Skip to main navigation menu Skip to main content Skip to site footer

Vol. 10 No. 4 (2011)

Articles

THE EFFECT OF INTERCROPPING ON YIELDING OF ROOT VEGETABLES OF Apiaceae FAMILY

Submitted: January 15, 2021
Published: 2011-12-31

Abstract

Intercropping of vegetables is experiencing a renaissance with the uptake of organic farming. Cultivation of several plant species simultaneously eliminates negative traits of homogenous cultivation, supports bio-diversity and remains compliant with the rule of balanced agriculture. Carrot and root parsley are two vegetables that have very high requirements towards the conditions of growth. Their cultivation together with other species is a conscious introduction of competitive plants, therefore it was interesting to observe their reaction to intercropping. Among various combinations of compared cultivation types, intercropping with onion turned out to be most beneficial to both carrot and parsley. The ones cultivated together with onion created the highest yield of marketable roots, total yield and yield of leaves. Onion growing next to them had positive effect on the structure of root yield, especially in case of carrot, increasing commercial root share. Intercropping of carrot and parsley with marigold had unfavorable effect on yielding and growth of these vegetables. Intercropping did not affect the number of carrot and parsley emergence, nor yield of fine roots. Total marketable yield of root vegetables obtained from intercropping with onion was greater than that from homogenous cultivation. The effect of intercropping of carrot with parsley was modified by a year of research.

References

Bakker J., Gommers F.J., Nieuwenhuis I. Wynjberg H., 1979. Photoactivation of nematocidal compound α- terthienyl from roots of marigold (Tagetes species). J. Biol. Chemistry 254, 1841–1844.
Bedi Y.S., Kaul K., 1995. Allelopathic influence of Tagetes species on germination and seedling growth of radish (Raphanus sativus) and lettuce (Lactuca sativa). Ind. J. Agric. Sci., 65, 8, 599–601.
Błażewicz-Woźniak M., 1998. Effect of agricultural practices on emergence, growth and yield of root parsley, grown on the slaking soil. Part III. Yield of roots. Annales UMCS, sec. EEE, Horticultura, 6, 73–87.
Błażewicz-Woźniak M., 2004. The reasons of low parsley’s emergence and agricultural methods of its improvement. Post. Nauk Roln. 1/307, 81–92.
Błażewicz-Woźniak M., 2005. Effect of no-tillage and mulching with cover crops on yield of parsley. Folia Hortic. 17/2, 3–10.
Błażewicz-Woźniak M., Kęsik T., Konopiński M., 2005. Yielding of onion in intercropping with root vegetables. Zesz. Nauk. AR Wrocław, Rolnictwo 86, 515, 55–60.
Chakraborti S., 2003. Management approaches for root-knot nematode in onion. Ind. J. Nematology 33, 1, 37–39.
Dhimmar S.K., 2009. Effect on growth and yield of rabi castor in pulses intercropping under varying planting geometry. American-Eurasian J. Sci. Res. 4 (3), 165–168.
Finch W.E., Steckel J.R.A., Phelps K., 1998. Germination and post-germination growth to carrot seedling emergence: predictive threshold models and sources of variation between sowing occasions. New Phytologist 139, 3, 505–516.
Heredia Zárate N.A., Vieira M.C., Rech J., Quast A., Pontim B.C.A., Gassi R.P., 2008. Yield and gross income of arracacha in monocrop and intercropping with the Japanese bunching onion and parsley. Hortic. Brasileira 26, 287–291.
Hethelyi E., Danos B., Teteny P., 1986. GC-MS analysis of the essential oils of four Tagetes species and the anti-microbial activity of Tagetes minuta. Flav. Fragrance J., 1, 169–173.
Legutowska H., Kucharczyk H., Surowiec J., Vidal S., 2001. The effect of intercropping leek with clover and carrot on thrips infestation. Proc. IOBC-WPRS Working Group 'Integrated Protection in Field Vegetable Crops', Kraków, Poland, 15–17 October, 2001. Bull. OILB SROP, 26, 3, 355–359.
Mateeva A., Ivanova M.M., Vassileva M., 2002. Effect of intercropping on the population density of pests in some vegetables. Acta Hort. (ISHS) 579, 507–511.
Ogbuehil C.R.A., Orzolek M.D., 1987. Intercropping carrot and sweetcorn in a multiple cropping system. Sci. Hortic., 31, 1–2, 17–24.
Osiru D.S.O., 1983. Intercropping: A review of New Delhi, possible advantages. S.K. Roy (ed.), In Frontiers of Research in Agriculture, Indian Statistical Institute, Cultutta, 304–320.
Ouma G., Jeruto P., 2010. Sustainable horticultural crop production through intercropping: The case of fruits and vegetable crops: A review. Agric. Biol. J. N. Am., 1(5), 1098–1105.
Poniedziałek M., Jędrszczyk E., Jankowska B., 2010. Wpływ uprawy współrzędnej marchwi (Daucus carota L.) z aksamitką (Tagetes patula nana L.) i nagietkiem (Calendula officinalis L.) na jakość plonu oraz wybrane szkodniki marchwi. Mat. Konf. Proekologiczna uprawa warzyw – problemy i perspektywy. Siedlce, 24–25 czerwca 2010, 131–132.
Sturz A.V., Kimpinski J., 2004. Endoroot bacteria derived from marigolds (Tagetes spp.) can decrease soil population deitienss of root-lesion nematodes in the potato root zone. Plant Soil 262(1/2), 241–249.
Suresha B.A., Allolli T.B., Patil M.G., Desai B.K., Syed A.H., 2007. Yield and Economics of Chilli Based Intercropping System. Karnataka J. Agric. Sci., 20 (4), 807–809.
Theunissen J., Booij C.J.H., Lotz L.A.P., 1995. Effects of intercropping white cabbage with clovers on pest infestation and yield. Entomol. Exp. Appl. 74,1, 7–16.
Uvah I.I., Coaker T.H., 1984. Effect of mixed cropping on some insect pests of carrot and onion. Ent. Exp. Appl., 36, 159–167.
Whalley W., Clark L., Finch-Savage W., Cope R., 2004. The impact of mechanical impedance on the emergence of carrot and onion seedlings. Plant Soil, 265, 1–2, 315–323.
Wiech K., Kałmuk J., 2005. Uprawy współrzędne sposobem na zmniejszenie zużycia pestycydów. In: Ochrona środowiska naturalnego w XXI wieku, nowe wyzwania i zagrożenia. Fundacja na rzecz wspierania badań naukowych W.O., AR w Krakowie, 126–136.
Wiech K., Wnuk A., Wojciechowicz-Żytko E., Jankowska B. 2009. The influence of ecological infrastructure on vegetable pests and beneficial insects. Prog. Plant Prot., 49 (3), 1124–1132.

Downloads

Download data is not yet available.

Most read articles by the same author(s)

1 2 > >> 

Similar Articles

<< < 19 20 21 22 23 24 25 26 27 28 > >> 

You may also start an advanced similarity search for this article.