Testing for collective choices in the two-spotted spider mite.

Silk is a vector for collective behaviour in many spinning arthropods, including social spiders, social caterpillars, and some spider mites. In this study, the potential for silk-mediated collective choices is evaluated for the two-spotted spider mite Tetranychus urticae. This subsocial mite lives in large colonies on plants, sheltered under a collectively spun silk web. The silk has an attractive and arresting effect. We test whether the silk trails left by the spider mites can give rise to the collective choice of a path. The experiment consists in offering two identical paths to a group of migrating mites. Our results show that the presence of a silk trail influences the mites, but not sufficiently to systematically provoke a collective choice. In order to determine the trail following potential of T. urticae, we parameterise a theoretical trail following model to fit our experiments and those found in the literature. Our prediction is that even after a large number of mites have passed (200), a systematic collective choice of path should not be expected under the tested conditions. Our results, combined with what is known from the literature, allow us to propose a general scenario for the dispersal behaviour of T. urticae.