Higher ploidy is associated with reduced range breadth in the Potentilleae tribe.

PREMISE OF THE STUDY: Polyploids are predicted to have greater niche breadth and larger ranges than diploids because of higher ecological tolerances, self-compatibility, and increased genetic variation. However, empirical support for this prediction is mixed, and most studies compare diploids and polyploids, rather than accounting for quantitative variation in ploidy. We test the prediction that species of higher ploidy have greater range breadth and abiotic breadth than those of lower ploidy. METHODS: We estimate range breadth (latitudinal range, altitudinal range, and range size) and abiotic breadth (range in temperature, precipitation, and ultraviolet-B irradiance) for 109 species in the Potentilleae tribe of Rosaceae. We assess the contribution of ploidy to variation in range breadth, while accounting for shared evolutionary history and time of species divergence using phylogenetic comparative methods. KEY RESULTS: Ploidy varied widely among species from 2× to 12×. Phylogenetic relatedness explained little of the variation in ploidy, range breadth, and abiotic breadth. Transitions to higher ploidy were associated with reduced latitudinal and altitudinal ranges, smaller overall range size, and reduced abiotic breadth for temperature and UV-B. CONCLUSIONS: In contrast to predictions, this study shows that transitions to higher ploidy are associated with reduced range size and abiotic breadth. It also highlights the importance of considering continuous variation in ploidy when evaluating ecological correlates with ploidy. We discuss how genome duplication may contribute to the observed negative relationship between ploidy and range breadth.

Cuticular bacteria appear detrimental to social spiders in mixed but not monoculture exposure.

Much of an animal's health status, life history, and behavior are dictated by interactions with its endogenous and exogenous bacterial communities. Unfortunately, interactions between hosts and members of their resident bacterial community are often ignored in animal behavior and behavioral ecology. Here, we aim to identify the nature of host-microbe interactions in a nonmodel organism, the African social spider Stegodyphus dumicola. We collected and identified bacteria from the cuticles of spiders in situ and then exposed spiders to bacterial monocultures cultures via topical application or injection. We also topically inoculated spiders with a concomitant "cocktail" of bacteria and measured the behavior of spiders daily for 24 days after inoculation. Lastly, we collected and identified bacteria from the cuticles of prey items in the capture webs of spiders, and then fed spiders domestic crickets which had been injected with these bacteria. We also injected 1 species of prey-borne bacteria into the hemolymph of spiders. Only Bacillus thuringiensis caused increased mortality when injected into the hemolymph of spiders, whereas no bacterial monocultures caused increased mortality when applied topically, relative to control solutions. However, a bacterial cocktail of cuticular bacteria caused weight loss and mortality when applied topically, yet did not detectibly alter spider behavior. Consuming prey injected with prey-borne bacteria was associated with an elongated lifespan in spiders. Thus, indirect evidence from multiple experiments suggests that the effects of these bacteria on spider survivorship appear contingent on their mode of colonization and whether they are applied in monoculture or within a mixed cocktail. We urge that follow-up studies should test these host-microbe interactions across different social contexts to determine the role that microbes play in colony performance.

Persistent social interactions beget more pronounced personalities in a desert-dwelling social spider.

The social niche specialization hypothesis predicts that repeated social interactions will generate social niches within groups, thereby promoting consistent individual differences in behaviour. Current support for this hypothesis is mixed, probably because the importance of social niches is dependent upon the ecology of the species. We test whether repeated interactions among group mates generate consistent individual differences in boldness in the social spider, Stegodyphus dumicola. In support of the social niche specialization hypothesis, we found that consistent individual differences in boldness increased with longer group tenure. Interestingly, these differences took longer to appear than in previous work suggesting this species needs more persistent social interactions to shape its behaviour. Recently disturbed colonies were shyer than older colonies, possibly reflecting differences in predation risk. Our study emphasizes the importance of the social environment in generating animal personalities, but also suggests that the pattern of personality development can depend on subtle differences in species' ecologies.