- -

Influence of operational parameters on nutrient removal from eutrophic water in a constructed wetland

RiuNet: Repositorio Institucional de la Universidad Politécnica de Valencia

Compartir/Enviar a

Citas

Estadísticas

  • Estadisticas de Uso

Influence of operational parameters on nutrient removal from eutrophic water in a constructed wetland

Mostrar el registro completo del ítem

Oliver Rajadel, N.; Martín Monerris, M.; Gargallo Bellés, S.; Hernández Crespo, C. (2016). Influence of operational parameters on nutrient removal from eutrophic water in a constructed wetland. Hydrobiologia. 792(1):105-120. https://doi.org/10.1007/s10750-016-3048-4

Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10251/98269

Ficheros en el ítem

[Cerrado]
Nombre: Oliver et al 2017 ...
Tamaño: 897.4Kb
Formato: PDF
Descripción: Versión editorial
Solicitar una copia al autor

Metadatos del ítem

Título: Influence of operational parameters on nutrient removal from eutrophic water in a constructed wetland
Autor: Oliver Rajadel, Nuria Martín Monerris, Miguel Gargallo Bellés, Sara Hernández Crespo, Carmen
Entidad UPV: Universitat Politècnica de València. Instituto Universitario de Ingeniería del Agua y del Medio Ambiente - Institut Universitari d'Enginyeria de l'Aigua i Medi Ambient
Universitat Politècnica de València. Departamento de Ingeniería Hidráulica y Medio Ambiente - Departament d'Enginyeria Hidràulica i Medi Ambient
Fecha difusión:
Resumen:
[EN] The present study offers several management strategies in order to improve the performance of a free water surface constructed wetland that treats mainly eutrophic water and which is also designed to improve and ...[+]
Palabras clave: Constructed wetland , Eutrophication , Hydraulic and nutrient loading , Nutrient removal , Albufera de Valencia
Derechos de uso: Cerrado
Fuente:
Hydrobiologia. (issn: 0018-8158 )
DOI: 10.1007/s10750-016-3048-4
Editorial:
Springer-Verlag
Versión del editor: https://doi.org/10.1007/s10750-016-3048-4
Código del Proyecto:
info:eu-repo/grantAgreement/TRAGSA//198917/
Agradecimientos:
Nu´ria Oliver acknowledges the scholarship provided by the Generalitat Valenciana, Spain (VALi ? D PhD Program). The authors are also grateful to the Confederacio´n Hidrogra´fica del Jucar (CHJ, MMARM) for the financial ...[+]
Tipo: Artículo

References

APHA, 1991. Standard Methods for the Examination of Water and Wastewater, 17th ed. American Publish Health Association, Washington DC.

Brix, H., 1997. Do macrophytes play a role in constructed treatment wetlands? Water Science and Technology 35(5): 11–17.

CHJ, 2012. (Ed.). Memoria de investigación del Tancat de la Pipa. Technical report for the Spanish Water Authorities. [+]
APHA, 1991. Standard Methods for the Examination of Water and Wastewater, 17th ed. American Publish Health Association, Washington DC.

Brix, H., 1997. Do macrophytes play a role in constructed treatment wetlands? Water Science and Technology 35(5): 11–17.

CHJ, 2012. (Ed.). Memoria de investigación del Tancat de la Pipa. Technical report for the Spanish Water Authorities.

Comín, F. A., J. A. Romero, O. Hernández & M. Menéndez, 2001. Restoration of wetlands from abandoned rice fields for nutrient removal, and biological community and landscape diversity. Restoration Ecology 9(2): 201–208.

Cooke, G. D., E. B. Welch, S. A. Peterson & P. R. Newroth, 1993. Restoration and Management of Lakes and Reservoirs, 2nd ed. Lewis Publishers, Boca Raton, FL.

Coveney, M. F., D. L. Stites, E. F. Lowe, L. E. Battoe & R. Conrow, 2002. Nutrient removal from eutrophic lake water by wetland filtration. Ecological Engineering 19: 141–159.

Dunne, E. J., M. F. Coveney, E. R. Marzolf, V. R. Hoge, R. Conrow & R. Naleway, 2012. Efficacy of a large-scale constructed wetland to remove phosphorus and suspended solids from lake Apopka, Florida. Ecological Engineering 42: 90–100.

Dunne, E. J., M. F. Coveney, E. R. Marzolf, V. R. Hoge, R. Conrow, R. Naleway, E. F. Lowe, L. E. Battoe & P. W. Inglett, 2013. Nitrogen dynamics of a large-scale constructed wetland used to remove excess nitrogen from eutrophic lake water. Ecological Engineering 61: 224–234.

