Abstract
In this chapter we review the implementation of the Water Framework Directive in Catalan large reservoirs and the impact of the first Program of Measures on the ecological quality of these water bodies. In this case, the implementation faced a big challenge, resulting from combining a reduced number of water bodies located on highly heterogeneous geological setting and suffering from different and contrasting human impacts. This chapter introduces the proposed methodology, later assesses how it was implemented in a simplified assessment, and finally makes some suggestions for future improvements. In our opinion, a simplified protocol firstly used in Catalan reservoirs for the assessment of ecological potential is a sound, scientific-based methodology that delivers useful information for tailoring the Program of Measures to realistic and achievable objectives. As potential improvements we suggest: (1) the protocol to assess ecological potential should consider the one-out all-out rule for combining the biological and physicochemical quality elements; (2) definition of water body-specific Maximum Ecological Potential situations, using the Alternative Prague approach; (3) update the boundaries between levels of ecological potential inside each typology using the best knowledge available from reservoir limnology studies, particularly those published during the last decade; and (4) including the presence of invasive species in the assessment of biological quality.
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References
European Commission (2000) Directive 2000/60/EC of the European Parliament and the Council of the 23 October 2000 establishing a framework for community action in the field of water policy. Off J Eur Communities L327:1–73
Kallis G, Butler D (2001) The EU water framework directive: measures and implications. Water Policy 3:125–42
European Environment Agency (2009) Guidance on surface water chemical monitoring under the Water Framework Directive. Common Implementation Strategy for the Water Framework Directive (2000/60/EC) WFD guidance document, n. 19. Technical Report – 2009 – 025. European Commission, p 17
European Environment Agency (2005) Common overall approach to the classification of ecological status and ecological potential. WFD guidance document, n. 13. European Commission, p 53
Kampa E, Lasser C (2009) Heavily modified water bodies: information exchange on designation, assessment of ecological potential, objective setting and measures. Common implementation strategy workshop, Brussels
Borja A, Elliott M (2007) What does ‘good ecological potential’ mean, within the European Water Framework Directive? Mar Pollut Bull 54:1559–64
Straškraba M (1998) Limnological differences between deep valley reservoirs and deep lakes. Int Rev Hydrobiol 83:1–12
Sabater F, Armengol J, Sabater S (1989) Measuring discontinuities in the Ter River (Spain). Regul Rivers Res Manag 3:133–142
Oberdorff T, Pont D, Hugueny B, Porcher JP (2002) Development and validation of a fish-based index for the assessment of ‘river health’ in France. Freshw Biol 47:1720–1734
Munné A, Prat N (2004) Defining river types in a Mediterranean area: a methodology for the implementation of the EU water framework directive. Environ Manage 34:711–729
Panayotidis P, Montesanto B, Orfanidis S (2004) Use of low-budget monitoring of macroalgae to implement the European Water Framework Directive. J Appl Phycol 16:49–59
Bazzani GM, Di Pasquale S, Gallerani V, Viaggi D (2004) Irrigated agriculture in Italy and water regulation under the European Union Water Framework Directive. Water Resour Res 40: W07S04
Bernard D, Vallee K (2003) Identification and first characterisation of ground water bodies in the Artois-Picardie basin. Houille Blanche-Revue Internationale de l’Eau 2:90–95
Moss B et al (2003) The determination of ecological status in shallow lakes – a tested system (ECOFRAME) for implementation of the European Water Framework Directive. Aquat Conserv – Mar Freshwat Ecosyst 13:507–549
