The Social Structure of Inachus phalangium, a Spider Crab Associated with the Sea Anemone

and Summary The behaviour of the spider crab Inachus phalangium (Fabricius, 1775), which lives in association with the sea anemone Anemonia sulcata (Pennant), was studied in the field. The crab was found in the littoral zone of the Mediterranean Sea near Banyuls sur Mer, France, in the whole depth range studied (0.5–25 m). The crabs had a long‐lasting association with individual Anemonia sulcata , occasionally with Aiptasia mutabilis. Most crabs were found in association with the same anemone for several days, some crabs were found in association with the same anemone for longer than one month. In the areas studied, on average 65 Inachus phalangium were found on 100 anemones. Crabs released in the vicinity of anemones moved towards them and entered them. Inachus phalangium could walk between the tentacles of Anemonia sulcata and Aiptasia mutabilis without eliciting feeding reactions of the anemone. The crabs left the anemones for moulting. After moulting masking material was removed from the exuvia and used again. The animals returned into an anemone while still soft. Material used for masking, usually algae, could be picked off the body and eaten. Masking material may be a food reservoir in addition to providing camouflage. Anemones were left only during night‐time. The crabs left their anemone to moult, to feed in the vicinity, fleeing from larger conspecifics, and to migrate to a different anemone. Outside the anemone's protection Inachus was eaten by several species of fish. Individuals appeared to avoid each other. 57% of all animals were found alone on an anemone. Large males and females were more frequently found alone than were small males and females. Fights were observed between members of the same and of the opposite sex. During fights, legs and claws could be torn off. Adult males migrated more often between anemones and moved over larger distances when migrating than did adult females. Adult males probably migrated in search of sexually mature females. Such a roving strategy is evolutionarily stable only when the higher costs (in terms of energy expenditure and mortality) are compensated for by a higher number of offspring than produced in the alternative, pair‐bonding strategy.