Summary
Results from field experiments indicate that predation occurs among spruce-living spiders during winter in SW Sweden. Field observations of natural activity showed that Philodromus spp and Pityohyphantes phrygianus together make up 80% of the spiders active on spruce in winter. They are therefore potential predators on other overwintering spiders. Laboratory experiments were performed at +4° C to assess the importance of such predation between spiders. Small spiders (length <2.5 mm) had a mean winter mortality of 58% when kept together with large spiders (≧2.5 mm) which had a mean mortality of 3% only. Among the small spiders the Erigninae spp seemed to be more vulnerable to predation than other taxonomic groups. Predation also occurred when large P. phrygianus were kept together, but such predation caused mortality of less importance to the spider populations than the mortality among small spiders. Differences in spider density and food availability did not change this pattern. Considerable weight increase occurred in subadult P. phrygianus when fed during winter. This suggests that winter foraging specimens increase their fitness. Interspecific predation among spiders is suggested to be an important mortality factor in natural populations at high spider densities in November and December, when the ambient temperature often is above 0° C and when the density of large spiders is not yet substantially reduced by bird predation.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Anderson JF (1974) Responses to starvation in the spiders Lycosa lenta Hentz and Filistata hibernalis (Hentz). Ecology 55:576–585
Askenmo C, von Brömssen A, Ekman J, Jansson C (1977) Impact of some wintering birds on spider abundance in spruce. Oikos 28:90–94
Avery MI, Krebs JR (1984) Temperature and foraging success of Great Tits Parus major hunting for spiders. Ibis 126:33–38
Gunnarsson B (1983) Winter mortality of spruce-living spiders: effect of spider interactions and bird predation. Oikos 40:226–233
Harrington CL (1978) Field studies on reproduction in the funnel-web spider Agelenopsis potteri (Araneae: Agelenidae). Oikos 31:368–375
Janetos AC (1982 a) Foraging Tactics of Two Guilds of Web-Spinning Spiders. Behav Ecol Sociobiol 10:19–27
Janetos AC (1982 b) Active Foragers vs. Sit-and-wait Predators: a Simple Model. J Theor Biol 95:381–385
Jansson C, von Brömssen A (1981) Winter decline of spiders and insects in spruce Picea abies and its relation to predation by birds. Holarct Ecol 4:82–93
Norberg RÅ (1978) Energy content of some spiders and insects on branches of spruce (Picea abies) in winter; prey of certain passerine birds. Oikos 31:222–229
Riechert SE, Tracy CR (1975) Thermal balance and prey availability: bases for a model relating web-site characteristics to spider reproductive success. Ecology 56:265–284
Siegel S (1956) Nonparametric statistics for the behavioral sciences. McGraw-Hill Kogakusha, Tokyo
Tauber MJ, Tauber CA (1976) Insect seasonality: diapause maintenance, termination, and postdiapause development. Ann Rev Ent 21:81–107
Turnbull AL (1962) Quantitative Studies of the Food of Linyphia triangularis Clerck (Araneae: Linyphiidae). Can Entomol 94:1233–1249
Wise DH (1975) Food limitation of the spider Linyphia marginata: experimental field studies. Ecology 56:637–646
Wise DH (1979) Effects of an Experimental Increase in Prey Abundance Upon the Reproductive Rates of Two Orb-Weaving Spider Species (Araneae: Araneidae). Oecologia (Berlin) 41:289–300
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Gunnarsson, B. Interspecific predation as a mortality factor among overwintering spiders. Oecologia 65, 498–502 (1985). https://doi.org/10.1007/BF00379663
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00379663