Dunne, E. J., M. F. Coveney, V. R. Hoge, R. Conrow, R. Naleway, E. F. Lowe, L. E. Battoe & Y. Wang, 2015. Phosphorus removal performance of a large-scale constructed treatment wetland receiving eutrophic lake water. Ecological Engineering 79: 132–142.

Fleming-Singer, M. S. & A. J. Horne, 2006. Balancing wildlife needs and nitrate removal in constructed wetlands: the case of the Irvine Ranch Water District’s San Joaquin Wildlife Sanctuary. Ecological Engineering 26: 147–166.

García, J., B. F. Green, T. Lundquist, R. Mujeriego, M. Hernández-Mariné & W. J. Oswald, 2006. Long term diurnal variations in contaminant removal in high rate ponds treating urban wastewater. Bioresource Technology 97: 1709–1715.

Gersberg, R. J., B. V. Elking, S. R. Lyong & C. R. Goldman, 1986. Role of aquatic plants in wastewater treatment by artificial wetlands. Water Research 20: 363–367.

Hernández-Crespo, C., N. Oliver, J. Bixquert, S. Gargallo & M. Martín, 2016. Comparison of three plants in a surface flow constructed wetland treating eutrophic water in a Mediterranean climate. Hydrobiologia 774: 183–192.

Hey, D. L., A. L. Kenimer & K. R. Barret, 1994. Water quality improvement by four experimental wetlands. Ecological Engineering 3: 381–397.

Jeppesen, E., M. Søndergaard, J. P. Jensen, K. Havens, O. Anneville, L. Carvalho, M. F. Coveney, R. Deneke, M. T. Dokulil, B. Foy, D. Gerdeaux, S. E. Hampton, S. Hilt, K. Kangur, J. Kohler, E. Lammens, T. L. Lauridsen, M. Manca, R. Miracle, B. Moss, P. Noges, G. Persson, G. Phillips, R. Portielje, S. Romo, C. L. Schelske, D. Straile, I. Tatrai, E. Willén & M. Winder, 2005. Lake responses to reduced nutrient loading – an analysis of contemporary long-term data from 35 case studies. Freshwater Biology 50: 1747–1771.

Jiang, C., X. Fan, G. Cui & Y. Zhang, 2007. Removal of agricultural non-point source pollutants by ditch wetlands: implications for lake eutrophication control. Hydrobiologia 581: 319–327.

Jing, S. R. & Y. F. Lin, 2004. Seasonal effect on ammonia nitrogen removal by constructed wetlands treating polluted river water in southern Taiwan. Environmental Pollution 127: 291–301.

Kadlec, R. H., 1999. The limits of phosphorus removal in wetlands. Wetlands Ecology and Management 7: 165–175.

Kadlec, R. H., 2006. Free surface wetlands for phosphorus removal: the position of the Everglades Nutrient Removal Project. Ecological Engineering 27: 361–379.

Kadlec, R. H. & R. L. Knight, 1996. Treatment Wetlands. CRC/Lewis Publishers, Boca Raton FL: 893.

Kadlec, R. H. & K. R. Reddy, 2001. Temperature effects in treatment wetlands. Water Environment Research 73: 543–557.

Kadlec, R. H. & S. D. Wallace, 2009. Treatment Wetlands, 2nd ed. CRC Press, Boca Raton, FL.

Kadlec, R. H., S. B. Roy, R. K. Munson, S. Charlton & W. Brownlie, 2010. Water quality performance of treatment wetlands in the Imperial Valley, California. Ecological Engineering 36: 1093–1107.

Kadlec, R. H., J. S. Bays, L. E. Mokry, S. Andrews & M. R. Ernst, 2011. Performance analysis of the Richland-Chambers treatment wetlands. Ecological Engineering 37: 176–190.

Li, L., Y. Li, D. K. Biswas, Y. Nian & G. Jiang, 2008. Potential of constructed wetlands in treating the eutrophic water: evidence from Taihu Lake of China. Bioresource Technology 99: 1656–1663.

Mander, Ü., K. Lõhmus, S. Teiter, T. Mauring, K. Nurk & J. Augustin, 2008. Gaseous fluxes in the nitrogen and carbon budgets of subsurface flow constructed wetlands. Science of the Total Environment 404(2): 343–353.

Martín, M., N. Oliver, C. Hernández-Crespo, S. Gargallo & M. C. Regidor, 2013. The use of free water surface constructed wetland to treat the eutrophicated waters of lake L’Albufera de Valencia (Spain). Ecological Engineering 50: 52–61.

