Individual diet specialization in the spider Tidarren haemorrhoidale (Bertkau, 1880) (Theridiidae)

Data on the article "Individual diet specialization in the spider Tidarren haemorrhoidale (Bertkau, 1880) (Theridiidae)". First column presents spider identification (Spider_ID), second column is prey taxa (Prey_ID), and the third is prey length in mm (Prey_length). The abstract of the article is available below. To use the dataset, cite the article available on Ethology (Ethology - Wiley Online Library). Individual specialization (IS) in resource use is common within populations of several animal species because some individuals can be more efficient than others in obtaining specific food items. Spiders are usually classified as euryphagous predators, but broad diet of populations may result from many individuals specializing in capturing different types of prey. Empirical evidence supporting this pattern, however, is still scarce. In this study, we hypothesized that (1) the diet of individuals of Tidarren haemorrhoidale is more restricted than the population’s diet, and (2) individual diet restrictions are not determined by the spatial distribution of prey types. We collected prey remains of 74 webs of females in a conservation area of the Atlantic Forest. Our results indicated that T. haemorrhoidale could be considered an euryphagous predator because its diet comprised Opiliones, Diplopoda and eight orders of insects. However, spiders exhibited moderate and high degrees of IS for prey size and taxa, respectively. There was no modularity for both prey attributes in the food web, but there was a medium nestedness. Most individuals captured ants, but additional prey taxa were of different orders. There was no correlation between the dissimilarity of prey taxa and the distances between the webs, suggesting that IS did not occur based on the spatial distribution of their potential prey. The diversity of prey defensive strategies may induce spiders to perform specific behavioral routines after prey interception. If this occurs, cognitive constraints may limit their ability to use different capture routines efficiently. Our study supports the predictions of individual niche specialization theory for a euryphagous spider species and highlights the potential of spiders as a study model to investigate the underlying mechanisms.