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1. Natural variation in developmental condition has limited effect on spatial cognition in a wild food-caching bird

   https://doi.org/10.1098/rspb.2022.1169  

   Sonnenberg, Benjamin R.; Heinen, Virginia K.; Pitera, Angela M.; Benedict, Lauren M.; Branch, Carrie L.; Bridge, Eli S.; Ouyang, Jenny Q.; Pravosudov, Vladimir V. (October 2022, Proceedings of the Royal Society B: Biological Sciences)

   Laboratory studies show that increased physiological burden during development results in cognitive impairment. In the wild, animals experience a wide range of developmental conditions, and it is critical to understand how variation in such conditions affects cognitive abilities later in life, especially in species that strongly depend on such abilities for survival. We tested whether variation in developmental condition is associated with differences in spatial cognitive abilities in wild food-caching mountain chickadees. Using tail feathers grown during development in juvenile birds, we measured feather corticosterone (Cort f ) levels and growth rates and tested these birds during their first winter on two spatial learning tasks. In only 1 of the 3 years, higher feather Cort f was negatively associated with memory acquisition. No significant associations between feather Cort f and any other measurement of spatial cognition were detected in the other 2 years of the study or between feather growth rate and any measurement of cognition during the entire study. Our results suggest that in the wild, naturally existing variation in developmental condition has only a limited effect on spatial cognitive abilities, at least in a food-caching species. This suggests that there may be compensatory mechanisms to buffer specialized cognitive abilities against developmental perturbations. 

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2. Food discovery is associated with different reliance on social learning and lower cognitive flexibility across environments in a food-caching bird

   https://doi.org/10.1098/rspb.2020.2843  

   Heinen, Virginia K.; Pitera, Angela M.; Sonnenberg, Benjamin R.; Benedict, Lauren M.; Bridge, Eli S.; Farine, Damien R.; Pravosudov, Vladimir V. (May 2021, Proceedings of the Royal Society B: Biological Sciences)

   Social learning is a primary mechanism for information acquisition in social species. Despite many benefits, social learning may be disadvantageous when independent learning is more efficient. For example, searching independently may be more advantageous when food sources are ephemeral and unpredictable. Individual differences in cognitive abilities can also be expected to influence social information use. Specifically, better spatial memory can make a given environment more predictable for an individual by allowing it to better track food sources. We investigated how resident food-caching chickadees discovered multiple novel food sources in both harsher, less predictable high elevation and milder, more predictable low elevation winter environments. Chickadees at high elevation were faster at discovering multiple novel food sources and discovered more food sources than birds at low elevation. While birds at both elevations used social information, the contribution of social learning to food discovery was significantly lower at high elevation. At both elevations, chickadees with better spatial cognitive flexibility were slower at discovering food sources, likely because birds with lower spatial cognitive flexibility are worse at tracking natural resources and therefore spend more time exploring. Overall, our study supported the prediction that harsh environments should favour less reliance on social learning. 

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3. Testing the greater male variability phenomenon: male mountain chickadees exhibit larger variation in reversal learning performance compared with females

   https://doi.org/10.1098/rspb.2020.0895  

   Branch, Carrie L.; Sonnenberg, Benjamin R.; Pitera, Angela M.; Benedict, Lauren M.; Kozlovsky, Dovid Y.; Bridge, Eli S.; Pravosudov, Vladimir V. (July 2020, Proceedings of the Royal Society B: Biological Sciences)

   null (Ed.)

   The greater male variability phenomenon predicts that males exhibit larger ranges of variation in cognitive performance compared with females; however, support for this pattern has come exclusively from studies of humans and lacks mechanistic explanation. Furthermore, the vast majority of the literature assessing sex differences in cognition is based on studies of humans and a few other mammals. In order to elucidate the underpinnings of cognitive variation and the potential for fitness consequences, we must investigate sex differences in cognition in non-mammalian systems as well. Here, we assess the performance of male and female food-caching birds on a spatial learning and memory task and a reversal spatial task to address whether there are sex differences in mean cognitive performance or in the range of variation in performance. For both tasks, male and female mean performance was similar across four years of testing; however, males did exhibit a wider range of variation in performance on the reversal spatial task compared with females. The implications for mate choice and sexual selection of cognitive abilities are discussed and future directions are suggested to aid in the understanding of sex-related cognitive variation. 

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4. Food-caching chickadees with specialized spatial cognition do not use scrounging as a stable strategy when learning a spatial task

   https://doi.org/10.1098/rspb.2023.0900  

   Heinen, Virginia K.; Pitera, Angela M.; Sonnenberg, Benjamin R.; Branch, Carrie L.; Benedict, Lauren M.; Welklin, Joseph F.; Whitenack, Lauren E.; Bridge, Eli S.; Pravosudov, Vladimir V. (July 2023, Proceedings of the Royal Society B: Biological Sciences)

   Social animals may use alternative strategies when foraging, with producer–scrounger being one stable dichotomy of strategies. While ‘producers’ search and discover new food sources, ‘scroungers’ obtain food discovered by producers. Previous work suggests that differences in cognitive abilities may influence tendencies toward being either a producer or a scrounger, but scrounging behaviour in the context of specialized cognitive abilities is less understood. We investigated whether food-caching mountain chickadees, which rely on spatial cognition to retrieve food caches, engage in scrounging when learning a spatial task. We analysed data from seven seasons of spatial cognition testing, using arrays of radio frequency identification-enabled bird feeders, to identify and quantify potential scrounging behaviour. Chickadees rarely engaged in scrounging, scrounging was not repeatable within individuals and nearly all scrounging events occurred before the bird learned the ‘producer’ strategy. Scrounging was less frequent in harsher winters, but adults scrounged more than juveniles, and birds at higher elevations scrounged more than chickadees at lower elevations. There was no clear association between spatial cognitive abilities and scrounging frequency. Overall, our study suggests that food-caching species with specialized spatial cognition do not use scrounging as a stable strategy when learning a spatial task, instead relying on learning abilities. 

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5. Spatial cognitive ability is associated with longevity in food-caching chickadees

   https://doi.org/10.1126/science.adn5633  

   Welklin, Joseph F; Sonnenberg, Benjamin R; Branch, Carrie L; Heinen, Virginia K; Pitera, Angela M; Benedict, Lauren M; Whitenack, Lauren E; Bridge, Eli S; Pravosudov, Vladimir V (September 2024, Science)

   Cognitive abilities are hypothesized to affect survival and life span in nonhuman animals. However, most tests of this hypothesis have relied on interspecific comparisons of indirect measures of cognitive ability, such as brain size. We present direct evidence that individual variation in cognitive abilities is associated with differences in life span in a wild food caching bird. We measured the spatial cognitive abilities and tracked the life span of 227 mountain chickadees (Poecile gambeli) in their natural environment and found that individuals with better spatial learning and memory abilities involved in food caching lived longer. These results confirm that enhanced cognitive abilities can be associated with longer life in wild animals and that selection on cognitive abilities can lead to increased life span. 

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