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  • Amoros, C. & Bornette, G. (2002) Connectivity and biocomplexity in waterbodies of riverine floodplains. Freshwater Biology, 47, 761776.
  • Anderson, C. & Cabana, G. (2006) Does delta N-15 in river food webs reflect the intensity and origin of N loads from the watershed? Science of the Total Environment, 367, 968978.
  • Arai, H.P. (1989) Acanthocephala. Guide to the parasites of fishes of Canada. Part III (eds L. Margolis & Z. Kabata). pp. 190. Canadian Special Publication of Fisheries and Aquatic Sciences, 107, 95.
  • Baker, E.A. & McComish, T.S. (1998) Precision of ages determined from scales and opercles for yellow perch Perca flavescens. Journal of Great Lakes Research, 24, 658665.
  • Baldwin, R.E., Miller, T.W., Brodeur, R.D. & Jacobson, K.C. (2008) Expanding the foraging history of juvenile Pacific salmon: combining stomach-content and macroparasite-community analyses for studying marine diets. Journal of Fish Biology, 72, 12681294.
  • Barth, J.A.C. & Veizer, J. (1999) Carbon cycle in St Lawrence aquatic ecosystems at Cornwall (Ontario), Canada: seasonal and spatial variations. Chemical Geology, 159, 107128.
  • Bauersachs, T., Schouten, S., Compaore, J., Wollenzien, U., Stal, L.J. & Damste, J.S.S. (2009) Nitrogen isotopic fractionation associated with growth on dinitrogen gas and nitrate by cyanobacteria. Limnology and Oceanography, 54, 14031411.
  • Bertrand, M., Marcogliese, D.J. & Magnan, P. (2008) Trophic polymorphism in brook charr revealed by diet, parasites and morphometrics. Journal of Fish Biology, 72, 555572.
  • Bertrand, M., Marcogliese, D.J. & Magnan, P. (2010) Effect of wetland enhancement on parasites of juvenile yellow perch. Wetlands, 30, 300308.
  • Cabana, G. & Rasmussen, J.B. (1996) Comparison of aquatic food chains using nitrogen isotopes. Proceedings of the National Academy of Sciences of the United State of America, 93, 1084410847.
  • Cook, B.D., Bunn, E.E. & Hughes, J.M. (2007) A comparative analysis of population structuring and genetic diversity in sympatric lineages of freshwater shrimp (Atyidae : Paratya): concerted or independent responses to hydrographic factors? Freshwater Biology, 52, 21562171.
  • Cousins, S.H. (1990) Countable ecosystems deriving from a new food web entity. Oikos, 57, 270275.
  • Cunjak, R.A., Roussel, J.M., Gray, M.A., Dietrich, J.P., Cartwright, D.F., Munkittrick, K.R. & Jardine, T.D. (2005) Using stable isotope analysis with telemetry or mark-recapture data to identify fish movement and foraging. Oecologia, 144, 636646.
  • DeAngelis, D.L. & Petersen, J.H. (2001) Importance of the predator’s ecological neighborhood in modeling predation on migrating prey. Oikos, 94, 315325.
  • DeNiro, M.J. & Epstein, S. (1978) Influence of diet on distribution of carbon isotopes in animals. Geochimica et Cosmochimica Acta, 42, 495506.
  • Diebel, M.W. & Vander Zanden, M.J. (2009) Nitrogen stable isotopes in streams: effects of agricultural sources and transformations. Ecological Applications, 19, 11271134.
  • Finlay, J.C. (2001) Stable-carbon-isotope ratios of river biota: implications for energy flow in lotic food webs. Ecology, 82, 10521064.
  • Finlay, J.C., Power, M.E. & Cabana, G. (1999) Effects of water velocity on algal carbon isotope ratios: implications for river food web studies. Limnology and Oceanography, 44, 11981203.
  • Fourqurean, J.W., Moore, T.O., Fry, B. & Hollibaugh, J.T. (1997) Spatial and temporal variation in C:N:P ratios, delta N-15 and delta C-13 of eelgrass Zostera marina as indicators of ecosystem processes, Tomales Bay, California, USA. Marine Ecology Progress Series, 157, 147157.
  • Frenette, J.J., Arts, M.T., Morin, J., Gratton, D. & Martin, C. (2006) Hydrodynamic control of the underwater light climate in fluvial Lac Saint-Pierre. Limnology and Oceanography, 51, 26322645.
  • Fullhart, H.G., Parsons, B.G., Willis, D.W. & Reed, J.R. (2002) Yellow perch piscivory and its possible role in structuring littoral zone fish communities in small Minnesota lakes. Journal of Freshwater Ecology, 17, 3743.
