SEARCH

SEARCH BY CITATION

References

  • Appelberg, M., Berger, H.-M., Hesthagen, T., Kleiven, E., Kurkilahti, M., Raitaniemi, J. et al. (1995). Development and intercalibration of methods in nordic freshwater fish monitoring. Water Air Soil Pollut., 85, 401406.
  • Banse, K. & Mosher, S. (1980). Adult body mass and annual production/biomass relationships of field populations. Ecol. Monogr., 50, 355379.
  • Berggren, M., Ström, L., Laudon, H., Karlsson, J., Jonsson, A., Giesler, R. et al. (2010). Lake secondary production fueled by rapid transfer of low molecular weight organic carbon from terrestrial sources to aquatic consumers. Ecol. Lett., 13, 870880.
  • Borgstrøm, R. (1992). Effect of population density on gillnet catchability in four allopatric populations of brown trout (Salmo trutta). Can. J. Fish. Aquat. Sci., 49, 15391545.
  • Bukaveckas, P.A. & Robbins-Forbes, M. (2000). Role of dissolved organic carbon in the attenuation of photosynthetically active and ultraviolet radiation in Adirondack lakes. Freshw. Biol., 43, 339354.
  • Burnham, K.P. & Anderson, D.R. (2002). Model Selection and Multimodel Inference. Springer, New York.
  • Carpenter, S.R., Cole, J.J., Kitchell, J.F. & Pace, M.L. (1998). Impact of dissolved organic carbon, phosphorus, and grazing on phytoplankton biomass and production in experimental lakes. Limnol. Oceanogr., 43, 7380.
  • Cole, J.J., Carpenter, S.R., Pace, M.L., Van de Bogert, M.C., Kitchell, J.L. & Hodgson, J.R. (2006). Differential support of lake food webs by three types of terrestrial organic carbon. Ecol. Lett., 9, 558568.
  • Cole, J.J., Carpenter, S.R., Kitchell, J., Pace, M.L., Solomon, C.T. & Weidel, B. (2011). Strong evidence for terrestrial support of zooplankton in small lakes based on stable isotopes of carbon, nitrogen, and hydrogen. Proc. Natl Acad. Sci. USA, 108, 19751980.
  • Dillon, P.J. & Molot, L.A. (2005). Long-term trends in catchment export and lake retention of dissolved organic carbon, dissolved organic nitrogen, total iron, and total phosphorus: the Dorset, Ontario, study, 1978–1998. J. Geophy. Res. Bio., 110, G01002.
  • Downing, J.A. & Plante, C. (1993). Production of Fish Populations in Lakes. Can. J. Fish. Aquat. Sci., 50, 110120.
  • Downing, J.A., Prairie, Y.T., Cole, J.J., Duarte, C.M., Tranvik, L.J., Striegl, R.G. et al. (2006). The global abundance and size distribution of lakes, ponds, and impoundments. Limnol. Oceanogr., 51, 23882397.
  • Elser, J.J., Bracken, M.E.S., Cleland, E.E., Gruner, D.S., Harpole, W.S., Hillebrand, H. et al. (2007). Global analysis of nitrogen and phosphorus limitation of primary producers in freshwater, marine and terrestrial ecosystems. Ecol. Lett., 10, 11351142.
  • Finstad, A.G. & Hein, C.L. (2012). Migrate or stay: terrestrial primary productivity and climate drive anadromy in Arctic char. Glob. Change Biol., 18, 24872497.
  • Finstad, A.G., Forseth, T., Jonsson, B., Bellier, E., Hesthagen, T., Jensen, A.J. et al. (2011). Competitive exclusion along climate gradients: energy efficiency influences the distribution of two salmonid fishes. Glob. Change Biol., 17, 17031711.
  • Granéli, W. (2012). Brownification of Lakes. In: Encyclopedia of Lakes and Reservoirs (eds Bengtsson, L., Herschy, R. & Fairbridge, R.). Springer Science, New York.
  • Grey, J., Jones, R.I. & Sleep, D. (2000). Stable isotope analysis of the origins of zooplankton carbon in lakes of differing trophic state. Oecologia, 123, 232240.
  • Gruner, D.S., Smith, J.E., Seabloom, E.W., Sandin, S.A., Ngai, J.T., Hillebrand, H. et al. (2008). A cross-system synthesis of consumer and nutrient resource control on producer biomass. Ecol. Lett., 11, 740755.
  • Håkanson, L. (2005). The importance of lake morphometry for the structureand function of lakes. Int. Rev. Hydrobiol., 90, 433461.
  • Håkanson, L. & Peters, R.H. (1995). Predictive limnology: methods for predictive modelling. SPB Academic Publ, Amsterdam.
  • Henriksen, A., Skjelvåle, B.L., Mannio, J., Wilander, A., Ron, H., Curtis, C. et al. (1998). Northern European Lake Survey, 1995: Finland, Norway, Sweden, Denmark, Russian Kola, Russian Karelia, Scotland and Wales. Ambio, 27, 8091.
  • Hessen, D.O. & Tranvik, L.J. (1998). Aquatic Humic Substances; Ecology and Biogeochemistry. Springer, Berlin.
  • Hessen, D.O., Andersen, T. & Lyche, A. (1990). Carbon metabolism in a humic lake - pool sizes and cycling through zooplankton. Limnol. Oceanogr., 35, 8499.
  • Hessen, D.O., Andersen, T., Larsen, S., Skjelkvale, B.L. & de Wit, H.A. (2009). Nitrogen deposition, catchment productivity, and climate as determinants of lake stoichiometry. Limnol. Oceanogr., 54, 25202528.
