Summary
This study focuses on ways that the size distribution of individuals influences the types and intensities of competitive interactions within a population of aquatic arthropod predators. Three field experiments and one laboratory experiment were designed to test for feeding interference, interference mortality, and dispersal effects within and between larval size classes of the primarily semivoltine dragonfly Tetragoneuria cynosura in Bays Mountain Lake. One field experiment documented the temporal pattern of colonization of large-mesh cylinders by the small, first-year-class larvae during a 30-day period; the results are consistent with passive (density-independent) colonization. A second field experiment examined the effect of large, second-year-class larvae at densities of 1 or 3 per cylinder (14 or 42 m-2) on colonization by small larvae; this colonization was inhibited at the high density of large larvae. In the laboratory experiment, when larvae of the two size-classes were together in the same aquarium, small larvae moved around less than when by themselves (dispersal inhibition). Thus the inhibition of colonization observed in the field may result from interference mortality, rather than from a flight response to the presence of larger conspecifics.
To evaluate this interpretation, the third field experiment measured the in-situ functional response of large larvae to each other and to their small conspecific prey. Results suggest a type 1 (linear) functional response, with feeding inteference among large larvae. Moreover, the interference mortality inflicted by larger larvae on smaller conspecifics was apparently more intense on larger individuals within the small size-class. Taken together, the three field experiments and a statistical power analysis show how colonization and interference interact to determine the local density of small larvae, and why such interference effects are difficult to detect experimentally in the field.
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References
Allan JD (1984) Hypothesis testing in ecological studies of aquatic insects. In: Resh VH, Rosenberg DM (eds) The ecology of aquatic insects. Praeger Publ., New York, pp 484–507
Anderson RO (1959) A modified technique for sorting bottom fauna samples. Limnol Oceanogr 4:223–225
Baker RL (1980) Use of space in relation to feeding areas by zygopteran nymphs in captivity. Can J Zool 58:1060–1065
Baker RL (1981) Behavioural interactions and use of feeding areas by nymphs of Coenagrion resolutum (Coenagrionidae: Odonata). Oecologia (Berlin) 49:353–358
Benke AC (1976) Dragonfly production and prey turnover. Ecology 57:915–927
Benke AC (1978) Interactions among coexisting predators — a field experiment with dragonfly larvae. J Anim Ecol 47:335–350
Benke AC, Crowley PH, Johnson DM (1982) Interactions among coexisting larval Odonata: an in situ experiment using small enclosures. Hydrobiol 94:121–130
Corbet PS (1980) Biology of Odonata. Ann Rev Entomol 25:189–217
Crowley PH, Johnson DM (1982) Habitat and seasonality as niche axes in an odonate community. Ecology 63:1064–1077
Crowley PH, Pierce CL, Johnson DM, Bohanan RE (1983) An enclosure for experimental manipulation of lentic littoral and benthic communities. J Freshwat Ecol 2:59–66
Crowley PH, Nisbet RM, Gurney WSC, Lawton JH (1987) Population regulation in animals with complex life-histories: Formulation and analysis of a demselfly model. Advan Ecol Res (in press)
Elton CS, Miller RS (1954) The ecological survey of animal communities with a practical system of classifying habitats by structural characters. J Ecol 42:460–496
Gill JL (1978a) Design and analysis of experiments in the animal and medical sciences, vol. 1. Iowa State Univ. Press, Ames, Iowa
Gill JL (1978b) Design and analysis of experiments in the animal and medical sciences, vol. 3. Iowa State Univ. Press, Ames, Iowa
Hall DJ, Cooper WE, Werner EE (1970) An experimental approach to the production dynamics and structure of freshwater animal communities. Limnol Oceanogr 15:839–928
Hurlbert SH (1984) Pseudoreplication and the design of ecological field experiments. Ecol Monogr 54:187–211
Ingram BR, Jenner CE (1976) Influence of photoperiod and temperature on development time and number of molts in nymphs of two species of Odonata. Can J Zool 54:2033–2045
Johannsson OE (1978) Co-existence of larval Zygoptera (Odonata) common to the Norfolk Broads (U.K.). Oecologia (Berlin) 32:303–321
Johnson DM (1986) The life history of Tetragoneuria cynosura (Anisoptera: Corduliidae) in Bays Mountain Lake. Odonatologica
Johnson DM, Crowley PH (1980) Habitat and seasonal segregation among coexisting odonate larvae. Odonatologica 9:297–308
Johnson DM, Akre BG, Crowley PH (1975) Modeling arthropod predation: wasteful killing by damselfly naiads. Ecology 56:1081–1093
Johnson DM, Coney CC, Westfall MJ Jr (1980) The Odonata of Bays Mountain Park, Sullivan County, Tennessee. J Tenn Acad Sci 55:73–76
Johnson DM, Crowley PH, Bohanan RE, Watson CN, Martin TH (1985) Competition among larval dragonflies: a field enclosure experiment. Ecology 66:119–128
Johnson DM, Pierce CL, Martin TH, Watson CN, Bohanan RE, Crowley PH (1987) Prey depletion by odonate larvae: combining evidence from multiple field experiments. Ecology (in press)
Kennedy CH (1922) The ecological relationships of the dragonflies of the Bass Islands of Lake Erie. Ecology 3:325–336
Kormondy EJ, Gower JL (1965) Life history variations in an association of Odonata. Ecology 46:882–886
Lawton JH, Thompson BA, Thompson DJ (1980) The effects of prey density on survival and growth of damselfly larvae. Ecol Entomol 5:39–51
MacArthur RH, Wilson EO (1967) The theory of island biogeography. Princeton Univ. Press, Princeton, N.J.
