Nutrient Dynamics and Eutrophication Patterns in a Semi-Arid Wetland: The Effects of Fluctuating Hydrology (original) (raw)
References
Álvarez-Cobelas, M. and Cirujano, S.: 1996a, ‘Las Tablas de Daimiel. Ensayo de Síntesis’, in M. Álvarez-Cobelas and S. Cirujano (eds.), Las Tablas de Daimiel, Ecología acuática y Sociedad, Spanish Ministry of Environment, Madrid, Spain, pp. 267–277. Google Scholar
Álvarez-Cobelas, M. and Cirujano, S. (eds.): 1996b, Las Tablas de Daimiel, Ecología acuática y Sociedad. Spanish Ministry of Environment, Madrid, Spain, 371 pp. Google Scholar
APHA: 1989, Standard Methods for the Examination of Water and Wastewaters, Washington, DC, U.S.A.
Angeler, D. G., Álvarez-Cobelas, M., Rojo, C. and Sánchez-Carrillo, S.: 2000, ‘The significance of water inputs and trophic relationships to plankton biomass in a semiarid freshwater wetland (Central Spain)’, Journal of Plankton Research22 (in press).
AraÚzo, M. and Vicioso, J.: 1996, ‘Nutrientes, Eutrofización y Contaminación’, in M. Álvarez-Cobelas and S. Cirujano (eds.), Las Tablas de Daimiel, Ecología acuática y Sociedad, Spanish Ministry of Environment, Madrid, Spain, pp. 91–103. Google Scholar
Bachmann, R. W. and Canfield, D. E.: 1996, ‘Use of an alternative method for monitoring total nitrogen concentrations in Florida lakes’, Hydrobiologia323, 1–8. Google Scholar
Bloesch, J.: 1996, ‘Towards a new generation of sediment traps and a better measurement/ understanding of settling particle flux in lakes and oceans: A hydrodynamical protocol’, Aquatic Sciences58, 283–296. Google Scholar
Davis, S. M.: 1991, ‘Growth, decomposition, and nutrient retention of Cladium jamaicense Crantz and Typha domingensis Pers. in the Florida Everglades’, Aquatic Botany40, 203–224. Google Scholar
Dillon, P. J. and Rigler, F. H.: 1974, ‘The phosphorus-chlorophyll relationship in lakes’, Limnology and Oceanography19, 767–773. Google Scholar
Dykyjoá, D.: 1978, ‘Nutrient Uptake by Littoral Communities of Helophytes’, in D. Dykyjová and J. Kvet (eds.), Pond Littoral Ecosystems, Springer Verlag, Berlin, Germany, pp. 257–277. Google Scholar
Ekholm, P., Malve, O. and Kirkkala, T.: 1997, ‘Internal and external loading as regulators of nutrient concentrations in the agriculturally loaded Lake Pyhäjärvi (southwest Finland)’, Hydrobiologia345, 3–14. Google Scholar
Golterman, H. L.: 1975, Physiological Limnology, Elsevier, Amsterdam, The Netherlands, 489 pp. Google Scholar
Gunatilaka, A.: 1991, ‘Nutrient cycling in a freshwater reed marsh’, Verhandlungen der Internationalen Vereinigung für Limnologie24, 980–983. Google Scholar
Harper, D.: 1992, Eutrophication of Freshwater: Principles, Problems and Restoration, Chapman and Hall, London, U.K., 321 pp. Google Scholar
Harris, T. T., Williges, K. A. and Zimba, P. V.: 1995, ‘Primary productivity and decomposition of five emergent macrophyte communities in the Lake Okeechobee marsh ecosystem’, Archiv für Hydrobiologie, Ergebnisse der Limnologie45, 63–78. Google Scholar
Hickman, M.: 1980, ‘Phosphorus, chlorophyll and eutrophic lakes’, Archiv für Hydrobiologie88, 137–145. Google Scholar
Howard-Williams, C.: 1985, ‘Cycling and retention of nitrogen and phosphorus in wetlands: A theoretical perspective’, Freshwater Biology15, 391–431. Google Scholar
Johnston, C. A.: 1991, ‘Sediment nutrient retention by freshwater wetlands: Effects on surface water quality’, Critical Reviews in Environmental Control21, 491–595. Google Scholar
Kadlec, J. A.: 1986, ‘Input-output nutrient budgets for small diked marshes’, Canadian Journal of Fisheries and Aquatic Sciences43, 2009–2016. Google Scholar
Kadlec, R. H. and Knight, R. L.: 1996, Treatment Wetlands, CRC Press, New York, U.S.A., 893 pp. Google Scholar
Knuuttila, S., Pietiläinen, O.-P. and Kauppi, L.: 1994, ‘Nutrient balances and phytoplankton dynamics in two agriculturally loaded shallow lakes’, Hydrobiologia275/276, 359–369. Google Scholar
Landers, D. H.: 1982, ‘Effects of naturally senescing aquatic macrophytes on nutrient chemistry and chlorophyll a of surrounding waters’, Limnology and Oceanography27, 428–439. Google Scholar
Manny, B. A., Johnson, W. C. and Wetzel, R. G.: 1994, ‘Nutrient additions by waterfowl to lakes and reservoirs: predicting their effects on productivity and water quality’, Hydrobiologia279/280, 121–132. Google Scholar
Marion, L. and Brient, L.: 1998, ‘Wetland effects on water quality: input-output studies of suspended particulate matter, nitrogen (N) and phosphorus (P) in Grand-Lieu, a natural plain lake’, Hydrobiologia373/374, 217–235. Google Scholar
Marker, A. F. H., Nusch, E. A., Rai, H. and Rieman, B.: 1980, ‘The measurement of photosynthetic pigments in freshwater and standardisation of methods: conclusions and recommendations’, Archiv für Hydrobiologie, Ergebnisse der Limnologie14, 91–106. Google Scholar
Mitsch, W. J. and Reeder, B. C.: 1991, ‘Modelling nutrient retention of a freshwater coastal wetland: Estimating the roles of primary productivity, sedimentation, resuspension and hydrology’, Ecological Modelling54, 151–187. Google Scholar
Mitsch, W. J. and Gosselink, J. G. (eds.): 1993, Wetlands, Van Nostrand Reinhold, 2nd ed., New York, U.S.A., 722 pp.