Schneider P, Neitzel PL, Schaffrath M, Schlumprecht H (2003) Physico-chemical assessment of the reference status in German surface waters: a contribution to the establishment of the EC Water Framework Directive 2000/60/EG in Germany. Acta Hydroch Hydrob 31:49–63
White J, Irvine K (2003) The use of littoral mesohabitats and their macroinvertebrate assemblages in the ecological assessment of lakes. Aquat Conserv – Mar Freshwat Ecosyst 13:331–351
Diekmann M, Brämick U, Lemcke R, Mehner T (2005) Habitat-specific fishing revealed distinct indicator species in German lowland lake fish communities. J Appl Ecol 42:901–909
Sondergaard M, Jeppesen E, Jensen JP, Amsinck SL (2005) Water Framework Directive: ecological classification of Danish lakes. J Appl Ecol 42:616–629
Irz P, Odion M, Argillier C, Pont D (2006) Comparison between the fish communities of lakes, reservoirs and rivers: can natural systems help define the ecological potential of reservoirs? Aquat Sci 68:109–116
Cabecinha E, Cortes R, Cabral JA, Ferreira T, Lourenço M, Pardal MÂ (2009) Multi-scale approach using phytoplankton as a first step towards the definition of the ecological status of reservoirs. Ecol Indic 9:240–255
Gómez-Beas R, Moñino A, Polo MJ (2012) Development of a management tool for reservoirs in Mediterranean environments based on uncertainty analysis. Nat Hazards Earth Syst Sci 12:1789–1797
Launois L, Veslot J, Irz P, Argillier C (2011) Selecting fish-based metrics responding to human pressures in French natural lakes and reservoirs: towards the development of a fish-based index (FBI) for French lakes. Ecol Freshw Fish 20:120–132
Alaoui KS, Galoux D, Rosillon F (2013) Macrophytes: limitations of using them to assess reservoir status according to the Water Framework Directive. Int J Water Sci 3:1–11
Vollenweider RA, Kerekes J (1982) Eutrophication of waters. Monitoring, assessment and control. Paris, Organisation for Economic Cooperation and Development, Cooperative programme on monitoring of inland waters (Eutrophication control), Environment Directorate. OECD, Paris, p 154
Wetzel RG (2001) Limnology. Lake and river ecosystems. Academic, New York
Vannote RL, Minshall GW, Cummins KW, Sedell JR, Cushing CE (1980) The river continuum concept. Can J Fish Aquat Sci 37:130–137
Navarro E, Caputo L, Marcé R, Carol J, Benejam L, García-Berthou E, Armengol J (2009) Ecological classification of a set of Mediterranean reservoirs applying the EU Water Framework Directive: a reasonable compromise between science and management. Lake Reserv Manag 25:364–376
Wallin M, Wiederholm T, Johnson RK (2003) Guidance on establishing reference conditions and ecological status class boundaries for inland surface waters, Luxembourg, CIS working group 2.3 – REFCOND.
Carol J, Benejam L, Alcaraz C, Vila-Gispert A, Zamora L, Navarro E, Armengol J, García-Berthou E (2006) The effects of limnological features on fish assemblages of 14 Spanish reservoirs. Ecol Freshw Fish 15:66–77
Carlson RE (1977) A trophic state index for lakes. Limnol Oceanogr 22:361–369
World Health Organization (1993) Microbiological aspects. In: Guidelines for drinking-water quality. World Health Organization, Geneva
Brown RM, McClelland NI, Deininger RA, Tozer RG (1970) Water quality index – do we dare? Water Sew Works 117:339–343
Bennion H, Fluin J, Simpson GL (2004) Assessing eutrophication and reference conditions for Scottish freshwater lochs using subfossil diatoms. J Appl Ecol 41:124–138
Nilsson C, Reidy CA, Dynesius M, Revenga C (2005) Fragmentation and flow regulation of the world’s large river systems. Science 308:405–408
Caputo L, Naselli-Flores L, Ordóñez J, Armengol J (2008) Phytoplankton distribution along trophic gradients within and among reservoirs in Catalonia (Spain). Freshw Biol 53:2543–2556
OECD (1982) Eutrophication of waters: monitoring assessment and control. Organization for Economic Cooperation and Control, Paris
Fraile H, Orive E, Pozo J (1995) Evaluación del estado trófico y comparación de modelos relativos al fósforo en los embalses de Cernadilla y Valparaiso (Rio Tera, Zamora). Limnética 11:29–37
