References
- Anderson, C. & G. Cabana. 2006. Does δ15N in river food webs reflect the intensity and origin of N loads from the watershed? Sci. Tot. Environ. 367: 968–978.
- Arthington, A.H., S.E. Bunn, N.L. Poff & R.J. Naiman. 2006. The challenge of providing environmental flow rules to sustain river ecosystems. Ecol. Appl. 16: 1311–1318.
- Bunn, S.E. & A.H. Arthington. 2002. Basic principles and ecological consequences of altered flow regimes for aquatic biodiversity. Environ. Manag. 30: 492–507.
- Cabana, G. & J.B. Rasmussen. 1994. Modelling food chain structure and contaminant bioaccumulation using stable nitrogen isotopes. Nature 372: 255–257.
- Finlay, J. C., M. E. Power, & G. Cabana. 1999. Effects of water velocity on algal carbon isotope ratios: Implications for river food web studies. Limnol. Oceanogr. 44: 1198–1203.
- Finlay, J.C. 2004. Patterns and controls of lotic algal stable isotope ratios. Limnol. Oceanogr. 49: 850–861.
- France, R. 1996. Absence or masking of metabolic fractionations of 13C in a freshwater benthic food web. Freshw. Biol. 36: 1–6.
- Fry, B. & E.B. Sherr. 1984. d13C measurements as indicators of carbon flow in marine and freshwater ecosystems. Contrib. Mar. Sci. 27: 15–47.
- Hamilton, S.K., J.L. Tank, D.F. Raikow, W.M. Wollheim, B.J. Peterson & J.R. Webster. 2001. Nitrogen uptake and transformation in a midwestern U. S. stream: A stable isotope enrichment study. Biogeochemistry 54: 297–340.
- Haurer, F. R. & G. A. Lamberti. 2006. Methods in stream ecology. 2nd ed., Academic Press.
- Jepsen, D.B. & K.O. Winemiller. 2007 Basin geochemistry and isotopie ratios of fishes and basal production sources in four neotropical rivers. Ecol. Freshw. Fish 16: 267–281.
- Jones, R.I., L. King, M.M. Dent, S.C. Maberly & C.E. Gibson. 2004. Nitrogen stable isotope ratios in surface sediments, epilithon and macrophytes from upland lakes with differing nutrient status. Freshw. Biol. 49: 382–391.
- Lennon, J. T., A. M. Faha, X. Feng & K. L. Cottingham. 2006. Relative importance of CO2 recycling and CH4 pathways in lake food webs along a dissolved organic carbon gradient. Limnol. Oceanogr. 51: 1602–1613.
- Marks, J. C., M. E. Power & M. S. Parker. 2000. Flood disturbances, algal productivity, and interannual variation in food chain length. Oikos 90: 20–27.
- McCutchan, J.H. & W.M. Lewis. 2001. Seasonal variation in stable isotope ratios of stream algae. Verh. Internat. Verein. Limnol. 27: 3304–3307.
- McNeely, C., S.M. Clinton & J.M. Erbe. 2006. Landscape variation in C sources of scraping primary consumers in streams. J.N. Am. Benthol. Soc. 25: 787–799.
- Power, M.E., W.E. Dietrich & J.C. Finlay. 1996. Dams and downstream aquatic biodiversity: potential food web consequences of hydrologic and geomorphic change. Envir. Manag. 20: 887–895.
- Trudeau, V. & J.B. Rasmussen. 2003. The effect of water velocity on stable carbon and nitrogen isotope signatures of periphyton. Limnol. Oceanogr. 48: 2194–2199.
- Vander Zanden, M.J. & J.B. Rasmussen. 2001. Variation in δ15N and δ13C trophic fractionation: Implications for aquatic food web studies. Limnol. Oceanogr. 46: 2061–2066.
- Verardo, D. J., P.N. Froelich & A. McIntyre. 1990. Determination of organic carbon and nitrogen in marine sediments using the Carlo-Erba NA-1500 Analyzer. Deep-Sea Res. 37: 157–165.
- Wootton, J.T., M.S. Parker & M.E. Power. 1996. Effects of disturbances on river food webs. Science 273: 1558–1561.