  • Gibson, D.I. (1996) Trematoda. Guide to the parasites of fishes of Canada. Part IV. Canadian Special Publication of Fisheries and Aquatic Sciences, 124, 373.
  • Gray, M.A., Cunjak, R.A. & Munkittrick, K.R. (2004) Site fidelity of slimy sculpin (Cottus cognatus): insights from stable carbon and nitrogen analysis. Canadian Journal of Fisheries and Aquatic Sciences, 61, 17171722.
  • Guelinckx, J., Maes, J., De Brabandere, L., Dehairs, F. & Ollevier, F. (2006) Migration dynamics of clupeoids in the Schelde estuary: a stable isotope approach. Estuarine Coastal and Shelf Science, 66, 612623.
  • Haas, H.L., Freeman, C.J., Logan, J.M., Deegan, L. & Gaines, E.F. (2009) Examining mummichog growth and movement: are some individuals making intra-season migrations to optimize growth? Journal of Experimental Marine Biology and Ecology, 369, 816.
  • Hansson, S., Hobbie, J.E., Elmgren, R., Larsson, U., Fry, B. & Johansson, S. (1997) The stable nitrogen isotope ratio as a marker of food-web interaction and fish migration. Ecology, 78, 22492257.
  • Harestad, A.S. & Bunnell, F.L. (1979) Home range and body weight – re-evaluation. Ecology, 60, 389402.
  • Harvey, C.J., Hanson, P.C., Essington, T.E., Brown, P.B. & Kitchell, J.F. (2002) Using bioenergetics models to predict stable isotope ratios in fishes. Canadian Journal of Fisheries and Aquatic Sciences, 59, 115124.
  • Hecky, R.E. & Hesslein, R.H. (1995) Contributions of benthic algae to lake food webs as revealed by stable isotope analysis. Journal of the North American Benthological Society, 14, 631653.
  • Hesslein, R.H., Hallard, K.A. & Ramlal, P. (1993) Replacement of sulfur, carbon, and nitrogen in tissue of growing broad whitefish (Coregonus nasus) in response to a change in diet traced by delta S-34, delta C-13 and delta N-15. Canadian Journal of Fisheries and Aquatic Sciences, 48, 22582265.
  • Hjelm, J., Persson, L. & Christensen, B. (2000) Growth, morphological variation and ontogenetic niche shifts in perch (Perca fluviatilis) in relation to resource availability. Oecologia, 122, 190199.
  • Hoffman, G.L. (1999) Parasites of North American Freshwater Fishes. Cornell University Press, NewYork, USA.
  • Holt, R.D. (2002) Food webs in space: on the interplay of dynamic instability and spatial processes. Ecological Research, 17, 261273.
  • Hudon, C. & Carignan, R. (2008) Cumulative impacts of hydrology and human activities on water quality in the St Lawrence River (Lake Saint-Pierre, Quebec, Canada). Canadian Journal of Fisheries and Aquatic Sciences, 65, 11651180.
  • Huggins, K., Frenette, J.J. & Arts, M.T. (2004) Nutritional quality of biofilms with respect to light regime in Lake Saint-Pierre (Quebec, Canada). Freshwater Biology, 49, 945959.
  • Ims, R.A. & Steen, H. (1990) Geographical synchrony in microtine population-cycles – a theoretical evaluation of the role of nomadic avian predators. Oikos, 57, 381387.
  • Junk, W.J., Bayley, P.B. & Sparks, R.E. (1989) The flood pulse concept in river-floodplain systems. Proceedings of the International Large River Symposium (ed. D.P. Dodge), pp. 110127. Canadian Special Publication of Fisheries and Aquatic Sciences, Ottawa, Canada.
  • Keough, J.R., Sierszen, M.E. & Hagley, C.A. (1996) Analysis of a Lake Superior coastal food web with stable isotope techniques. Limnology and Oceanography, 41, 136146.
  • Keough, J.R., Hagley, C.A., Ruzycki, E. & Sierszen, M. (1998) delta C-13 composition of primary producers and role of detritus in a freshwater coastal ecosystem. Limnology and Oceanography, 43, 734740.
  • Knudsen, R., Klemetsen, A. & Staldvik, F. (1996) Parasites as indicators of individual feeding specialization in Arctic charr during winter in northern Norway. Journal of Fish Biology, 48, 12561265.
  • Kramer, D.L. & Chapman, M.R. (1999) Implications of fish home range size and relocation for marine reserve function. Environmental Biology of Fishes, 55, 6579.
  • Laurel, B.J., Gregory, R.S., Brown, J.A., Hancock, J.K. & Schneider, D.C. (2004) Behavioural consequences of density-dependent habitat use in juvenile cod Gadus morhua and G. ogac: the role of movement and aggregation. Marine Ecology Progress Series, 272, 257270.
