Abstract
Water quality data from two different monitoring periods are used to evaluate the trophic state and effectiveness of various protective measures on the restoration of a eutrophic, coastal Mediterranean lagoon. Main protective measures included elimination of municipal/industrial raw wastewater discharges in the rivers outflowing to the lagoon, sediment/erosion control practices in the lagoon’s drainage basin (i.e., construction of sediment/debris dams and grade control structures, reforestation and ban on livestock grazing), and reduction of fertilizer application quantities as a result of changes in crops. Water quality data include, among others, chlorophyll a, dissolved oxygen and nutrient concentrations, various physicochemical parameters, and transparency, measured during two monitoring periods, i.e., before (1983–84) and after (1998–99) implementation of protective measures. Rainfall depth for the two time periods was also available. Empirical equations were developed, from statistical analyses of the data, relating the water quality parameters during the two monitoring periods. These models help identify water quality trends. Based on the analyses, it seems that measures were effective in reducing sediments transported into the lagoon. However, the lagoon remains eutrophic to hypereutrophic, mostly due to phosphorus released in the water column from bottom sediments. Therefore, future restoration efforts should be directed towards the management of bottom sediments.
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References
APHA-AWWA-WPCE, 1992. Standard Methods for the Examination of Water and Waste Water, 18th edn
Andersson A., Hajdu S., Haecky P., Kuparinen J. and Winker J. (1996). Succession and growth limitation of phytoplankton in the Gulf of Bothnia (Baltic Sea). Marine Biology 126: 791–801
Bartsch, A. F. & J. H. Gakstatter, 1978. Management decisions for lake systems on a survey of trophic status, limiting nutrients, and loadings, in American-Soviet Symposium on Use of Mathematical Models to Optimize Water Quality Management, 1975, U.S. Environmental Protection Agency, Office of Research and Development, Environmental Research Laboratory, Gulf Breeze, FL, EPA-600/9–78–024, pp. 372–394
Blomqvist S., Gunnars A. and Elmgren R. (2004). Why the limiting nutrient differs between temperate coastal seas and freshwater lakes: a matter of salt. Limnology and Oceanography 49(6): 2236–2241
Boesch D. (2002). Challenges and opportunities for science in reducing nutrient over-enrichment of coastal ecosystems. Estuaries 25: 744–758
Bricker, S. B., C. G. Clement, D. E. Pirhalla, S. P. Orlando & D. R. G. Farrow, 1999. National Estuarine Eutrophication Assessment. Effects of Nutrient Enrichment in Nation’s Estuaries, NOAA-NOS Special Projects Office
Bricker S. B., Ferreira J. G. and Simas T. (2003). An integrated methodology for assessment of estuarine trophic status. Ecological Modelling 169: 39–60
Brooks A. S. and Edgington D. N. (1994). Biogeochemical control of phosphorus cycling and primary production in Lake Michigan. Limnology and Oceanography 39(4): 961–968
Carlson R. E. (1977). A trophic state index for lakes. Limnology and Oceanography 22(2): 361–369
Chapra, S. C., 1997. Surface Water-Quality Modeling, McGraw-Hill
Cloern J. E. (1999). The relative importance of light and nutrient limitation of phytoplankton growth: a simple index of coastal ecosystem sensitivity to nutrient enrichment. Aquatic Ecology 33: 3–16
Cloern J. E. (2001). Our evolving conceptual model of the coastal eutrophication problem. Marine Ecology Progress Series 210: 223–253
Conley D. J. (1999). Biogeochemical nutrient cycles and nutrient management strategies. Hydrobiologia 410: 87–96
Dillon P. J. and Ringler F. H. (1974). The phosphorus–chlorophyll relationship in Lakes. Limnology and Oceanography 19: 767–773
