References
- Breś W., 2006. Wpływ hydrożelu Alcosorb AS 400 na stan odżywienia traw gazonowych. Act. Agrophys. 7(4): 859-866.
- Bunt J.S., Rovira A.D., 1955. Microbiological studies of some subantarctic soils. J. Soil Sci. 6(1): 119-128.
- Cyganov V.A., Zukov R.A., 1964. Morfologobiohimičiskie osobennosti novovo vida actionomiceta. Mikrobiol. 33(5): 863-869.
- De Varennes A., Torres M.Q., 1999. Remediation of a long-term copper-contaminated soil using a polyacrylate polymer. Soil Use Manage. 15(4): 230-232.
- De Varennes A., Queda C., 2005. Application of an insoluble polyacrylate polymer to copper contaminated soil enhances plant growth and soil quality. Soil Use Manage. 21: 410-414.
- De Varennes A., Goss M.J., Mourato M., 2006. Remediation of a sandy soil contaminated with cadmium, nickel, and zinc using an insoluble polyacrylate polymer. Comm. Soil Sci. Plant Anal. 37(11-12): 1639-1649.
- El-Hady O., Abo-Sedera S.A., Basta A.H., EL -Saied H., 2011. The role of rice straw-based hydrogels on some soil microorganisms strains. BIO 1: 78-84.
- El-Hady O., Abo-Sedera S.A., 2006. Conditioning effect of compost and acrylamide hydrogels on a sandy calcareous soil. II-Physico-bio-chemical properties of the soil. Int. J. Agric. Biol. 8(6): 876 -884.
- Geesing D., Schm idh alter U., 2004. Influence of sodium polyacrylate on the water-holding capacity of three different soils and effects on growth of wheat. Soil Use Manage. 20: 207-209.
- Guiwei Q., De Varennes A., 2009. Use of hydrophilic insoluble polymers in the restoration of metalcontaminated soils. Appl. Environ. Soil Sci. ID 790687.
- Jarosz Z., Dzida K., Bartnik K., 2011 Yielding and chemical composition of ‘Honeoye’ cultivar strawberries depending on the kind of substratum and nitrogen dose. Acta Sci. Pol., Hortorum Cultus 10(1): 95-104.
- Jarosz Z., Konopińska J., 2006. Plonowanie i skład chemiczny liści truskawki w zależności od rodzaju podłoża i nawożenia azotem. Act. Agrophys. 7(4): 901-908.
- Jiao H., Bai Z., Liu Y., Wang K., Huang Z., 2013. Impact of superabsorbent polymer and plants on microbial community and petroleum hydrocarbon degradation in contaminated soil. Adv. Mat. Res. 807-809: 353-360.
- Johnson M.S., Leach R.T., 1990. Effect of superabsorbent polyacrylamide on efficiency of water use by crop seedlings. J. Sci. Food Agr. 52: 431-434.
- Kim S., Iyer G., Nadarajah A., Frantz J.M., Spongberg A.L., 2010. Polyacrylamide hydrogel properties for horticultural applications. Int. J. Polym. Anal. Ch. 15: 307-318.
- Klamkows ki K., Treder W., Tryngiel-Gać A., 2006. The effects of substrate moisture content on water potential, gas exchange rates, growth, and yield in strawberry plants grown under greenhouse conditions. J. Fruit Ornam. Plant Res. 14: 163-171.
- Klamkows ki K., Treder W., 2008. Response to drought stress of three strawberry cultivars grown under greenhouse conditions. J. Fruit Ornam. Plant Res. 16: 179-188.
- Kos B., Leštan D., 2003. Influence of a biodegradable ([S,S]-EDDS) and nondegradable (EDTA) chelate and hydrogel modified soil water sorption capacity on Pb phytoextraction and leaching. Plant Soil 253(2): 403-411.
- Makowska M., Borows ki E., 2004. The influence of the addition of Ekosorb to black soil and sandy soil on the content of water in soil, frost injury of flowers and on fruiting of strawberry. Folia Hort. 16(1): 87-93.
- Martin J.P., 1950. Use of acid rose bengale and streptomycin in the plate method for estimating soil fungi. Soil Sci. 6: 215-233.
- Michalski P., Wieniarska J., 2003. Wpływ dokarmiania dolistnego na zawartość składników mineralnych w liściach truskawki. Act. Agrophys. 85: 209-217.
- Mikiciuk G., Mikiciuk M., 2010a. Effect of polymer supersorbent added to medium on the content of mineral elements in strawberry leaves and fruit. J. Elem. 15(2): 313-319.
- Mikiciuk G., Mikiciuk M., 2010b. Evaluation of the direct and subsequent influence of a supersorbent polymer on cropping and rate of gas exchange of strawberry (Fragaria ananassa Duch,) ‘Elsanta’. J. Fruit Ornam. Plant Res. 18(2): 93-108.
- Mikkelsen R.L., 1994. Using hydrophilic polymers to control nutrient release. Fert. Res. 38: 53-59.
- Myśków W., 1981. Próby wykorzystania wskaźników aktywności mikrobiologicznej do oceny żyzności gleby. Post. Mikrobiol. XX(3-4): 173-192.
- Nowak A., Hawrot M., 1998. Ocena liczebności mikroorganizmów w glebach skażonych związkami ropopochodnymi przy zastosowaniu analizatora typu BacTrac 4100. Ekologiczne aspekty mikrobiologii gleby. Rocz. AR w Poznaniu CCLXIX: 223-231.
- Paluszek J., Żemb rows ki W., 2008. Improvement of water-air properties of eroded soils in a loess landscape after the application of agrohydrogel. Ann. Warsaw Univ. of Life Sci. - SGGW. Land Reclam. 39: 85-93.
- Šarapatka B., Rak L., Bubenikova I., 2004. Effects of hydroabsorbent used on extremely sandy soils on soil biological and biochemical characteristics. Eurosoil 2004, Freiburg, Germany.
- Sita R.C.M., Reissm ann C.B., Marques R., de Oliveira E., Taff arel A.D., 2005. Effect of polymers associated with N and K fertilizer sources on Dendrathema grandiflorum growth and K, Ca and Mg relations. Braz. Arch. Biol. Techn. 48(3): 335-342.
- Sojka R.E., Bjorneberg D.L., Entry J.A., Lentzl R.D., Orts W.J., 2007. Polyacrylamide in agriculture and environmental land management. Adv. Agron. 92: 75-162.
- Sojka R.E., Entry J.A., Fuhrmann J.J., 2006. The influence of high application rates of polyacrylamide on microbial metabolic potential in an agricultural soil. Appl. Soil. Ecol. 32: 243-252.
- Whiteley A.S., Griff iths R.I., Bailey M.J., 2003. Analysis of the microbial functional diversity within water-stressed soil communities by flow cytometric analysis and CTC+ cell sorting. J. Microbiol. Meth. 54(2): 257-267.
- Wierzbicka B., Majkows ka-Gadoms ka J., 2005. Wpływ akryżelu sodowego na zawartość niektórych składników organicznych i mineralnych mineralnych wybranych odmianach sałaty głowiastej masłowej i kruchej (Lactuca sativa L. var. capitata L.). J. Elem. 10(1): 193-199.