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

Vol. 15 No. 1 (2005)

Articles

Effect of Ekosorb Addition to Soil on Productivity as well as Content of Nitrogen, Phosphorus, Potassium and Calcium in Leaves and Roots of Strawberry Plants

  • Małgorzata Makowska
  • Edward Borowski
  • Anna Ziemba
Submitted: May 18, 2020
Published: 2005-05-18

Abstract

A field experiment was carried out on black and sandy soil in order to estimate the influence of the addition of hydrogel Ekosorb on the content of water in soil, productivity of strawberry plants and the content of nitrogen, potassium, calcium and phosphorus in leaves and roots. The results show that hydrogel used in a dose of 3 or 6 g · dm–3 increased the amount of water reversibly accumulated in both types of soil, and yet the influence of the addition of Ekosorb was more visible in black soil than in sandy soil. The application of Ekosorb in both soils in a dose of 3 g · dm–3 increased the yield of fruits as well as the dry mass of leaves and roots. Yet Ekosorb in a dose of 6 g · dm–3 did not affect the analysed features. Ekosorb added to both soil types, regardless of the dose, increased the percentage content of N and K in the dry mass of leaves and roots. However, the percentage content of Ca in roots was decreased in those conditions. The highest amount of Ca in leaves was estimated in plants cultivated in soils with the addition of 3 g · dm–3 of hydrogel. The content of P in leaves and roots was approximately constant, regardless of the soil type or hydrogel application.

References

Austin Max E., Bondari K., 1992. Hydrogel as medium amendment for blueberry plants. Hort. Sci., 27 (9): 973–974.
Benedycka Z., Nowak G., Kozikowski A., 1998. Ekosorb jako źródło składników mineralnych dla roślin. Zesz. Probl. Post. Nauk Roln.,461: 131–136.
El-Hady O.A., Pieh S.H., Osman S., 1990. Modified polyacrylamide hydrogel as containers for sandy soil. III Influence on growth, water and fertilizers use efficiency by plants. Egypt. J. Soil Sci., 30 (3): 423–432.
Harun R.M.R., Hall D.A., Szmidt R.A.K., Hitchon G.M., 1991. Melon cultivation in organic and inorganic substrates. Acta Hort., 429: 105–108.
Hetman J., Martyn W., 1996. Oddziaływanie hydrożeli na własności wodne podłoży ogrodniczych. Zesz. Probl. Post. Nauk Roln., 429: 133–135.
Jabłońska-Ceglarek R., Cholewiński J., 1998. Ocena wpływu dodatku superabsorbentów do podłoży z substratu torfowego na plonowanie i wartość biologiczną papryki odmiany 'Sirono'. Zesz. Probl. Post. Nauk Roln., 461: 209–216.
Keever G.J., Cobb S.J., Stevenson J., Foster W.J., 1989. Effect of hydrophilic polymer amendments on growth of container grown landscape plants. Res. Rep. Ser. Alabama. Agric. Exp. Stat. Auburn Univ., 6: 18–19.
Kowalczyk-Jusko A.,Kościk B., 1999. Wpływ hydrożelu na wybrane cechy morfologiczne tytoniu (Nicotiana tabacum L.). Zesz. Probl. Post. Nauk Roln. 469: 201–207.
Makowska M., Borowski E., 1998. Wpływ dodatku Akrygelu RP do gleby lessowej na przebieg wymiany gazowej, wzrost i owocowanie jednorocznych truskawek. Mat. Konf. Nauk., pt. „Teoretyczne i praktyczne aspekty stosowania tradycyjnych i niekonwencjonalnych
podłoży ogrodniczych” Lublin: 37–38.
Mazur J., 1988. Wpływ nawadniania truskawki po zbiorze owoców na jej wzrost i plonowanie. Pr. Kom. Nauk Roln. Leśn., LXV: 139–147.
Nissen M.J., 1994. Use of Hydrogel in raspberry (Rubus idaeus) production in the south of Chile. Agro.Sur., 2,22: 160–164.
Pill W.G., Jacono C.C., 1984. Effect of Hydrogel incorporation in peat-lite on tomato and water relations. Commun. Soil Sci. Plant Anal. 8–9.
Słowińska-Jurkiewicz A., Jaroszuk M., 2001. Hydrofizyczna charakterystyka superabsorbentu 'Hidroplus'. Acta Agroph., 57: 93–100.
Uziak Z., Borowski E., 1980. The relationship betweenthe soil type and its moisture level in the utilization of macrocomponents (on the example of tomato and bean plants). Pol. J. Soil Sci., XIII, 1: 49–57.

Downloads

Download data is not yet available.