Moustafa, M. Z., Fontaine, T. D., Guardo, M. and James, R. T.: 1998, ‘The response of a freshwater wetland to long-term ‘low-level’ nutrient loads: Nutrients and water budget’, Hydrobiologia364, 41–53. Google Scholar
OECD: 1982, ‘Eutrophication of Waters: Monitoring, Assessment and Control’, Organization of Economic Cooperation and Development, Paris, France, 164 pp. Google Scholar
Phillips, J. D.: 1996, ‘Wetland Buffers and Runoff Hydrology’, in G. Mulamoottil, B. G. Warner and E. A. McBean (eds.), Wetlands: Environmental Gradients, Boundaries, and Buffers, CRC Press, New York, U.S.A., pp. 207–220. Google Scholar
Phlips, E. J., Aldridge, F. J. and Hanlon, C.: 1995b, ‘Potential limiting factors for phytoplankton biomass in a shallow subtropical lake (Lake Okeechobee, Florida, U.S.A.)’, Archiv für Hydrobiologie, Ergebnisse der Limnologie45, 137–155. Google Scholar
Polunin, N. V. C.: 1982, ‘Processes contributing to the decay of reed (Phragmites australis) litter in fresh water’, Archiv für Hydrobiologie94, 182–209. Google Scholar
Quintana, X. D., Comín, F. A. and Moreno-Amich, R.: 1998, ‘Nutrient and plankton dynamics in a Mediterranean salt marsh dominated by incidents of flooding. Part 2: Response of a zooplanktoon comunity to disturbances’, Journal of Plankton Research20, 2109–2127. Google Scholar
Reddy, K. R., DeLaune, R. D., DeBusk, W. F. and Koch, M. S.: 1993, ‘Long-term nutrient accumulation rates in the Everglades’, Soil Science Society of American Journal57, 1147–1155. Google Scholar
Reynolds, C. S.: 1992, ‘Eutrophication and the Management of Plankton Algae: What Vollenweider Couldn't Tell Us’, in D. W. Sutcliffe and J. G. Jones (eds.), Eutrophication: Research and Application to Water Supply, Freshwater Biological Association, Ambleside, U.K., pp. 4–29. Google Scholar
Sánchez-Carrillo, S., Álvarez-Cobelas, M., Cirujano, S., Riolobos, P., Moreno-Pérez, M. and Rojo, C.: 2000a, ‘Rainfall driven changes in the biomass of a semi-arid wetland’, Verhandlungen der Internationalen Vereinigung für Limnologie27 (in press).
Sánchez-Carrillo, S., Álvarez-Cobelas, M. and Angeler, D.: 2000b, ‘Hydrological dynamics of a semi-arid wetland: A water balance and energy budget study’, Journal of Hydrology (in press).
Scheffer, M.: 1998, Ecology of Shallow Lakes, Chapman and Hall, London, England, 357 pp. Google Scholar
Schoenberg, S. A. and Oliver, J. D.: 1988, ‘Temporal dynamics and spatial variation of algae in relation to hydrology and sediment characteristics in the Okefenokee Swamp, Georgia’, Hydrobiologia162, 123–133. Google Scholar
Seip, K. L. and Ibrekk, H.: 1988, ‘Regression equations for lake management-how far do they go?’, Verhandlungen der Internationalen Vereinigung für Limnologie23, 778–785. Google Scholar
Statsoft Inc.: 1995, STATISTICA v5 for Windows. Tulsa. U.S.A.
Tan, L. W. and Shiel, R. J.: 1993, ‘Responses of rotifer communities to inundation’, Hydrobiologia225/226, 361–369. Google Scholar
Wetzel, R. G.: 1990, ‘Land-water interfaces: Metabolic and limnological regulators’, Verhandlungen der Internationalen Vereinigung für Limnologie24, 6–24. Google Scholar