  • Hesthagen, T. & Sandlund, O.T. (2004). Fish distribution in a mountain area in south-eastern Norway: human introductions overrule natural immigration. Hydrobiologia, 521, 4959.
  • Hesthagen, T., Sevaldrud, I.H. & Berger, H.M. (1999). Assessment of damage to fish populations in Norwegian lakes due to acidification. Ambio, 28, 1217.
  • Jensen, K.W. (1977). On the dynamics and exploitation of the population of brown trout, Salmo trutta L., in lake Øvre Heimdalsvatn, Southern Norway. Report, Institute of Freshwater Research, Drottningholm, 56, 1869.
  • Jones, R.I. (1992). The influence of humic substances on lacustrine planktonic food chains. Hydrobiologia, 229, 7391.
  • Jones, R.I., Grey, J., Sleep, D. & Quarmby, C. (1998). An assessment, using stable isotopes, of the importance of allochthonous organic carbon sources to the pelagic food web in Loch Ness. Proceed. Royal Soc. London. Series B: Biol. Sci., 265, 105110.
  • Jones, R.I., Grey, J., Sleep, D. & Arvola, L. (1999). Stable isotope analysis of zooplankton carbon nutrition in humic lakes. Oikos, 86, 97104.
  • Jones, S.E., Solomon, C.T. & Weidel, B.C. (2012). Subsidy or subtraction: how do terrestrial inputs influence consumer production in lakes? Freshwater Rev., 5, 3749.
  • Karlsson, J., Bystrom, P., Ask, J., Ask, P., Persson, L. & Jansson, M. (2009). Light limitation of nutrient-poor lake ecosystems. Nature, 460, 506509.
  • Karlsson, J., Berggren, M., Ask, J., Bystrom, P., Jonsson, A., Laudon, H. et al. (2012). Terrestrial organic matter support of lake food webs: evidence from lake metabolism and stable hydrogen isotopes of consumers. Limnol. Oceanogr., 57, 10421048.
  • Klemetsen, A., Amundsen, P.A., Dempson, J.B., Jonsson, B., Jonsson, N., O'Connell, M.F. et al. (2003). Atlantic salmon Salmo salar L., brown trout Salmo trutta L. and Arctic charr Salvelinus alpinus (L.): a review of aspects of their life histories. Ecol. Freshw. Fish, 12, 159.
  • Larsen, S., Andersen, T. & Hessen, D.O. (2011a). Predicting organic carbon in lakes from climate drivers and catchment properties. Glob. Biogeochem. Cycle, 25, GB3007.
  • Larsen, S., Andersen, T. & Hessen, D.O. (2011b). Climate change predicted to cause severe increase of organic carbon in lakes. Glob. Change Biol., 17, 11861192.
  • Lydersen, E., Larssen, T. & Fjeld, E. (2004). The influence of total organic carbon (TOC) on the relationship between acid neutralizing capacity (ANC) and fish status in Norwegian lakes. Sci. Total Environ., 326, 6369.
  • Randall, R.G. & Minns, C.K. (2000). Use of fish production per unit biomass ratios for measuring the productive capacity of fish habitats. Can. J. Fish. Aquat. Sci., 57, 16571667.
  • Schindler, D.W. (1974). Eutrophication and recovery in experimental lakes: implications for lake management. Science, 184, 897899.
  • Smokorowski, K.E. & Kelso, J.R.M. (2002). Trends in fish community structure, biomass, and production in three Algoma, Ontario, Lakes. Water Air Soil Pollut. Focus, 2, 129150.
  • Solomon, C.T., Carpenter, S.R., Clayton, M.K., Cole, J.J., Coloso, J.J., Pace, M.L. et al. (2011). Terrestrial, benthic, and pelagic resource use in lakes: results from a three-isotope Bayesian mixing model. Ecology, 92, 11151125.
  • Stasko, A.D., Gunn, J.M. & Johnston, T.A. (2012). Role of ambient light in structuring north-temperate fish communities: potential effects of increasing dissolved organic carbon concentration with a changing climate. Environmental Rev., 20, 173190.
  • Tveito, O.E., Førland, E.J., Heino, R., Hanssen-Bauer, I., Alexandersson, H., Dahlström, B. et al. (2000). Nordic temperature maps. DNMI Klima, 9, 155.
  • Ugedal, O., Forseth, T. & Hesthagen, T. (2005). Gill-net Catches and Size of Spawners as Tools for Characterizing Trout Populations. Norsk institutt for naturforskning, Trondheim (in Norwegian).
  • Vander Zanden, M.J. & Vadeboncoeur, Y. (2002). Fishes as integrators of benthic and pelagic food webs in lakes. Ecology, 83, 21522161.
  • Wachenfeldt, E. & Tranvik, L. (2008). Sedimentation in boreal lakes—the role of flocculation of allochthonous dissolved organic matter in the water column. Ecosystems, 11, 803814.
  • Weidel, B., Carpenter, S., Cole, J., Hodgson, J., Kitchell, J., Pace, M. et al. (2008). Carbon sources supporting fish growth in a north temperate lake. Aquat. Sci., 70, 446458.
  • Wetzel, R.G. (2001). Limnology: Lake and River Ecosystems. Academic Press, San Diego.
  • Williamson, C.E., Stemberger, R.S., Morris, D.P., Frost, T.M. & Paulsen, S.G. (1996). Ultraviolet radiation in North American lakes: attenuation estimates from DOC measurements and implications for plankton communities. Limnol. Oceanogr., 41, 10241034.