  • Laviolette, N., Fournier, D., Dumont, P. & Mailhot, Y. (2003) Caractérisation des communautés de poissons et développement d’un indice d’íntégrité biotique pour le fleuve Saint-Laurent, 1995–1997. Société de la faune et des parcs du Québec, Direction de la recherche sur la faune, p. 237.
  • Lehmann, M.F., Bernasconi, S.M., McKenzie, J.A., Barbieri, A., Simona, M. & Veronesi, M. (2004) Seasonal variation of the delta C-13 and delta N-15 of particulate and dissolved carbon and nitrogen in Lake Lugano: constraints on biogeochemical cycling in a eutrophic lake. Limnology and Oceanography, 49, 415429.
  • Leibold, M.A., Holyoak, M., Mouquet, N., Amarasekare, P., Chase, J.M., Hoopes, M.F., Holt, R.D., Shurin, J.B., Law, R., Tilman, D., Loreau, M. & Gonzalez, A. (2004) The metacommunity concept: a framework for multi-scale community ecology. Ecology Letters, 7, 601613.
  • Linfield, R.S.J. (1985) An alternative concept to home range theory with respect to populations of cyprinids in major river systems. Journal of Fish Biology, 27, 187196.
  • Marcogliese, D.J. & Cone, D.K. (1997) Food webs: a plea for parasites. Trends in Ecology & Evolution, 12, 320325.
  • McCann, K.S., Rasmussen, J.B. & Umbanhowar, J. (2005) The dynamics of spatially coupled food webs. Ecology Letters, 8, 513523.
  • Merritt, R.W. & Cummins, K.W. (1996) An Introduction to the Aquatic Insects of North America. Kendall/Hunt Publishing Company, Dubuque, Iowa.
  • Minagawa, M. & Wada, E. (1984) Stepwise enrichment of N-15 along food-chains – further evidence and the relation between delta-N-15 and animal age. Geochimica et Cosmochimica Acta, 48, 11351140.
  • Minagawa, M. & Wada, E. (1986) Nitrogen isotope ratios of red tide organisms in the East-China Sea – a characterization of biological nitrogen-fixation. Marine Chemistry, 19, 245259.
  • Minns, C.K. (1995) Allometry of home-range size in lake and river fishes. Canadian Journal of Fisheries and Aquatic Sciences, 52, 14991508.
  • Needoba, J.A., Waser, N.A., Harrison, P.J. & Calvert, S.E. (2003) Nitrogen isotope fractionation in 12 species of marine phytoplankton during growth on nitrate. Marine Ecology Progress Series, 255, 8191.
  • Osmond, C.B., Valaane, N., Haslam, S.M., Uotila, P. & Roksandic, Z. (1981) Comparisons of delta-C-13 values in leaves of aquatic macrophytes from different habitats in Britain and Finland – some implications for photosynthetic processes in aquatic plants. Oecologia, 50, 117124.
  • Parker, A.D., Stepien, C.A., Sepulveda-Villet, O.J., Ruehl, C.B. & Uzarski, D.G. (2009) The interplay of morphology, habitat, resource use, and genetic relationships in young yellow perch. Transactions of the American Fisheries Society, 138, 899914.
  • Parrish, D.L. & Margraf, F.J. (1994) Spatial and temporal patterns of food use by white perch and yellow perch in Lake Erie. Journal of Freshwater Ecology, 9, 2935.
  • Peterson, B.J. & Fry, B. (1987) Stable isotopes in ecosytem studies. Annual Review of Ecology and Systematics, 18, 293320.
  • Pinnegar, J.K. & Polunin, N.V.C. (2000) Contributions of stable-isotope data to elucidating food webs of Mediterranean rocky littoral fishes. Oecologia, 122, 399409.
  • Post, D.M. (2002) Using stable isotopes to estimate trophic position: models, methods, and assumptions. Ecology, 83, 703718.
  • Post, D.M., Doyle, M.W., Sabo, J.L. & Finlay, J.C. (2007) The problem of boundaries in defining ecosystems: a potential landmine for uniting geomorphology and ecology. Geomorphology, 89, 111126.
  • Power, M.E. & Rainey, W.E. (2000) Food webs and resource sheds: towards spatially delimiting trophic interactions. Ecological Consequences of Habitat Heterogeneity (eds M.J. Hutchins, E.A. John & A.J.A. Stewart), pp. 291314. Blackwell, Oxford.
  • Rasmussen, J.B. & Trudeau, V. (2007) Influence of velocity and chlorophyll standing stock on periphyton delta C-13 and delta N-15 in the Ste. Marguerite River system, Quebec. Canadian Journal of Fisheries and Aquatic Sciences, 64, 13701381.
