Summary
We began this experiment to test specific hypotheses regarding direct and indirect effects of fish predation on the littoral macroinvertebrate community of Bays Mountain Lake, Tennessee. We used 24 m2 enclosures in which we manipulated the presence and absence of large redear sunfish (Lepomis microlophus>150 mm SL), and small sunfish (L. macrochirus and L. microlophus <50 mm SL) over a 16-mo period. Here we report on effects of fish predation on gastropod grazers that appear to cascade to periphyton and macrophytes.
Both large redear sunfish and small sunfish maintained low snail biomass, but snails in fish-free controls increased significantly during the first 2-mo of the experiment. By late summer of the first year of the experiment, the difference in biomass between enclosures with and without fish had increased dramatically (>10×). Midway through the second summer of the experiment, we noted apparent differences in the abundance of periphyton between enclosures containing fish and those that did not. We also noted differences in the macrophyte distribution among enclosures. To document these responses, we estimated periphyton cover, biovolume and cell size frequencies as well as macrophyte distributions among enclosures at the end of the experiment. When fish were absent, periphyton percent cover was significantly reduced compared to when fish were present. Periphyton cell-size distributions in enclosures without fish were skewed toward small cells (only 12% were greater than 200 m3), which is consistent with intense snail grazing. The macrophyte Najas flexilis had more than 60 x higher biomass in the fish-free enclosures than in enclosures containing fish; Potamogeton diversifolius was found only in fish-free enclosures. These results suggest a chain of strong interactions (i.e. from fish to snails to periphyton to macrophytes) that may be important in lake littoral systems. This contrasts sharply with earlier predictions based on cascading trophic interactions that propose that fish predation on snails would enhance macrophyte biomass.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bell SS (1991) Amphipods as insect equivalents? An alternative view. Ecology 72:350–354
Brönmark C (1985) Interactions between macrophytes, epiphytes, and herbivores: an experimental approach. Oikos 45:26–30
Brönmark C (1989) Interactions between epiphytes, macrophytes and freshwater snails: a review. J Moll Stud 55:299–311
Brönmark C (1990) How do herbivorous freshwater snails affect macrophytes? — a comment. Ecology 71:1212–1215
Bulthius DA, Woelkerling WJ (1983) Biomass accumulation and shading effects of epiphytes on the seagrass, Heterozostera tasmanica, in Victoria, Australia. Aquat Bot 16:137–148
Carlander KD (1977) Handbook of freshwater fishery biology, vol. 2. The Iowa State University Press, Ames, Iowa, USA 431 pp
Carpenter SR (1988) Complex interactions in lake communities. Springer, New York 283 pp
Carpenter SR, Lodge DM (1986) Effects of submersed macrophytes on ecosystem processes. Aquat Bot 26:341–370
Carpenter SR, Kitchell JF, Hodgson JR (1985) Cascading trophic interactoons and lake productivity. Bioscience 35:634–639
Carpenter SR, Kitchell JF, Hodgson JR, Cochran PA, Elser JJ, Elser MM, Lodge DM, Kretchmer D, He X, von Ende CN (1987) Regulation of lake primary productivity by food web structure. Ecology 68:1863–1876
Cattaneo A (1983) Grazing on epiphytes. Limnol Oceanogr 28:124–132
Crowder LB, Cooper WE (1982) Habitat structural complexity and the interaction between bluegills and their prey. Ecology 63:1802–1813
Doremus GM, Harman WM (1977) The effects of grazing by physid and planorbid freshwater snails on periphyton. Nautilus 91:92–96
Fuffy JE, Hay ME (1991) Amphipods are not all created equal: a reply to Bell. Ecology 72:354–358
Gill JL (1978) Design and analysis of experiments in the animal and medical sciences, Vol. 2. The Iowa State University Press, Ames, Iowa. 301 pp
Harris RJ (1975) A primer of multivariate statistics. Academic Press, New York
Hay ME, Duffy JE, Pfister CA, Fenical W (1987) Chemical defenses against different marine herbivores: are amphipods insect equivalents? Ecology 68:1567–1580