de Ceballos BSO, König A, de Oliveira JF (1998) Dam reservoir eutrophication: a simplified technique for a fast diagnosis of environmental degradation. Water Res 32:3477–3483
Carpenter SR, Ludwing D, Brock WA (1999) Management of eutrophication for lakes subject to potentially irreversible change. Ecol Appl 9:751–771
Kimmel BL, Lind OT, Paulson LJ (1990) Reservoir primary production. In: Thornton KW, Kimmel BL, Payne FE (eds) Reservoir limnology: ecological perspectives. Wiley, New York
Edmonson WT (1980) Secchi disk and chlorophyll. Limnol Oceanogr 25:378–379
Lorenzen MW (1980) Use of chlorophyll-Secchi disk relationships. Limnol Oceanogr 25:371–372
Megard RO, Settles JC, Boyer HA, Combs WS (1980) Light, Secchi disk, and trophic states. Limnol Oceanogr 25:373–377
García-Criado F, Bécares E, Fernández-Aláez C, Fernández-Aláez M (2004) Plant associated invertebrates and ecological quality in some Mediterranean shallow lakes: implications for the application of the EC Water Framework Directive. Aquat Conserv – Mar Freshwat Ecosyst 15:31–50
Canistro D, Melega S, Ranieri D, Sapone A, Gustavino B, Monfrinotti M, Rizzoni M, Paolini M (2012) Modulation of cytochrome P450 and induction of DNA damage in Cyprinus carpio exposed in situ to surface water treated with chlorine or alternative disinfectants in different seasons. Mutat Res 729:81–89
García-Nieto E, Juárez-Santacruz L, García-Gallegos E, Tlalmis-Zempoalteca J, Romo-Gómez C, Torres-Dosal A (2014) Genotoxicological response of the Common Carp (Cyprinus carpio) exposed to Spring water in Tlaxcala, México. Bull Environ Contam Toxicol 93:393–398
Selvi M, Cavas T, Cağlan Karasu Benli A, Koçak Memmi B, Cinkiliç N, Dinçel AS, Vatan O, Yilmaz D, Sarikaya R, Zorlu T, Erkoç F (2013) Sublethal toxicity of esbiothrin relationship with total antioxidant status and in vivo genotoxicity assessment in fish (Cyprinus carpio L., 1758) using the micronucleus test and comet assay. Environ Toxicol 28:644–651
Ordóñez J, Armengol J, Moreno-Ostos E, Caputo L, García JC, Marcé R (2010) On non-Eltonian methods of hunting Cladocera, or impacts of the introduction of planktivorous fish on zooplankton composition and clear-water phase occurrence in a Mediterranean reservoir. Hydrobiologia 653:119–129
Navarro E, Bacardit M, Caputo L, Palau T, Armengol J (2006) Limnological characterization and flow patterns of a three-coupled reservoir system and their influence on Dreissena polymorpha populations and settlement during the stratification period. Lake Reserv Manag 22:293–302
Marcé R, Moreno-Ostos E, López P, Armengol J (2008) The role of allochthonous inputs of dissolved organic carbon on the hypolimnetic oxygen content of reservoirs. Ecosystems 11:1035–1053
Marcé R, Rodríguez-Arias MA, García JC, Armengol J (2010) El Niño southern oscillation and climate trends impact reservoir water quality. Glob Chang Biol 16:2857–2865
Ortiz JL, Peña R, Lee GF, Jones RA (1983) Aportación de nutrientes y eutrofización de embalses. CEDEX, Madrid (in Spanish)
Acknowledgments
We are indebted to all people involved in the first study on the application of the WFD in Catalan reservoirs: L. Caputo, J. Carol, L. Benejam, and E. García-Berthou. We also thank S. Poikane for valuable discussions on the convenience of including introduced fish metrics in the assessments. The original research was funded by the Catalan Water Agency (ACA), which also provided historical data for the reservoirs and current assessments. We also acknowledge the support provided by projects CARBONET (Spanish Ministry, CGL201130474C020) and SCARCE (Consolider-Ingenio 2010 CSD2009-00065).
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Marcé, R., Armengol, J., Navarro, E. (2015). Assessing Ecological Integrity in Large Reservoirs According to the Water Framework Directive. In: Munné, A., Ginebreda, A., Prat, N. (eds) Experiences from Surface Water Quality Monitoring. The Handbook of Environmental Chemistry, vol 42. Springer, Cham. https://doi.org/10.1007/698_2015_400
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DOI: https://doi.org/10.1007/698_2015_400
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