Zawartość wybranych metali ciężkich w makrofitach oczyszczalni hydrofitowej

• Autorzy: Wojciechowska E. , Obarska-Pempkowiak H.
• Języki publikacji: PL

Słowa kluczowe

PL

oczyszczalnia hydrofitowa; makrofity; zawartość metali ciężkich

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Gaz, Woda i Technika Sanitarna
• Rocznik: 2008
• Tom: Nr 9
• Strony: 49--53
• Opis fizyczny: Bibliogr. 13 poz.

Twórcy

autor

Wojciechowska E.

autor

Obarska-Pempkowiak H.

• Wydział Inżynierii Lądowej i Środowiska, Politechnika Gdańska, 80-952 Gdańsk, ul. Narutowicza 11/12, tel. 058-347-23-19,

Bibliografia

• [1] Crites R. W., Dombeck G. D., Watson R. C., Williams C. R.: (1997). Removal of metals and ammonia in constructed wetlands. Water Environment Research, 69 (2) 132-135.
• [2] Dunbabin J., Bowmer K. H.: (1992). Potential use of constructed wetlands for treatment of industrial wastewater containing metals. The Science of the Total Environment, 3, 151-168.
• [3] Gersberg R. M, Es B. V., Lyon S. R.: (1986). Role of aquatic plants in wastewater treatment by artificial wetlands. Water Research, 20(3) 363-368.
• [4] Gries C., Garbe D.: (1989). Biomass and nitrogen, phosphorus and heavy metal content of Phragmites australis during the third growing season in a root zone wastewater treatment. Archiv f. Hydrobiologie. Stuttgart 1989, 117 (1) 97-105.
• [5] Karathanasis A. D., Johnson C. M.: (2004). Metal removal potential by three aquatic plants in an acid mine drainage wetland. Mine Water and the Environment 22: 22-30.
• [6] Kufel L, Kufel L.: (1985). Heavy metals and eral nutrient budget in Phragmites australis and Typha angustifolia. Symp. Biol. Hungar. 1985, Vol. 29, 61-66.
• [7] Obarska-Pempkowiak H.: (2003). Removal and retention of selected heavy metals in components of a hybrid wetland system. In: Mander U. and Jenssen P. (Eds): Constructed wetlands for wastewater treatment in cold climates. WIT Press Southampton, Boston, 300-309.
• [8] Obarska-Pempkowiak H., Ozimek T.: (2003). Comparison of usefulness of three emerged macrophytes for surface water protection against pollution and eutrophication: case study, Bielkowo, Poland. In: Vymazal J. (Ed.): Wetlands - nutrients, metals and mass cycling. Backhuys Publishers, Leiden, 215-226.
• [9] Ozimek T.: (1988). Rola makrofitów wynurzonych w obiegu metali ciężkich w ekosystemach wodnych. Wiadomości Ekologiczne, 35 (1), 30-44.
• [10] Peverly J. H., Surface J. M., Wang T.: (1995). Growth and trace metals absorption by Phragmites australis in wetlands constructed for landfill leachate treatment. Ecological engineering 5 (1995), 21-35.
• [11] Vymazal J.: (2003). Distribution of iron, cadmium, nickel and lead in a constructed wetland receiving municipal sewage. In: Vymazal J. (Ed.): Wetlands - nutrients, metals and mass cycling. Backhuys Publishers, Leiden, 341-363.
• [12] Weis J.S., Glover T., Weis R: (2004). Interactions of metals affect their distribution in tissues of Phragmites australis. Environmental Pollution 131, 409-415.
• [13] Weis S. J., Weis R: (2004). Metal uptake, transport and release by wetland plants: implications for phytoremediation and restoration. Environmental International 30: 685-700.