Nicola S. Clayton scite author profile

Two experiments examined whether food-storing scrub jays (Aphelocoma coerulescens) could remember when they cached particular food items as well as what they cached and where. In Experiment 1, scrub jays cached and recovered perishable "wax worms" (wax moth larvae) and nonperishable peanuts in 2 visuospatially distinct and trial-unique trays. The birds searched preferentially for fresh wax worms if they had cached them 4 hr earlier but rapidly learned to search for peanuts and avoid decayed wax worms that had been cached 124 hr previously. This pattern also was observed when the food items were removed before recovery on test trials. These results were replicated in Experiment 2 using a procedure in which both types of food were cached in different sides of the same caching tray: On the basis of a single, trial-unique experience, scrub jays could remember the relative time of caching as well as what type of food was cached in each cache site.

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Replications in Comparative Cognition: What Should We Expect and How Can We Improve?

Farrar¹,

Boeckle²,

Clayton³

2020

AB&C

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Direct replication studies follow an original experiment's methods as closely as possible. They provide information about the reliability and validity of an original study's findings. The present paper asks what comparative cognition should expect if its studies were directly replicated, and how researchers can use this information to improve the reliability of future research. Because published effect sizes are likely overestimated, comparative cognition researchers should not expect findings with p-values just below the significance level to replicate consistently. Nevertheless, there are several statistical and design features that can help researchers identify reliable research. However, researchers should not simply aim for maximum replicability when planning studies; comparative cognition faces strong replicability-validity and replicability-resource trade-offs. Next, the paper argues that it may not even be possible to perform truly direct replication studies in comparative cognition because of: 1) a lack of access to the species of interest; 2) real differences in animal behavior across sites; and 3) sample size constraints producing very uncertain statistical estimates, meaning that it will often not be possible to detect statistical differences between original and replication studies. These three reasons suggest that many claims in the comparative cognition literature are practically unfalsifiable, and this presents a challenge for cumulative science in comparative cognition. To address this challenge, comparative cognition can begin to formally assess the replicability of its findings, improve its statistical thinking and explore new infrastructures that can help to form a field that can create and combine the data necessary to understand how cognition evolves.

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Memory Performance Influences Male Reproductive Success in a Wild Bird

et al. 2019

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Comparing the Complex Cognition of Birds and Primates

Emery

Clayton

2004

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Evolution of the avian brain and intelligence

2005

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Nicola S. Clayton

Scrub jays (Aphelocoma coerulescens) remember the relative time of caching as well as the location and content of their caches.

Replications in Comparative Cognition: What Should We Expect and How Can We Improve?

Memory Performance Influences Male Reproductive Success in a Wild Bird

Comparing the Complex Cognition of Birds and Primates

Evolution of the avian brain and intelligence

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