Howard RK (1982) Impact of feeding activities on epibenthic amphipods on surface fouling of eelgrass leaves. Aquat Bot 14:91–97
Howard RK, Short FT (1986) Seagrass growth and survivorship under the influence of epiphyte grazers. Aquat Bot 24:287–302
Hunter RD (1980) Effects of grazing on the quantity and quality of freshwater aufwachs. Hydrobiologia 69:251–259
Hutchinson GE (1975) A treatise on Limnology, vol. III, Limnological Botany. New York, Wiley-Interscience 660 p
Jacoby JM (1985) Grazing effects on periphyton by Theodoxus fluviatilis (Gastropoda) in a lowland stream. J Fresh Ecol 3:265–274
Kerfoot WC, Sih A (1987) Predation: direct and indirect impacts on aquatic communities. University Press of New England, Hanover, New Hampshire. 386 pp
Kitchell JF, Bartell SM, Carpenter SR, Hall DJ, McQueen DJ, Neill WE, Scavia D, Werner EE (1988) Epistemology, experiments, and pragmatism. Pages 263–280 in Carpenter SR (ed.), Complex interactions in lake communities. Springer-Verlag, New York. 283 pp
Leber KM (1985) The influence of predatory decapods, refuge and microhabitat selection on seagrass communities. Ecology 66:1951–1964
Lodge DM (1991) Herbivory on freshwater macrophytes. Aquat Bot 41:195–224
Lodge DM, Barko JW, Strayer D, Melack JM, Mittelbach GG, Howarth RW, Menge B, Titus JE (1988) Spatial heterogeneity and habitat interactions in lake communites. Pages 181–208 in Carpenter SR (ed.), Complex interactions in lake communities. Springer-Verlag, New York. 283 pp
Martin TH (1990) Direct and indirect effects of fish predation on fresh-water littoral benthos. Ph.D. Dissertation, North Carolina State University, Raleigh, NC
Martin TH, Johnson DM, Moore RD (1991) Fish-mediated alternative life-history strategies in the dragonfly Epitheca cynosura. J N Am Benthol Soc 10:271–279
Martin TH, Wright RW, Crowder LB (1989) Non-additive impact of blue crabs and spot on their prey assemblages. Ecology 70:1935–1942
Mittelbach GG (1981) Foraging efficiency and body size: a study of optimal diet and habitat use by bluegills. Ecology 62:1370–1386
Mittelbach GG (1984) Predation and resource partitioning in two sunfishes (Centrarchidae). Ecology 65:499–513
Mittelbach GG (1988) Competition among refuging sunfishes and effects of fish density on littoral zone invertebrates. Ecology 69:614–623
Nicotri ME (1977) Grazing effects of four marine intertidal herbivores on the microflora. Ecology 58:1020–1032
Orth RJ, van Montfrans J (1984) Epiphyte-seagrass relationships with an emphasis on the role of micrograzing: a review. Aquat Bot 18:43–70
Paine RT (1980) Food webs: linkage, interaction strength and community infrastructure. J Anim Ecol 49:667–685
Sand-Jensen K (1977) Effect of epiphytes on eelgrass photosyn-thesis. Aquat Bot 3:55–63
Sand-Jensen K, Borum J (1991) Interactions among phytoplankton, periphyton, and macrophytes in temperate freshwaters and estuaries. Aquat Bot 41:137–175
Sheldon SP (1987) The effects of herbivorous snails on submerged macrophyte communities in Minnesota lakes. Ecology 68:1920–1931
Sheldon SP (1990) More on freshwater snail herbivory: a reply to Brönmark. Ecology 71:1215–1216
Stein RA, Gosse Goodman C, Marschall EA (1984) Using time and energetic measures of cost in estimating prey value for fish predators. Ecology 65:702–715
van Montfrans J, Orth RJ, Vay SA (1982) Preliminary studies of grazing by Bittium varium on eelgrass periphyton. Aquat Bot 14:75–89
Werner EE, Gilliam JF (1984) The ontogenetic niche and species interactions in size-structured populations. Ann Rev Ecol Syst 15:393–426
Werner EE, Gilliam JF, Hall DJ, Mittelbach GG (1983) An experimental test of the effects of predation risk on habitat use. Ecology 64:1540–1548
Wetzel RG (1983) Limnology. Saunders, Philadelphia, Pennsylvania
Wetzel RG (1991) Land-water interfaces: Metabolic and limnological regulators. Verh Internat Verein Limnol 24:6–24
Wilbur RL (1969) The redear sunfish of Florida. Flodira Game and Freshwater Fish Comm, Fish Bull No. 5
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Martin, T.H., Crowder, L.B., Dumas, C.F. et al. Indirect effects of fish on macrophytes in Bays Mountain Lake: evidence for a littoral trophic cascade. Oecologia 89, 476–481 (1992). https://doi.org/10.1007/BF00317152
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00317152