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Tom 9 Nr 3 (2010)

Artykuły

YIELDING AND NUTRITIVE VALUE OF FIELD CULTIVATED EGGPLANT WITH THE USE OF LIVING AND SYNTHETIC MULCHES

Przesłane: 22 stycznia 2021
Opublikowane: 2010-09-30

Abstrakt

Eggplant is grown in Poland mainly under shields because of high requirements in climat conditions. The utilization of mulches has played a great role in production of such vegetables. In 2008–2009 there was investigated the yielding of eggplant cv. Epic F1 cultivated with living mulches – perennial ryegrass and white clover, which were sown three weeks before eggplant planting, in the term of planting and three weeks after planting, as well as with synthetic mulches: polyethylene black foil and non-woven polypropylene agrotextil. The experiment was established according to randomized split – plot method. Marketable yield of eggplant cultivated with the use of black foil was higher than that from the control treatment and mulched with black agrotextil cover by 7.8% and 10.4%, respectively. Eggplant yield obtained from cultivation with white clover was similar to that coming from plots covered with black foil. Cultivation of this vegetable with perennial ryegrass resulted in significant decrease in eggplant yield, average by 17% in relation to cultivation with the remaining mulches and by 15% as compared to control treatments. The content of reducing sugars and magnesium in eggplants fruits depended on the type of mulch and term of living mulches sowing, and in the case of potassium on the species used as living mulch.

Bibliografia

Adamczewska-Sowińska K., 2004. Zastosowanie żywych ściółek w uprawie pomidora i papryki oraz ich wpływ następczy na plonowanie selera korzeniowego i marchwi jadalnej. Zesz. Nauk. AR we Wrocławiu, 484, Rozprawy 218, Wrocław.
Adamczewska-Sowińska K., 2008. Wpływ żywych ściółek na plonowanie i wartość biologiczną papryki. Zesz. Probl. Post. Nauk Rol. Prozdrowotna Produkcja Roślin Warzywnych i Zielarskich, 527, 59–65.
Adamczewska-Sowińska K., Kołota E., 2008. The effect of living mulches on yield and quality of tomato fruits. Veg. Crops Res. Bull. 69, 31–38.
Ambroszczyk A. M., Cebula S., Sękara A., 2008. The effect of shoot training on yield, fruit quality and leaf chemical composition of eggplant in greenhouse cultivation. Folia Hort. Ann. 20/2, 3–15.
Buczkowska H., 1999. Wpływ ściółkowania gleby na zachwaszczenie w uprawie papryki słodkiej. Zesz. Probl. Post. Nauk Rol. 466, 157–163.
Cornillon P., Dauple P., 1981. Influence of irrigation rhythm and water supply on growth, water status and yield of egg-plant (Solanum melongena L.). Plant and Soil 59, 365–379.
Ertek A., Şensoy S., Küçükyumuk C., Gedik I., 2006. Determination of plant-pan coefficients for field-grown eggplant (Solanum melongena L.) using class A pan evaporation values. Agric. water management 85, 58–66
FAOSTAT 2008. http://faostat.fao.org/site/567/DesktopDefault.aspx?PageID=567#ancor
Guimarães P. R., Galvão A. M. P., Batista C. M., Azevedo G. S., Oliveira R. D., Lamounier R. P., Freire N., Barros A. M. D., Sakurai E., Oliveira J. P., Vieira E. C., Alvarez-Leite J. I., 2000. Eggplant (Solanum melongena) infusion has a modest and transitory effect on hypercholesterolemic subjects. Braz. J. Med. Biol. Res. 33, 1027–1036.
Golcz A., Politycka B., Markiewicz B., 2005. Zawartość makroskładników w oberżynie (Solanum melongena L.) uprawianej w podłożach organicznych wielokrotnie użytkowanych. Rocz. AR Pozn. 370, Ogrodn. 39, 13–19.
Hooks C. R. R., Johnson M. W., 2003. Impact of agricultural diversification on the insect community of cruciferous crops. Crop Protection 22, 223–238.
Jędrszczyk E., Poniedziałek M., 2007. The impact of the living much on plant growth and selected features of sweet corn yield. Folia Hort. Ann. 19/1, 3–13.
Kashyap V., Vinod Kumar S., Collonnier C., Fusari F., Haicour R., Rotino G. L., Sihachakr D., Rajam M. V., 2003. Biotechnology of eggplant. Sci. Hort. 97, 1–25.
Kowalski R., Kowalska G., Wierciński J., 2003. Chemical composition of fruits of three ‘eggplant’ (Solanum melongena L.) cultivars. Folia Hort. Ann. 15/2, 89–95.
Kunachowicz H., Nadolna I., Iwanow K., Przygoda B., 2006. Wartość odżywcza wybranych produktów spożywczych i typowych potraw. Wyd. Lekarskie PZWL, Warszawa, 56–57.
Lawande K. E., Chavan J. K., 1998. Handbook of vegetable science and technology: production, composition, storage, and processing. Ed. by Salunkhe D. K., Kadam S. S. Marcel Dekker, INC, New York., 225–244.
Leary J., De Frank J., 2000. Living Mulches For Organic Farming Systems. Hort Technol. 10(4), 692–698.
Michałojć Z., Buczkowska H., 2008. Content of macroelements in eggplant fruits depending on nitrogen fertilization and plant training method. J. Elementol. 13(2), 269–274.
Müller-Schärer H., 1996. Interplanting ryegrass in winter leek: effect of weed control, crop yield and allocation of N-fertiliser. Crop Protection, 15(7), 641–648.
Nisha P., Abdul Nazar P., Jayamurthy P., 2009. A comparative study on antioxidant activities of different varieties of Solanum melongena. Food Chem. Toxicol. 47, 2640–2644.
NutritionData. www.nutritiondata.com/facts/vegetables-and-vegetable-products/2443/2 Ofori K., Gamedoagbao D. K., 2005. Yield of scarlet eggplant (Solanum aethiopicum L.) as influenced by planting date of companion cowpea. Sci. Hort. 105, 305–312.
Poniedziałek M., Stokowska E., 1999. Możliwości ograniczenia zabiegów uprawowych u kapusty głowiastej białej przez zastosowanie zielonych ściółek. Zesz. Probl. Post. Nauk Rol. 466, 301–308.
Sękara A., Cebula S., Kunicki E., 2007. Cultivated eggplants – origin, breeding objectives and genetic resources, a review. Folia Hort. Ann. 19/1, 97–114.
Siwek P., Kalisz A., Wojciechowska R., 2007. Effect of mulching with film of different colours made from original and recycled polyethylene on the yield of butterhead lettuce and celery. Folia Hort. 19/1, 25–35.
Weber A., Holmes M., Vidal S., Finch S., Hartfield C., Brunel E., 1999. Thrips damage or yield reduction in undersown leek: replacing one evil by another? Proc. of the meeting at Chania, Crete. Integrated control in field vegetable crops. 22(5), 181–188.

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