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Fate of Heavy Metals in an Urban Natural Wetland: The Nyabugogo Swamp (Rwanda)
2011
Sekomo, Christian B. | Nkuranga, Egide | Rousseau, Diederik P. L. | Lens, P. N. L. (Piet N. L)
The Nyabugogo natural wetland (Kigali City, Rwanda) receives all kinds of untreated wastewaters, including those from industrial areas. This study monitored heavy metal concentrations (Cd, Cr, Cu, Pb, and Zn) in all environmental compartments of the swamp: water and sediment, the dominant plant species Cyperus papyrus, and fish (Clarias sp. and Oreochromis sp.) and Oligochaetes. Cr, Cu, and Zn concentrations in the water were generally below the WHO (2008) drinking water standards, whereas Cd and Pb were consistently above these limits. Except Cd, all metal concentrations were below the threshold levels for irrigation. The highest metal accumulation occurred in the sediment with up to 4.2 mg/kg for Cd, 68 mg/kg for Cu, 58.3 mg/kg for Pb, and 188.0 mg/kg for Zn, followed by accumulation in the roots of C. papyrus with up to 4.2 mg/kg for Cd, 45.8 mg/kg for Cr, 29.7 mg/kg for Cu, and 56.1 mg/kg for Pb. Except Cu and Zn, other heavy metal (Cd, Cr, and Pb) concentrations were high in Clarias sp., Oreochromis sp., and Oligochaetes. Therefore, there is a human health concern for people using water and products from the swamp.
Afficher plus [+] Moins [-]Microbial removal and plant uptake of nitrogen in constructed wetlands: mesocosm tests on influencing factors
2018
Tao, Wendong
Macrophytes and bacteria are key drivers of nitrogen removal in constructed wetlands. Through mesocosm experiments with vegetated submerged beds and free water surface wetlands in various operational modes, wetland configurations, and system layouts, this study developed empirical models for non-destructive estimation of plant biomass growth and associated nitrogen assimilation and explored the combined effects of multiple factors that influence microbial nitrogen removal. The above-ground biomass of individual plants was a power function of plant height for both Cyperus alternifolius and Typha angustifolia. Below- to above-ground biomass ratio was 0.38 for C. alternifolius and 2.73 for T. angustifolia. Because of greater tolerance to ammonia stress, C. alternifolius and C. papyrus grew faster than T. angustifolia. There were no significant effects of wetland type, vegetation, and plant species on microbial nitrogen removal. Microbial nitrogen removal was inhibited by free ammonia at 13.3–16.2 mg N/L. Denitrification and anammox were suppressed at dissolved oxygen greater than 1.9 mg/L. Microbial removal of ammonia in vegetated submerged beds was sensitive mainly to dissolved oxygen, pH, and influent ammonia concentration, while in free water surface wetlands, it was sensitive to influent ammonia concentration, pH, and temperature.
Afficher plus [+] Moins [-]Comparison of carbon balance in Mediterranean pilot constructed wetlands vegetated with different C4 plant species
2015
Barbera, Antonio C. | Borin, Maurizio | Cirelli, Giuseppe L. | Toscano, Attilio | Maucieri, Carmelo
This study investigates carbon dioxide (CO₂) and methane (CH₄) emissions and carbon (C) budgets in a horizontal subsurface flow pilot-plant constructed wetland (CW) with beds vegetated with Cyperus papyrus L., Chrysopogon zizanioides (L.) Roberty, and Mischantus × giganteus Greef et Deu in the Mediterranean basin (Sicily) during the 1st year of plant growing season. At the end of the vegetative season, M. giganteus showed the higher biomass accumulation (7.4 kg m⁻²) followed by C. zizanioides (5.3 kg m⁻²) and C. papyrus (1.8 kg m⁻²). Significantly higher emissions of CO₂were detected in the summer, while CH₄emissions were maximum during spring. Cumulative CO₂emissions by C. papyrus and C. zizanioides during the monitoring period showed similar trends with final values of about 775 and 1,074 g m⁻², respectively, whereas M. giganteus emitted 3,395 g m⁻². Cumulative CH₄bed emission showed different trends for the three C4 plant species in which total gas release during the study period was for C. papyrus 12.0 g m⁻²and ten times higher for M. giganteus, while C. zizanioides bed showed the greatest CH₄cumulative emission with 240.3 g m⁻². The wastewater organic carbon abatement determined different C flux in the atmosphere. Gas fluxes were influenced both by plant species and monitored months with an average C-emitted-to-C-removed ratio for C. zizanioides, C. papyrus, and M. giganteus of 0.3, 0.5, and 0.9, respectively. The growing season C balances were positive for all vegetated beds with the highest C sequestered in the bed with M. giganteus (4.26 kg m⁻²) followed by C. zizanioides (3.78 kg m⁻²) and C. papyrus (1.89 kg m⁻²). To our knowledge, this is the first paper that presents preliminary results on CO₂and CH₄emissions from CWs vegetated with C4 plant species in Mediterranean basin during vegetative growth.
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