Martin TH (1986) The diets of redear and bluegill sunfish in Bays Mountain Lake. M.S. thesis, E. Tenn. State Univ., Johnson City Tenn
McPeek MA, Crowley PH (1987) The effects of density and relative size on the aggressive behaviour, movement, and feeding of damselfly larvae (Odonata: Coenagrionidae). Anim Behav (in press)
Merrill RJ, Johnson DM (1984) Dietary niche overlap and mutual predation among coexisting larval Anisoptera. Odonatologica 13:387–406
Moore RD (1985) Exploitation competition between small bluegill sunfish and Tetragoneuria cynosura (Odonata: Anisoptera) larvae in the littoral zone of Bays Mountain Lake. M.S. thesis, E. Tenn. State Univ., Johnson City, Tenn
Morin PJ (1984) The impact of fish exclusion on the abundance and species composition of larval odonates: results of shortterm experiments in a North Carolina farm pond. Ecology 65:53–60
Murdoch WW, Sih A (1978) Age-dependent interference in a predatory insect. J Anim Ecol 47:581–592
Norling U (1976) Seasonal regulation in Leucorrhinia dubia (Vander Linden). Odonatologica 5:245–263
Norling U (1984) The life cycle and larval photoperiodic responses of Coenagrion hastulatum (Carpentier) in two climatically different areas (Zygoptera: Coenagrionidae). Odonatologica 13:429–449
Park T (1954) Experimental studies of interspecies competition. II. Temperature, humidity and competition in two species of Tribolium. Physiol Zool 27:177–238
Parr MJ (1970) The life histories of Ischnura elegans (Vander Linden) and Coenagrion puella (L.) (Odonata) in south Lancashire. Proc R Ent Soc Lond (A) 45:172–181
Peckarsky BL (1979) Biological interactions as determinants of distributions of benthic invertebrates within the substrate of stony streams. Limnol Oceanogr 24:59–68
Pickup J, Thompson DJ (1984) The effects of prey density and temperature on development of larvae of the damselfly Lestes spons (Hans.) (Zyoptera: Lestidae). Adv Odonatol 2:169–176
Pierce CL, Crowley PH, Johnson DM (1985) Behavior and ecological interactions of larval Odonata. Ecology 66:1504–1512
Polis GA (1981) The evolution and dynamics of intraspecific predation. Ann Rev Ecol Syst 12:225–251
Rogers DJ (1972) Random search and insect population models. J Anim Ecol 41:369–383
Rowe RJ (1980) Territorial behavior of a larval dragonfly Xanthocnemis zealandica (McLachlan) (Zygoptera: Coenagrionidae). Odonatologica 9:285–292
Rowe RJ (1985) Site occupation and predatory activity in the larva of Xanthocnemis zealandica (Odonata: Coenagrionidae) with notes on other species. Ph.D. dissertation, Univ. of Canterbury, Christchurch, New Zealand
SAS Institute, Inc. 1982. SAS user's guide: statistics, 1982 edition. SAS Institute, Inc., Cary N.C.
Schoener TW (1974) Resource partitioning in ecological communities. Science 185:27–39
Schoener TW (1977) Competition and the niche. Chap. 2. In: Gans C, Tinkle DW (eds) Biology of the Reptilia. Ecology and behaviour A, vol. 7. Academic Press, New York, pp 35–136
Sih A, Crowley PH, McPeek MA, Petranka J, Strohmeier K (1985) Predation, competition, and prey communities: a review of field experiments. Ann Rev Ecol Syst 16:269–311
Sherk TE (1977) Development of the compound eyes of dragonflies (Odonata). I. Larval compound eyes. J exp Zool 201:391–416
Thorp J, Cothran M (1984) Regulation of fresh-water community structure at multiple intensities of dragonfly predation. Ecology 65:1546–1555
Toft CA, Shea PJ (1983) Detecting community-wide patterns: estimating power strengthens statistical inference. Am Nat 122:618–625
Uttley MG (1980) A laboratory study of mutual interference between freshwater invertebrate predators. D. Phil. dissertation, Univ. of York, Heslington, York, England
Werner EE, Gilliam JF (1984) The ontogenetic niche and species interactions in size-structured populations. Ann Rev Ecol Syst 15:393–425
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Crowley, P.H., Dillon, P.M., Johnson, D.M. et al. Intraspecific interference among larvae in a semivoltine dragonfly population. Oecologia 71, 447–456 (1987). https://doi.org/10.1007/BF00378720
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DOI: https://doi.org/10.1007/BF00378720