Community composition and nearest neighbor relationships in orb-weaving spiders: the product of aggression?

Abstract

Nearest-neighbor distances and species' densities were calculated for 949 individuals of 8 species of orb-weaving spiders from eight edge and meacow sites in Panama. These data were used to test the hypothesis that interspecific aggressive interactions influenced spider community structure by: (1) eliminating or decreasing the densities of sympatric, less aggressive species, or, (2) affecting nearest-neighbor relationships so that large or aggressive individuals had smaller, less aggressive or more distant neighbors. Although there was a negative relationship between the densities of two species pairs (Leucauge sp. and Mangora pia; Eriophora fuliginea and Cyclosa caroli), overall spider densities could not be predicted from indices of spider aggression obtained by introduction experiments. The spatial distribution of spiders in three dimensions was not significantly different than random. I attributed the lack of clumping to the relative vegetational homogeneity of my sites; the lack of overdispersion may reflect the fact that websites are not limiting. Relationships between nearest neighbors generally supported the aggression hypothesis, however, comparisons of the actual data with equivalent randomly-assorted data indicate that a hypothesis of randomly chosen neighborsis equally applicable. This result suggests that, unless websites differ significantly in their quality, with high quality websites in short supply, spider aggression may not affect community structure.