Dodds W. K. (2003). Misuse of inorganic N and soluble reactive R concentrations to indicate nutrient status of surface waters. Journal of the North American Benthological Society 22: 171–181
EEA (European Environmental Agency), 1999a. Nutrients in European Ecosystems. Environmental Assessment Report No 4, Office for Official Publications of the European Communities, 115
EEA (European Environmental Agency), 1999b. Environmental Signals 2000. Environmental Assessment Report No 6, Office for Official Publications of the European Communities, 108
EEA (European Environmental Agency), 2001. Eutrophication in Europe’s Coastal Waters. Topic Report No.7, Copenhagen
EEB (European Environmental Bureau), 2001. Handbook on EU Water Policy under the Water Framework Directive, Brussels
Gikas, G. D., 2002. Study of Vistonis Aquatic System. Doctoral Dissertation, Dept. of Civil Engineering, Democritus University of Thrace (In Greek)
Gikas, G. D., T. Yiannakopoulou & V. A. Tsihrintzis, 2005. Modeling of non-point source pollution in a Mediterranean draining basin, Environmental Modeling & Assessment (DOI:10.1007/s10666–005–9017–3; in press)
Håkanson L., Malmaeus J. M., Bodemer U. and Gerhardt V. (2003). Coefficients of variation for chlorophyll, green algae, diatoms, cryptophytes and blue–greens in rivers as a basis for predictive modelling and aquatic management. Ecological Modelling 169: 179–196
Hammond D. E., Fuller C., Harmon D., Hartman B., Miller L. G., Rea R., Warren S., Berelson W. and Hager S. W. (1985). Benthic fluxes in San Fransisco Bay. Hydrobiologia 129: 69–90
Havens K. E., Fukushima T., Xie P., Iwakuma T., James R. T., Takamura N., Hanazato T. and Yamamoto T. (2001). Nutrient dynamics and the eutrophication of shallow lakes Kasumigaura (Japan), Donghu (PR China), and Okeechobee (USA). Environmental Pollution 111: 263–272
Havens K. E., James R. T., East T. L. and Smith V. H. (2003). N:P ratios, light limitation, and cyanobacterial dominance in a subtropical lake impacted by non-point source nutrient pollution. Environmental Pollution 122: 379–390
Kemp W. M., Smith E. M., Marwin-Di Pasquale M. and Boyton W. R. (1997). Organic carbon balance and net ecosystem metabolism in Chesapeake Bay. Marine Ecology Progress Series 150: 229–248
Landner L. and Wahlgren U. (1988). Eutrophication of Lakes and Reservoirs in Warm Climates. WHO, Regional Office for Europe, Copenhagen
Lenten T. M. and Watson A. J. (2000). Redfield revisited: I. regulation of nitrate, phosphate and oxygen in ocean. Global Biogeochemical Cycles 14: 225–268
Moss B., Beklioglu M., Carvalho L., Kilinc S., McGowan S. and Stephen D. (1997). Vertically-challenged limnology: contrasts between deep and shallow lakes. Hydrobiologia 342/343: 257–267
Neal C. and Heathwaite A. L. (2005). Nutrient mobility within river basins: a European perspective. Journal of Hydrology 304: 477–490
Nixon S. W. (1995). Coastal marine eutrophication. A definition, social causes and future concerns. Ophelia 41: 199–219
Nixon S. W., Buckley S., Granger B. and Blintz S. (2001). Responses of very shallow marine ecosystems to nutrient enrichment. Journal of Human and Ecological Risk Assessment 7(5): 1457–1481
Nicholls K. H. (1997). A limnological basis for a Lake Simcoe phosphorus loading objective. Lake and Reservoir Management 13: 189–198
(1982). Eutrophication of waters: monitoring, assessment and control. Techical Report of OECD. Environmental Directorate. OECD, Paris
Papadopoulos V., Yiannakopoulou T. and Elias N. (1994). A model for the analysis of multiparametric systems. An application to ecology: The Vistonis Estuary. Ecological Modelling 74: 139–160
Pavlikakis G. E. and Tsihrintzis V. A. (2003). A quantitative model for accounting human, opinion, preference and perception in ecosystem management. Journal of Environmental Management 68(2): 193–205
