Hall, R. O., Tank, J. L. & Dybdahl, M. F. (2003).
Exotic snails dominate nitrogen and carbon
cycling in a highly productive stream.
Frontiers in Ecology and the Environment, 1 ,
407–411.
Hanson, J. M., Prepas, E.E. & Mackay, W. C.
(1989). Size distribution of
macroinvertebrate community in a
freshwater lake.Canadian Journal of Fisheries
and Aquatic Sciences, 46 , 1510–1519.
Henry, R. L. (1985). The impact of
zooplankton size structure on
phosphorus cycling in field
enclosures.Hydrobiologia, 120 , 3–9.
Hjerne, O. & Hansson, S. (2002). The role of
fish and fisheries in Baltic Sea nutrient
dynamics.Limnology and Oceanography,
47 , 1023–1032.
Horppila, J. (1998). Effects of mass removal and
variable recruitment on nutrient excretion
by a planktivorous roach stock.Journal of
Fish Biology, 52 , 951–961.
Huxley, J. S. (1932).Problems of Relative Growth,
London: Methuen.
Jackson, J.B. C., Kirby, M. X., Berger, W.H.et al.
(2001). Historical overfishing and the recent
collapse of coastal ecosystems.Science, 293 ,
629–638.
Jetz, W., Carbone, C., Fulford, J. & Brown, J.H.
(2004). The scaling of animal space use.
Science, 306 , 266–268.
Jones, C. G. & Lawton, J.H. (1995).Linking
Species and Ecosystems. New York: Chapman
& Hall.
Kitchell, J. F., O’Neil, R. V., Webb, D.et al. (1979).
Consumer regulation of nutrient cycling.
Bioscience, 29 , 28–34.
Koch, B. J. (2005). Invertebrate-mediated
nitrogen cycling in three connected aquatic
ecosystems, M. S. thesis, Laramie: University
of Wyoming, p. 54.
Kraft, C. E. (1993). Phosphorus regeneration by
Lake Michigan Alewives in the mid-1970s.
Transactions of the American Fisheries Society,
122 , 749–755.
Li, K. T., Wetterer, J.K. & Hairston, N.G.
(1985). Fish size, visual resolution, and prey
selectivity.Ecology, 66 , 1729–1735.
Lively, C.M. (1986). Competition, comparative
life histories, and maintenance of shell
dimorphism in a barnacle.Ecology, 67 ,
858–864.
Mercier, V., Vis, C., Morin, A. & Hudon, C. (1999).
Patterns in invertebrate and periphyton size
distributions from navigation buoys in the
St. Lawrence River.Hydrobiologia, 394 ,
83–91.
Meyer, J. L., Schultz, E.T. & Helfman, G. S. (1983).
Fish schools: an asset to corals.Science, 220 ,
1047–1049.
Morin, A. & Nadon, D. (1991). Size distribution of
epilithic lotic invertebrates and implications
for community metabolism.Journal of the
North American Benthological Society, 10 ,
300–308.
Myers, R. & Worm, B. (2003). Rapid worldwide
depletion of predatory fish communities.
Nature, 423 , 280–283.
Nachtigall, W. (1977). Swimming mechanics and
energetics of locomotion in variously sized
water beetles-Dytiscidae, body length 2 to
35mm. InScale Effects in Animal Locomotion,
ed. T.J. Pedley. London: Academic Press,
pp. 269–283.
Pauly, D., Christensen, V., Dalsgaard, J., Froese,
R. & Torres, F., Jr. (1998). Fishing down
marine food webs.Science, 279 , 860–863.
Peckarsky, B.L., McIntosh, A.R., Taylor, B.W. &
Dahl, J. (2002). Predator chemicals induce
changes in mayfly life history traits: a whole-
stream manipulation.Ecology, 83 , 612–618.
Peters, R. H. (1983).The Ecological Implications of
Body Size. Cambridge: Cambridge University
Press.
Quinn, T.P. & Kinnison, M. T. (1999). Size-
selective and sex-selective predation by
brown bears on sockeye salmon.Oecologia,
121 , 273–282.
Ramcharan, C.W., France, R. L. & McQueen, D. J.
(1996). Multiple effects of planktivorous fishBODY SIZE AND NUTRIENT CYCLING 303