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

Vol. 12 No. 3 (2013)

Articles

THE EFFECT OF INTERCROPS AND PLOUGHING TERM ON THE STRUCTURE OF YIELD AND SOME QUALITIES OF SALSIFY (Tragopogon porrifolius L.) ROOTS

Submitted: December 8, 2020
Published: 2013-06-30

Abstract

Due to frequent cultivation procedures and the chemicalization of crops the cultivated layer of soil is often subject to detrimental changes in its physical, chemical and biological characteristics. The aggregate structure of the soil disappears, the content of organic substance is lowered and the biological activity diminished. In order to reproduce the organic substance of the soil and improve its characteristics ploughed intercrops are introduced in the horticulture. The biomass of common vetch, tansy phacelia and oats were used for soil cultivation for the crop cultures of salsify. It was then confirmed, that independently from the intercrop plant used, the ploughed biomass had a significantly positive influence on the yield of salsify roots. The positive influence of the organic substance
added to the soil on the percentage of marketable yield of roots and the total amount of crops were both confirmed. Among the investigated intercrops the common vetch had the most beneficial influence on the crops of salsify. The most beneficial method of cultivation of salsify crops proved to be its cultivation on ridged soil, which resulted in the largest crop yield and the largest percentage of marketable yield. The roots from this type of culture were also longer and had higher phosphorus content. Due to the beneficial influence on the root crops and its structure, the best time for ploughing of the biomass of the intercrops was the spring term.

References

Anyszka Z., Dobrzański A., 2006. Zachwaszczenie w uprawie marchwi, w zależności od sposobu uprawy. Fol. Hort. Suppl., 1, 43–47.
Babik J., 2000. Wpływ metody uprawy, nawadniania i zagęszczenia roślin na plon i jakość korzeni cykorii sałatowej (Cichorium intybus L. var. foliosum Hegi). Annales UMCS sec. EEE, Horticultura, VIII, Suppl., 211–217.
Babik J., Dudek J., 2000. New, complex machine for ridge forming, and simultaneous sowing vegetable crops. Veg. Crops Res. Bull. 53, 103–110.
Benecsik K., 2007. Effect of tillage methods on the agronomical structure of the soil. Agrokemia es Talajtan, 56 (1), 21–28.
Błażewicz-Woźniak M., Kęsik T., Wach D., Konopiński M., 2008. The influence of conservation tillage on the mineral elements content in soil land chemical composition of onion. Acta Sci.
Pol., Hortorum Cultus, 7(2), 61–72.
Borowy A., Konopiński M., Jelonkiewicz M., 2000. Effect of no-tillage and rye mulch on soil properties, weed infestation and yield of carrot and red beet. Annales AFPP Dijon – France, 339–345.
Cebulak T., Sady W., 2000. Effect of cultivation methods on nutritive compounds in the carrot. Fol. Hort. 12 (1), 77–84.
Duer I., 1996. Mulczujący wpływ międzyplonu na plonowanie jęczmienia jarego oraz zawartość wody i azotanów w glebie. Fragm. Agron. (XIII), 1 (49), 29–43.
Evers A.M., Tuuri H., Hägg M., Plaami S., Häkkinen U., Talvitie H., 1997. Soil forming and plant density effects on carrot yield and internal quality. Plant Foods Human Nutr., 51, 283–294.
Holland J.E., White R.E., Edis R., 2007. The relation between soil structure and solute transport under raised bed cropping and conventional cultivation in south-western Victoria. Austral. J.
Soil Res., 45 (8), 577–585.
Kęsik T., Konopiński M., Błażewicz-Woźniak M., 2006. Wpływ uprawy przedzimowej i mulczu z roślin okrywających na retencję wody, zagęszczenie i porowatość dyferencyjną gleby po przezimowaniu. Acta Agrophysica, 7(4), 915–926.
Konopiński M., 2003. Wpływ zróżnicowanych systemów uprawy na kształtowanie warunków wzrostu, plonowanie i wartość biologiczną skorzonery (Scorzonera hispanica L.). Rozpr. Nauk. AR w Lublinie, 271.
Konopiński M., 2008. The effect of different soil and plants cultivation methods on yield and chemical composition of scorzonera roots. Veg. Crops Res. Bull. 68, 101–110.
Konopiński M., 2009. Influence of intercrop plants and varied tillage on yields and nutritional value of salsify (Tragopogon porrifolius L.) roots. Acta Sci. Pol., Hortorum Cultus, 8(2), 27–36.
Michalik Ł., 2003. Wpływ metody uprawy na plonowanie selera naciowego w warunkach klimatycznych Olsztyna. Fol. Hort. Suppl. 2, 322–324.
Ostrowska A., Gawliński S., Szczubiałka Z., 1991. Metody analizy i oceny gleb i roślin. Instytut Ochrony Środowiska, Warszawa.
Polák M., Poničan J., Jech J., Angelovič M., 1999. Comparison of cultivating root vegetables in soil prepared by the classical method and in ridges. Zěmdělska Technika, 45(1),1–8.
Schuppenies R., 1993. Mulchsaaten von Silomais und die Bodeutang der Nmin-Untersuchung. Umweltgerecht Angebaut. Neue Landwirtschaft, 1, 27–28.
Tisdall J.M., Hodgson A.S., 1990. Ridge tillage in Australia: a review. Soil and Tillage Research, 18 (2–3), 127–144.
Wierzbicka B., Pierzynowska-Korniak G., Majkowska-Gadomska J., 2004. Wpływ metody uprawy i przechowywania na plon i jędrność korzeni spichrzowych dwóch odmian marchwi. Fol. Univ. Agricult. Stetin. Agricult. 239 (95), 415–418.

Downloads

Download data is not yet available.

Most read articles by the same author(s)

1 2 3 > >> 

Similar Articles

<< < 27 28 29 30 31 32 33 34 35 36 > >> 

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