Female clustering in cockroach aggregations—A case of social niche construction?
New paper by Dr Stanley at the University of Chester, from work partly done while undertaking her PhD in the Preziosi lab when it was based at the University of Manchester.
Scientific American have written a short piece about the main findings here.
You find the article online here or download it here.
Abstract
Individuals in groups can suffer costs through interactions with adversarial or unknown conspecifics. Social niche construction allows individuals to buffer such potential costs by only engaging in preferred associations. This may be particularly beneficial in insect aggregations, which are often large and highly fluid. However, little is known regarding the structuring of such aggregations. Here we use social network analyses to test for fine‐scale social structure in resting aggregations of the sub‐social cockroach Diploptera punctata and to explore the social pressures that contribute towards such structure. We showed that females were significantly more gregarious than males and formed the core of the proximity network, thus demonstrating a higher level of social integration. This fine‐scale structure is likely to result from females displacing males; females initiated most displacements whilst males received the majority. We explain this behaviour in terms of social niche construction by showing that females received significantly fewer approaches and investigations at more female‐biased local sex ratios. We therefore suggest that female social clustering occurs in this, and presumably other, species to reduce potential costs associated with male harassment. This demonstrates how social niche construction can lead to higher level social structure; we suggest this approach could be used across a range of species in order to improve our understanding of the evolution of sociality.
Reference
Stanley, C. R. et al (2018). Female clustering in cockroach aggregations—A case of social niche construction? Ethology, 124 (10): Pages 706-718