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Abstrakty
Driven by the booming demands for healthy food, aquaculture industry has to deal with the problem of water pollution appropriately so as to achieve sustainable development. In this study, a combination of four stage CWs (three horizontal subsurface flows followed by one free water surface flow) was configured to treat low-strength aquaculture wastewater. For performance assessment, the wetlands were monitored over three years, during which artificial aeration was added to them. By the results, the organic matters and nutrients were mainly sequestered in the anterior subsurface flows, while the surface flow mainly contributed to DO improvement. These results probably implied no necessity of excessive subsurface flows connected in a staged manner. In addition, the artificial aeration improved the treatment performance on ammonium-N, TN and TP in the first-stage CW.
Czasopismo
Rocznik
Tom
Strony
31--42
Opis fizyczny
Bibliogr. 20 poz., tab., rys.
Twórcy
autor
- Key Laboratory of Freshwater Biodiversity Conservation, Ministry of Agriculture of China, Yangtze River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Wuhan 430223, PR China
- Freshwater Fisheries Research Center of Chinese Academy of Fishery Sciences, Wuxi 214081, PR China
autor
- Key Laboratory of Freshwater Biodiversity Conservation, Ministry of Agriculture of China, Yangtze River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Wuhan 430223, PR China
autor
- Key Laboratory of Freshwater Biodiversity Conservation, Ministry of Agriculture of China, Yangtze River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Wuhan 430223, PR China
autor
- Key Laboratory of Freshwater Biodiversity Conservation, Ministry of Agriculture of China, Yangtze River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Wuhan 430223, PR China
Bibliografia
- [1] FAO, The State of World Fisheries and Aquaculture. Part 1. World Review of Fisheries and Aquaculture, 2008, <http://www.fao.org/docrep/011/i0250e/i0250e00.htm>.
- [2] KADLEC R.H., KNIGHT R.L., Treatment Wetlands, CRC Lewis Publishers, Boca Raton, FL, 1996.
- [3] ZACHRITZ I.H., HANSON A.T., SAUCEDA J.A., FITZSIMMONS K.M., Evaluation of submerged surface low (SSF) constructed wetlands for recirculating tilapia production systems, Aquacult. Eng., 2008, 39 (1), 16.
- [4] KONNERUP D., TRANG N.T.D., BRIX H., Treatment of fishpond water by recirculating horizontal and vertical flow constructed wetlands in the tropics, Aquaculture, 2011, 313 (1–4), 57.
- [5] ZHANG S.Y., LI G., WU H.B., LIU X.G., YAO Y.H., TAO L., LIU H., An integrated recirculating aquaculture system (RAS) for land-based fish farming: The effects on water quality and fish production, Aquacult. Eng., 2011, 45 (3), 93.
- [6] SUN G.Z., ZHAO Y.Q., ALLEN S., Enhanced removal of organic matter and ammonia–nitrogen in a column experiment of tidal flow constructed wetland system, J. Biotechnol., 2005, 115 (2), 189.
- [7] VYMAZAL J., Removal of nutrients in various types of constructed wetlands, Sci. Total Environ., 2007, 380 (1–3), 48.
- [8] DAVIDSON J., HELWIG N., SUMMERFELT S.T., Fluidized sand biofilters used to remove ammonia, biochemical oxygen demand, total coliform bacteria, and suspended solids from an intensive aquaculture effluent, Aquacult. Eng., 2008, 39 (1), 6.
- [9] VYMAZAL J., Horizontal sub-surface flow and hybrid constructed wetlands systems for wastewater treatment, Ecol. Eng., 2005, 25 (5), 478.
- [10] GREEN M., FRIEDLER E., RUSKOL Y., SAFRAI I., Investigation of alternative method for nitrification in constructed wetlands, Water Sci. Technol., 1997, 35 (5), 63.
- [11] OUELLET-PLAMONDON C., CHAZARENC F., COMEAU Y., BRISSON J., Artificial aeration to increase pollutant removal efficiency of constructed wetlands in cold climate, Ecol. Eng., 2006, 27 (3), 258.
- [12] TAO M., HE F., XU D., LI M., WU Z.B., How artificial aeration improved sewage treatment of an integrated vertical-flow constructed wetland, Polish J. Environ. Stud., 2010, 19 (1), 183.
- [13] SEPA, State Environmental Protection Administration of China, Monitor and Analysis Method of Water and Wastewater, China Environmental Science Press, Beijing 2002 (in Chinese).
- [14] MANSOURI H., Multifactor analysis of variance based on the aligned rank transform technique, Comput. Stat. Data Ann., 1998, 29 (2), 177.
- [15] DONG Z., SUN T., A potential new process for improving nitrogen removal in constructed wetlands. Promoting coexistence of partial-nitrification and ANAMMOX, Ecol. Eng., 2007, 31 (2), 69.
- [16] TAO W., WANG J., Effects of vegetation, limestone and aeration on nitritation, anammox and denitrification in wetland treatment systems, Ecol. Eng., 2009, 35 (5), 836.
- [17] RAY A.J., LEWIS B.L., BROWDY C.L., LEFFLER J.W., Suspended solids removal to improve shrimp (Litopenaeusvannamei) production and an evaluation of a plant-based feed in minimal-exchange, superintensive culture systems, Aquaculture, 2010, 299 (1–4), 89.
- [18] TEICHERT-CODDINGTON D.R., ROUSE D.B., POTTS A., BOYD C.E., Treatment of harvest discharge from intensive shrimp ponds by settling, Aquacult. Eng., 1999, 19 (3), 147.
- [19] WANG H., HE X.W., LIU T.Q., ZHANG C.H., Analysis on the adsorptive characteristics for ammonia nitrogen and phosphorus of different substrates in constructed wetlands, Fresen. Environ. Bull., 2011, 20 (11), 2890.
- [20] FAULKNER S.P., RICHARDSON C.J., Physical and chemical characteristics of freshwater wetland soils, [in:] D.A. Hammer (Ed.), Constructed Wetlands for Wastewater Treatment: Municipal, Industrial and Agricultural, Lewis Publishers, Chelsea, MI, 1989, 41.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e0a701ba-41df-4a9e-a109-a510e2a12010