Direct and indirect benefits of cooperation in collective defense against predation

The evolution and maintenance of public goods cooperation, despite cheating, remains a key interest in social biology. Specifically, identifying how ecological factors determine the direct and indirect benefits that maintain cooperation has proven challenging, as these can vary significantly across species and environments. Here, we study this problem by using the social pine sawfly Neodiprion sertifer (Hymenoptera) as a model system. During their larval stage, N. sertifer live in groups and collectively secrete a defensive fluid against predators. This behavior comprises a public good as it is costly to exhibit and beneficial to others, and individuals vary in their contribution to group defense. We experimentally manipulated individual contributions to defense to assess how these influence individual survival. Our results indicate that defense has a group-level benefit as individuals were more likely to survive in cooperative groups that had a higher proportion of defending larvae. Moreover, being able to deploy defensive fluid confers direct survival benefits to individuals, regardless of group cooperativeness. Genetic and phenotypic analysis of natural populations further shows that kin selection promotes collective defense, as groups of larvae are often composed of full siblings. We also find that contribution to defense is female-biased and diminishes in male-biased and in larger groups, indicating that individuals adjust their contributions based on the social context. Overall, we find that cooperation in anti-predator defense provides both direct and indirect benefits and that individuals regulate their contributions mainly based on the social environment, resulting in variation within and among natural populations.