  • Rasmussen, J.B., Trudeau, V. & Morinville, G. (2009) Estimating the scale of fish feeding movements in rivers using delta C-13 signature gradients. Journal of Animal Ecology, 78, 674685.
  • Robinson, S.A., Forbes, M.R. & Hebert, C.E. (2009) Parasitism, mercury contamination, and stable isotopes in fish-eating double-crested cormorants: no support for the co-ingestion hypothesis. Canadian Journal of Zoology, 87, 740747.
  • Rooney, N., McCann, K.S. & Moore, J.C. (2008) A landscape theory for food web architecture. Ecology Letters, 11, 867881.
  • de Roos, A.M., McCauley, E. & Wilson, W.G. (1998) Pattern formation and the spatial scale of interaction between predators and their prey. Theoretical Population Biology, 53, 108130.
  • Schmidt, G.D. (1970) The Tapeworms. Wm. C. Brown Company Publishers, Dubuque, Iowa.
  • Sepuldeva, A.J., Colyer, W.T., Lowe, W.H. & Vinson, M.R. (2009) Using nitrogen stable isotopes to detect long distance movement in a threatened cutthroat trout (Oncorhynchus clarkia utah). Canadian Journal of Fisheries and Aquatic Sciences, 66, 672682.
  • Sinisalo, T., Valtonen, E.T., Helle, E. & Jones, R.I. (2006) Combining stable isotope and intestinal parasite information to evaluate dietary differences between individual ringed seals (Phoca hispida botnica). Canadian Journal of Zoology, 84, 823831.
  • Sokal, R.R. & Rohlf, F.J. (1995) Biometry. W. H. Freeman, New York.
  • Sparks, R.E. (1995) Need for ecosystem management of large rivers and their floodplains. BioScience, 45, 168182.
  • Svanback, R. & Persson, L. (2004) Individual diet specialization, niche width and population dynamics: implications for trophic polymorphisms. Journal of Animal Ecology, 73, 973982.
  • Takai, N. & Sakamoto, W. (1999) Identification of local populations of Lake Biwa catfish Silurus biwaensis in Japan on the basis of delta C-13 and delta N-15 analyses. Canadian Journal of Zoology, 77, 258266.
  • Thorp, J.H. & Delong, M.D. (1994) The riverine productivity model – an heuristic view of carbon sources and organic processing in large river ecosystems. Oikos, 70, 305308.
  • Thorpe, J.E. (1977) Morphology, physiology, behavior, and ecology of Perca fluviatilis L. and P. flavescens Mitchill. Journal of the Fisheries Research Board of Canada, 34, 15041514.
  • Troxler, T.G. & Richards, J.H. (2009) delta C-13, delta N-15, carbon, nitrogen and phosphorus as indicators of plant ecophysiology and organic matter pathways in Everglades deep slough, Florida, USA. Aquatic Botany, 91, 157165.
  • Valtonen, E.T., Marcogliese, D.J. & Julkunen, M. (2010) Vertebrate diets derived from trophically transmitted fish parasites in the Bothnian Bay. Oecologia, 162, 139152.
  • Vis, C., Cattaneo, A. & Hudon, C. (2008) Shift from chlorophytes to cyanobacteria in benthic macroalgae along a gradient of nitrate depletion. Journal of Phycology, 44, 3844.
  • Vis, C., Hudon, C., Carignan, R. & Gagnon, P. (2007) Spatial analysis of production by macrophytes, phytoplankton and epiphyton in a large river system under different water-level conditions. Ecosystems, 10, 293310.
  • Ward, J.V., Tockner, K. & Schiemer, F. (1999) Biodiversity of floodplain river ecosystem: ecotones and connectivity. Regulated Rivers – Research & Management, 15, 125139.
  • Welcomme, R.L. (1979) Fisheries Ecology of Floodplain Rivers. Longman, London, UK.
  • Whiteside, M.C., Swindoll, C.M. & Doolittle, W.L. (1985) Factors affecting the early life history of yellow perch, Perca flavescens. Environmental Biology of Fishes, 12, 4756.
  • Woolnough, D.A., Downing, J.A. & Newton, T.J. (2009) Fish movement and habitat use depends on water body size and shape. Ecology of Freshwater Fish, 18, 8391.
  • Wu, L. & Culver, D.A. (1992) Ontogenic diet shift in Lake Erie age-0 yellow perch (Perca flavescens) - a size-related response to zooplankton density. Canadian Journal of Fisheries and Aquatic Sciences, 49, 19321937.
  • Yang, C., Telmer, K. & Veizer, J. (1996) Chemical dynamics of the ‘‘St Lawrence’’ riverine system: delta D-H2O, delta O-18(H2O), delta C-13(DIC), delta S-34(sulfate), and dissolved Sr-87/Sr-86. Geochimica et Cosmochimica Acta, 60, 851866.