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The studies of micromycetes fungi and physicochemical properties were carried out on the soils of buffer zones of a small watercourse in the agricultural landscape of north-eastern Poland. One of the zones was under a tree which was adjacent to the arable soil, the other one was under a turf located near the grassland. It turned out that the character of vegetation and the way the land was used had an influence on the analyzed soil parameters. Soil under trees was characterized by more diversified structures of fungi communities, it also produced more carbon dioxide and nitrous oxide than soil under turf. This allows us to state that tree-lined buffer zones are more effective in preventing surface water pollution by biogenic compounds displaced from agricultural land compared to the buffer zone under the grassing.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
129--136
Opis fizyczny
Bibliogr. 25 poz., rys., tab.
Twórcy
autor
- Department of Agri-Food Engineering and Environmental Management, Faculty of Civil and Environmental Engineering, Białystok University of Technology, ul. Wiejska 45E, 15-351 Białystok, Poland
autor
- Department of Agri-Food Engineering and Environmental Management, Faculty of Civil and Environmental Engineering, Białystok University of Technology, ul. Wiejska 45E, 15-351 Białystok, Poland
Bibliografia
- 1. Barabasz W., Vořišek K. 2002. Biodiversity of microorganisms in the soil environment (in Polish). In: W. Barabasz (ed.). Activity of micro-organisms in different environments. AR Kraków, 23–34.
- 2. Błaszczyk M.K. 2010. Environmental microbiology (in Polish). PWN Warszawa.
- 3. Borin M., Bigon E. 2002. Abatement of NO3-N concentration in agricultural water by narrow buffer strips. Environ. Pollut. 117, 165–168.
- 4. Frączek K. 2010. Microbiocenotic composition of microorganisms participating in the processes of nitrogen metabolism in soil in the vicinity of municipal waste landfills (in Polish). Woda-ŚrodowiskoObszary Wiejskie, 10, 2(30), 61–71.
- 5. Frątczak W., Izydorczyk K., Zalewski M. 2012. Ecotones to reduce area pollution (in Polish). Gospodarka Wodna 3, 1–4.
- 6. Johnson L.F., Mańka K. 1961. A modification of Warcup’s soil-plate method for isolating soil fungi. Soil Sci. 92, 79–84.
- 7. Kalbarczyk J. 2012. Industrial mycology (in Polish). Wyd. Uniwersytetu Przyrodniczego w Lublinie Lublin.
- 8. Kamiński J., Chrzanowski S. 2007. Impact of mowing and grazing use on the physical properties of soils and floristic composition of plant communities on a drained peat bog (in Polish). Woda-Środowisko-Obszary wiejskie, 7, 2b(21), 75–86.
- 9. Kladivko E.J. 2001. Tillage systems and soil ecology. Soil Till. Res., 61, 61–76.
- 10. Kwaśna H. 2014. Agricultural microbiology (in Polish). Wyd. Uniwersytetu Przyrodniczego w Poznaniu Poznań.
- 11. Lam Q.D., Schmalz B., Fohrer N. 2011. The impact of agricultural Best Management Practices on water quality in a North German lowland catchment. Environ Monit Assess 183, 351–379.
- 12. Mańka K. 1964. Attempts to further improve the modified Warcup method to isolate fungi from soil (in Polish). Prace Kom. Nauk Roln. i Kom. Nauk Leśn. PTPN. 17, 29–45.
- 13. Mańka K., Salmanowicz B. 1987. Improvement of some techniques of the modified soil plate method for isolating fungi from soil from the point of view of phytopathological mycology (in Polish). Rocz. Nauk Roln. E (17), 35–46.
- 14. Mocek A. 2015. Soil science (in Polish). PWN Warszawa.
- 15. Wierzbicka M. 2015. Ecotoxicology. Plants, soils, metals (in Polish). Wyd. Uniwersytetu Warszawskiego Warszawa.
- 16. Paul E.A., Clark F.E. 2000. Soil microbiology and biochemistry (in Polish). Wyd. Uniwersytet M. Curie Skłodowska Lublin.
- 17. Pociejowska M., Selwet M. 2012. Activity of soil microorganisms depending on various cultivation systems (in Polish). Wieś Jutra 5 (6), 25–27.
- 18. Sierota Z. 1982. Effect of some mineral salts on the development of Trichoderma viride in vitro (in Polish). Pr. Inst. Bad. Leśn. 612, 1–13.
- 19. Systematics of Polish soils (in Polish). 2019. Wyd. Uniwersytetu Przyrodniczego we Wrocławiu Wrocław-Warszawa.
- 20. Tomczyk A.M., Szyga-Pluta K. 2016. The growing season in Poland in the years 1971–2010 (in Polish). Przegląd Geograficzny 88 (1), 75–86.
- 21. Traczewska T.M. 2011. Biological methods for assessing environmental pollution (in Polish). Oficyna Wydaw. Politechniki Wrocławskiej Wrocław.
- 22. Trojan P., 1981. General ecology (in Polish). Wyd. Nauk. PWN Warszawa.
- 23. Turbiak J., Miatkowski Z. 2010. CO2 emissions from post-bog soils depending on the water conditions of habitats (in Polish). Woda-ŚrodowiskoObszary Wiejskie, 19 (29), Falenty, 201–210.
- 24. Warcup J. H. 1950. The soil plate method for isolation of fungi from soil. Nature. 166, 117–118.
- 25. Zak J.C., Willig M.R. 2004. Fungal biodiversity patterns. In: G.M. Mueller, G.F. Bills, M.S. Foster (ed.). Biodiversity of Fungi. Inventory and Monitoring Methods, Elsevier Academic Press, Amsterdam-Boston-Heidelberg-London-New York-Oxford-Paris-San Diego-San Francisco-Singapore-Sydney-Tokyo, 59–75.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c7f5de17-2646-4e7e-aca9-23ae6a4e709b