N-(2-Pirydylamino) Methylenebisphosphonic Acid as a Sole Source of a Fungi Fusarium Strains Growing

• Autorzy: Krzysko-Lupicka T. , Sudol A.

Identyfikatory

DOI

10.12911/22998993/63888

• Języki publikacji: EN

Abstrakty

EN

The active substance of new herbicide generation is N-(2-pirydyloamino) methylenobisphosphonic acid. Two strains Fusarium culmorum CB3 and Fusarium oxysporum XVI, isolated from soil treated with examined substance, were chosen to investigation of using it as a sole source of phosphorus, nitrogen or carbon in the concentrations at 1.0 mM. Interactions between the dominating strains of fungi and N-(2-pirydyloamino) methylenobisphosphonic acid, mycelium growth rate, the spore germinate index, the level chemical changes of N-(2-pirydyloamino) methylenobisphosphonic acid and pH were investigated after cultivation in mineral medium and its modifications. The results of growth kinetics of the studied Fusarium fungi in the presence of N-(2-pirydyloamino) methylenobisphosphonic acid, were expressed by dry weight [g·dm-3]. Only Fusarium oxysporum XVI has been capable to grow in acidic medium (pH 4.0) using N-(2-pirydylamino) methylene-bisphosphonic acid as an alternative source of phosphorus. In these conditions the N-(2-pirydylamino) methylenebisphosphonic acid degradation was carried out to utilize phosphorus compounds as a source of nutrient components for this strain. The presence of N-(2-pirydylamino) methylenebisphosphonic acid receded a growth rate of mycelium but did not have an effect on spores of the tested fungi.

Słowa kluczowe

EN

fungi; biodegradation; N-(2-pirydylamino) methylenebisphosphonic acid; herbicide

• Wydawca: Polskie Towarzystwo Inżynierii Ekologicznej ; Lublin University of Technology
• Czasopismo: Journal of Ecological Engineering
• Rocznik: 2016
• Tom: Vol. 17, nr 4
• Strony: 107--111
• Opis fizyczny: Bibliogr. 13 poz., tab., rys.

Twórcy

autor

Krzysko-Lupicka T.

• Independent Department of Biotechnology and Molecular Biology, Faculty of Natural Sciences and Technology, University of Opole, Poland

autor

Sudol A.

• Department of Technology, Faculty of Natural Sciences and Technology, University of Opole, Poland

Bibliografia

• 1. Bujacz B, Wieczorek P, Krzysko-Lupicka T, Lejczak B, Kafarski P. 1995. Organophosphonate utilization by the wild-type strains of Penicillium notatum. Appl. Environ. Microbiol. 61, 2905–2910.
• 2. Forlani G, Kafarski P, Lejczak B. 1997. Mode of action of herbicidal derivatives of minomethylenebisphosfonic acid. Part II. Reversal of herbicidal action by aromatic amino acids, J. Growth Regul. 16, 147–152.
• 3. Kafarski P, Lejczak B, Forlani G, Gancarz R, Torreilles C, Grembecka J, Ryczek A, Wieczorek P. 1997. Mode of action of herbicidal derivatives of aminomethylenobisphosphonic acids. III. Structure- activity relationship, J. Plant Growth Regul. 16, 153–158.
• 4. Krzysko-Lupicka T, Orlik A. 1997. The use of glyphosate as the sole source of phosphorus or carbon for the selection of soil borne fungal strains capable to degrade this herbicide. Chemosphere, 34(12), 2601–2605.
• 5. Krzysko-Lupicka T, Strof W, Kubs K, Skorupa M, Wieczorek P, Lejczak B, Kafarski P. 1997a. The ability of soil fungi to degrade organophosphonate carbon-to phosphorus bond. Appl. Microbiol. Biotechnol. 48, 549–552.
• 6. Krzysko-Lupicka T, Gajda A, Dzygiel P. 1999. Activity of soil-borne fungal strains Aspergillus niger van. Tieghem to degrade (N-piradymilo) methylenobisphosphonic acid. Abstract 51st International Symp. on Crop Protection. 4 may, Gent, Belgium, 182.
• 7. Krzysko-Lupicka T, Slupczynska M, Kinal S. 2002. The ability of selected strains Cylindrocarpon species to growth in presence of N-(2-pirydyloamino) methylenobisphosphonic acid served as sole source of carbon or nitrogen or phosphorus or nitrogen and phosphorus. (in) Chemical products in agriculture and environment (ed. Gorecki H, Dobrzanski Z., Kafarski P.). CZECH-POL TRADE, Prague, Brussels, Stockholm, 297–299.
• 8. Krzysko-Lupicka T, Slupczynska M, Kinal S. 2002a. The kinetic of growth soil-borne fungi from Cylindrocarpon species in presence of N-(2-pirydyloamino) methylenobisphosphonic acid. (in) Chemical products in agriculture and environment (ed. Gorecki H, Dobrzanski Z., Kafarski P.). CZECH-POL TRADE, Prague, Brussels, Stockholm, 300–302.
• 9. Krzysko-Lupicka T. 2005. The effect of N- (2pirydyloamino) methylenobisphosphonic acid on activity of soil microorganisms. (in) Chemistry for Agriculture, Vol. 6, Development in production and use of new agrochemicals, (ed. Gorecki H, Dobrzanski Z., Kafarski P.), CZECH-POL TRADE, Prague, Brussels, Stockholm, 863–868.
• 10. Krzysko-Lupicka T, Sudol T. 2008. Interactions between glyphosate and autochthonous fungi surviving in aqueous solution of glyphosate. Chemosphere, 71, 1386–1391.
• 11. Lejczak B, Boduszek B, Kafarski P, Forlani G, Wojtasek H, Wieczorek P. 1996. Mode of action of herbicidal derivatives of aminomethylenobisphosphonic acids. I. Physiologic activity and inhibition of anthocyanin biosynthesis, J. Plant Growth Regul., 15, 109–113.
• 12. Shushkova T., Ermakova I., Leontievsky A., 2010, Glyphosate bioavailability in soil. Biodegradation 21, 403–410.
• 13. Tejada M., 2009, Evolution of soil biological properties after addition of glyphosate, diflufenican and glyphosate+diflufenican herbicides. Chemosphere 76(3), 365–373.

Uwagi

PL

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.