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1. Geographic variation in individual face learning based on plasticity rather than local genetic adaptation in Polistes wasps

   https://doi.org/10.1093/beheco/arad100  

   Simons, Meagan; Green, Delbert A; Tibbetts, Elizabeth A (January 2024, Behavioral Ecology)

   While, Geoffrey (Ed.)

   Abstract Signals and receiver responses often vary across a species’ geographic range. Effective communication requires a match between signal and receiver response, so there is much interest in the developmental mechanisms that maintain this link. Two potential mechanisms are genetic covariance between signal and receiver response and plasticity where individuals adjust their phenotype based on their partner’s phenotype. Here, we test how plasticity contributes to geographic variation in individual face recognition in Polistes fuscatus wasps. Previous work has shown that P. fuscatus from Michigan, USA (MI) have variable facial patterns used for individual recognition, while P. fuscatus from central Pennsylvania, USA (PA) lack variable facial patterns and are unable to learn individual conspecifics. We experimentally altered rearing environment, so wasps were either reared with their own population or in a common garden with wasps from both populations. Then, we tested the wasps’ capacity to learn and remember individual conspecific faces. Consistent with previous work, MI wasps reared with MI wasps were adept at learning conspecific faces, while PA wasps reared with PA wasps were unable to learn conspecific faces. However, MI and PA wasps reared in a common garden developed similar, intermediate capacity for individual face learning. These results indicate that individual face learning in Polistes wasps is highly plastic and responsive to the social environment. Plasticity in receiver responses may be a common mechanism mediating geographic differences in non-sexual signaling systems and may play a role in maintaining links between signals and receiver responses in geographically variable communication systems. 

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2. Evidence for a selective link between cooperation and individual recognition

   https://doi.org/10.1016/j.cub.2023.11.032  

   Tumulty, James P; Miller, Sara E; Van_Belleghem, Steven M; Weller, Hannah I; Jernigan, Christopher M; Vincent, Sierra; Staudenraus, Regan J; Legan, Andrew W; Polnaszek, Timothy J; Uy, Floria MK; et al (December 2023, Current Biology)

   The ability to recognize others is a frequent assumption of models of the evolution of cooperation. At the same time, cooperative behavior has been proposed as a selective agent favoring the evolution of individual recognition abilities. Although theory predicts that recognition and cooperation may co-evolve, data linking recognition abilities and cooperative behavior with evidence of selection are elusive. Here, we provide evidence of a selective link between individual recognition and cooperation in the paper wasp Polistes fuscatus through a combination of clinal, common garden, and population genomics analyses. We identified latitudinal clines in both rates of cooperative nesting and color pattern diversity, consistent with a selective link between recognition and cooperation. In behavioral experiments, we replicated previous results demonstrating individual recognition in cooperative and phenotypically diverse P. fuscatus from New York. In contrast, wasps from a less cooperative and phenotypically uniform Louisiana population showed no evidence of individual recognition. In a common garden experiment, groups of wasps from northern populations formed more stable and individually biased associations, indicating that recognition facilitates group stability. The strength of recent positive selection on cognition-associated loci likely to mediate individual recognition is substantially greater in northern compared with southern P. fuscatus populations. Collectively, these data suggest that individual recognition and cooperative nesting behavior have co-evolved in P. fuscatus because recognition helps stabilize social groups. This work provides evidence of a specific cognitive phenotype under selection because of social interactions, supporting the idea that social behavior can be a key driver of cognitive evolution. 

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3. Evolutionary dynamics of recent selection on cognitive abilities

   https://doi.org/10.1073/pnas.1918592117  

   Miller, Sara E.; Legan, Andrew W.; Henshaw, Michael T.; Ostevik, Katherine L.; Samuk, Kieran; Uy, Floria M.; Sheehan, Michael J. (February 2020, Proceedings of the National Academy of Sciences)

   Cognitive abilities can vary dramatically among species. The relative importance of social and ecological challenges in shaping cognitive evolution has been the subject of a long-running and recently renewed debate, but little work has sought to understand the selective dynamics underlying the evolution of cognitive abilities. Here, we investigate recent selection related to cognition in the paper wasp Polistes fuscatus —a wasp that has uniquely evolved visual individual recognition abilities. We generate high quality de novo genome assemblies and population genomic resources for multiple species of paper wasps and use a population genomic framework to interrogate the probable mode and tempo of cognitive evolution. Recent, strong, hard selective sweeps in P. fuscatus contain loci annotated with functions in long-term memory formation, mushroom body development, and visual processing, traits which have recently evolved in association with individual recognition. The homologous pathways are not under selection in closely related wasps that lack individual recognition. Indeed, the prevalence of candidate cognition loci within the strongest selective sweeps suggests that the evolution of cognitive abilities has been among the strongest selection pressures in P. fuscatus ’ recent evolutionary history. Detailed analyses of selective sweeps containing candidate cognition loci reveal multiple cases of hard selective sweeps within the last few thousand years on de novo mutations, mainly in noncoding regions. These data provide unprecedented insight into some of the processes by which cognition evolves. 

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4. Does Explaining Social Behavior Require Multiple Memory Systems?

   https://doi.org/doi.org/10.1016/j.tics.2019.02.001  

   Van Dessel, Pieter; Gawronski, Bertram; De Houwer, Jan (January 2019, Trends in cognitive sciences)

   Amodio argues that social cognition research has for many decades relied on imprecise dual-process models that build on questionable assumptions about how people learn and represent information. He presents an alternative framework for explaining social behavior as the product of multiple dissociable memory systems, based on the idea that cognitive neuroscience has revealed evidence for the existence of separate systems underlying distinct forms of learning and memory. Although we applaud Amodio’s attempt to build bridges between social cognition, learning psychology, and neuroscience, we believe that his interactive memory systems model rests on shaky grounds. In our view, the most significant limitation is the idea that behavioral dissociations provide strong evidence for multiple memory systems with functionally distinct learning mechanisms. A major problem with this idea is that behavioral dissociations can arise from processes during the retrieval and use of stored information, which does not require any assumptions about distinct memory systems or distinct forms of learning. 

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5. The Evolution of Cognitive Control in Lemurs

   https://doi.org/10.1177/09567976221082938  

   De Petrillo, Francesca; Nair, Parvathy; Cantwell, Averill; Rosati, Alexandra G. (September 2022, Psychological Science)

   Cognitive control, or executive function, is a key feature of human cognition, allowing individuals to plan, acquire new information, or adopt new strategies when the circumstances change. Yet it is unclear which factors promote the evolution of more sophisticated executive-function abilities such as those possessed by humans. Examining cognitive control in nonhuman primates, our closest relatives, can help to identify these evolutionary processes. Here, we developed a novel battery to experimentally measure multiple aspects of cognitive control in primates: temporal discounting, motor inhibition, short-term memory, reversal learning, novelty responses, and persistence. We tested lemur species with targeted, independent variation in both ecological and social features (ruffed lemurs, Coquerel’s sifakas, ring-tailed lemurs, and mongoose lemurs; N = 39) and found that ecological rather than social characteristics best predicted patterns of cognitive control across these species. This highlights the importance of integrating cognitive data with species’ natural history to understand the origins of complex cognition. 

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