Pykh Y. A., Kennedy E. T. and Grant W. E. (2000). An overview of systems analysis methods in delineating environmental quality indices. Ecological Modelling 130: 25–38
Portielje R. (1999). Relationships between eutrophication variables: from nutrient loading to transparency. Hydrobiologia 408/408: 375–387
Rast, W. & G. F. Lee, 1978. Summary Analysis of the North American OECD Eutrophication Project: Nutrient Loading-lake Response Relationships and Trophic State Indices, U.S. Environmental Protection Agency. EPA 600/3–78–008
Rossi G. and Premazzi G. (1991). Delay in lake recovery caused by internal loading. Water Research 25(5): 567–575
Ruley J. E. and Rusch K. A. (2002). An assessment of long-term post-restoration water quality trends in a shallow, subtropical, urban hypertrophic lake. Ecological Engineering 19: 265–280
Seitzinger S. P. (1988). Denitrification in freshwater and coastal marine ecosystems: ecological and geochemical significance. Limnology and Oceanography 33: 702–724
Schelske, C. L., F. J. Aldridge & W. F. Kenney, 1999. Assessing nutrient limitation and trophic state in Florida Lakes. In Phosphorus Biogeochemistry in Subtropical Ecosystems, Lewis Publishers, Boca Raton, FL: 321–342
Smith, V. H. & J. Shapiro, 1981. A retrospective look at the effects of phosphorus removal in lakes. In Restoration of Lakes and Inland Waters. U.S. Environmental Protection Agency, Washington, D.C. EPA-440/5–81–010
Taylor W. D., Lambou L. R., William L. R. and Hern S. C. (1980). Trophic State of Lakes and Reservoirs. Technical Report No. E-80–3. U.S. Army Corps of Engineers, Waterways Experimental satation, Vicksburgh, MI, USA
Tsihrintzis V. A. and Hamid R. (1998). Runoff quality prediction from small urban catchments using SWMM. Hydrological Processes 12: 311–329
Tsihrintzis V. A. and Sidan C. B. (1998). Modeling urban stormwater runoff processes using the Santa Barbara method. Water Resources Management 12: 139–166
USEPA (US Environmental Protection Agency), 1998. National Strategy for the Development of Regional Nutrient Criteria, EPA-822-R-98–002
USEPA (US Environmental Protection Agency), 2000. Nutrient Criteria, Technical Guidance Manual, Lakes and Reservoirs (1st edn). EPA-822-B00–001
Portielje R. (1999). Multi-lake studies in The Netherlands: trends in eutrophication. Hydrobiologia 408/408: 359–365
Vollenweider R. A. (1976). Advances in defining critical loading levels for phosphorus in lake eutrophication, Mem. Ist. Ital. Idrobiology 33: 53–83
Yiannakopoulou, Τ., 1989. Structure and Management of Brackish Ecosystems: The Eutrophication of Vistonis. Doctoral Dissertation, Dept. of Civil Engineering, Democtitus University of Thrace (In Greek)
Yiannakopoulou T. (1991). Eutrophication indices and self-cleaning capacity of Vistonis Estuary, N. Greece. In: Tsakiris, G. (eds) Proceedings of the European Conference in Advances in Water Resources Technology, pp 457–463. Balkema Publishers, Rotterdam
Yiannakopοulou, T., 1992. Phytoplankton structure of Vistonis Estuary, (Thrace, Greece). XXXIII Congres, Commission International pour l’ Exploration Scientifique de la Mer Mediterranée, October 1992, Triest, Italy
Yiannakopoulou, T., 1998. Environmental gradients of nutrients and physical–chemical parameters in a Mediterranean coastal embayment, Proceedings of the XXXV Congress of the Commission International pour l’ Exploration Scientifique de la Mer Mediterranée
Xu F. L. (1997). Exergy and structural exergy as ecological indicators for the development state of lake Chaohu ecosystem. Ecological Modelling 99: 41–49
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Gikas, G.D., Yiannakopoulou, T. & Tsihrintzis, V.A. Water Quality Trends in a Coastal Lagoon Impacted by Non-point Source Pollution after Implementation of Protective Measures. Hydrobiologia 563, 385–406 (2006). https://doi.org/10.1007/s10750-006-0034-2
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DOI: https://doi.org/10.1007/s10750-006-0034-2