Mitsch, W. J. & J. G. Gosselink, 2000. Wetlands, 3rd ed. Wiley, New York.

Mitsch, W. J., B. Bernal, A. M. Nahlik, Ü. Mander, L. Zhang, C. J. Anderson, S. E. Jørgensen & H. Brix, 2013. Wetlands, carbon, and climate change. Landscape Ecology 28(4): 583–597.

Moustafa, M. Z., T. D. Fontaine, M. Guardo & R. T. James, 1998. The response of a freshwater wetland to long-term ‘low level’ nutrients loads: nutrients and water budget. Hydrobiologia 264: 41–53.

Nairn, R. W. & W. M. Mitsch, 2000. Phosphorus removal in created wetland ponds receiving river overflow. Ecological Engineering 14: 107–126.

Nichols, D. S., 1983. Capacity of natural wetlands to remove nutrients from wastewater. Water Pollution Control Federation 55(5): 495–505.

Phipps, R. G. & W. G. Crumpton, 1994. Factors affecting nitrogen loss in experimental wetlands with different hydrologic loads. Ecological Engineering 3: 399–408.

Phillips, G., A. Bramwell, J. Pitt, J. Stansfield & M. Perrow, 1999. Practical application of 25 years’ research into the management of shallow lakes. Hydrobiologia 395(396): 61–76.

Picot, B., S. Moersidik, C. Casellas & J. Bontoux, 1993. Using diurnal variations in a high rate algal pond for management pattern. Water Science and Technology 28(10): 209–215.

Pomogyi, P., 1993. Nutrient retention by the Kis-Balaton Water Protection System. Hydrobiologia 251: 309–320.

Reddy, K. R., R. H. Kadlec, E. Flaig & P. M. Gale, 1999. Phosphorus retention in streams and wetlands: a review. Critical Reviews in Environmental Science and Technology 29(1): 83–146.

Reilly, J. F., A. J. Horne & C. D. Miller, 2000. Nitrate removal from a drinking water supply with large free-surface constructed wetlands prior to groundwater recharge. Ecological Engineering 14: 33–47.

Richardson, C. J. & S. S. Quian, 1999. Long-term phosphorus assimilative capacity in freshwater wetlands: a new paradigm for sustaining ecosystem structure and function. Environmental Science and Technology 33(10): 1545–1551.

Rodrigo, M. A., M. Martín, C. Rojo, S. Gargallo, M. Segura & N. Oliver, 2013. The role of eutrophication reduction of two small man-made Mediterranean lagoons in the context of a broader remediation system: effects on water quality and plankton contribution. Ecological Engineering 61: 371–382.

Smith, V. H. & D. W. Schindler, 2009. Eutrophication science: where do we go from here? Trends in Ecology and Evolution 24: 201–207.

Smith, V. H., G. D. Tilman & J. C. Nekola, 1999. Eutrophication: impacts of excess nutrient inputs on freshwater, marine, and terrestrial ecosystems. Environmental Pollution 100: 179–196.

Søndergaard, M., J. P. Jensen & E. Jeppesen, 2003. Role of sediment and internal loading of phosphorus in shallow lakes. Hydrobiologia 506–507: 135–145.

Sollie, S., H. Coops & J. T. A. Verhoeven, 2008. Natural and constructed littoral zones as nutrient traps in eutrophicated shallow lakes. Hydrobiologia 605: 219–233.

Spieles, D. J. & W. J. Mitsch, 2000. The effects of season and hydrologic and chemical loading on nitrate retention in constructed wetlands: a comparison of low- and high-nutrient riverine systems. Ecological Engineering 14: 77–91.

Tang, X., S. Huang, M. Scholz & L. Jinzhong, 2009. Nutrient removal in pilot-scale constructed wetlands treating eutrophic river water: assessment of plants, intermittent artificial aeration and polyhedron hollow polypropylene balls. Water air Soil Pollution 197: 61–73.

Tanner, C. C., J. S. Clayton & M. P. Upsdell, 1995. Effect of loading rate and planting on treatment of dairy farm wastewaters in constructed wetlands – II. Removal of nitrogen and phosphorus. Water Research 29: 27–34.

Vymazal, J., 2007. Removal of nutrients in various types of constructed wetlands. Science of the Total Environment 380: 48–65.

Zamparas, M. & I. Zacharias, 2014. Restoration of eutrophic freshwater by managing internal nutrient loads. A review. Science of the Total Environmental 96: 551–562.

[-]

recommendations

 

Este ítem aparece en la(s) siguiente(s) colección(ones)

Mostrar el registro completo del ítem