalks in shallot (Allium cepa L. var. ascalonicum Backer). Acta Sci. Pol., Hortorum Cultus, 12(6), 57–66.
Tendaj M., Mysiak B., 2013b. The development of generative shoots and seed yield of shallot from the autumn bulb planting. Episteme, 20(1), 591–601.
Tendaj M., Mysiak B., Krawiec M., 2013. The effect of storage temperature of steckling bulbs on seed stalk development and seed yield of shallot (Allium cepa L. var. ascalonicum Backer). Acta Agrobot., 66(3), 41–48.
Voss R.E., Murrary M., Bradford K., Mayberry K.S., Miller I., Long R., Gillespie S., 2013. Onion seed production in California. ANR, Publication 8008. Univ. California.

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