Abstract

Simple SummaryIt is difficult to measure animal intelligence because the definition of ‘intelligence’ varies, and many animals are good at specific tasks used to measure intelligence or cognition. To address this, scientists often look for evidence of common cognitive abilities. One such ability, the ability to learn concepts, is thought to be rare in animals, especially invertebrates. Concepts include the ideas of ‘same’ and ‘different’. These concepts can be applied to anything in the environment while also being independent of those objects and can help animals understand and survive their environment. Amblypygids, a relative of spiders, live in tropical and subtropical areas, are very good learners, and have a large, complex brain region known to process information from multiple senses. We tested whether amblypygids could learn the concept of ‘same’ by training them to move toward a stimulus that matched with an initial stimulus. We also trained some individuals to learn the concept ‘different’ by training them to move toward a non-matching stimulus. When we used new stimuli, the amblypygids did not move toward the correct stimulus significantly more often than the incorrect stimulus, suggesting either they are unable to learn these higher-order concepts or our experimental design failed to elicit that ability.Comparative cognition aims to understand the evolutionary history and current function of cognitive abilities in a variety of species with diverse natural histories. One characteristic often attributed to higher cognitive abilities is higher-order conceptual learning, such as the ability to learn concepts independent of stimuli—e.g., ‘same’ or ‘different’. Conceptual learning has been documented in honeybees and a number of vertebrates. Amblypygids, nocturnal enigmatic arachnids, are good candidates for higher-order learning because they are excellent associational learners, exceptional navigators, and they have large, highly folded mushroom bodies, which are brain regions known to be involved in learning and memory in insects. In Experiment 1, we investigate if the amblypygid Phrynus marginimaculatus can learn the concept of same with a delayed odor matching task. In Experiment 2, we test if Paraphrynus laevifrons can learn same/different with delayed tactile matching and nonmatching tasks before testing if they can transfer this learning to a novel cross-modal odor stimulus. Our data provide no evidence of conceptual learning in amblypygids, but more solid conclusions will require the use of alternative experimental designs to ensure our negative results are not simply a consequence of the designs we employed.

Highlights

  • Cognition and learning are complex behaviors that are difficult to define [1,2,3,4]

  • Given our experimental design, we found no evidence that amblypygids are capable of higher-order learning of the concepts of same and different

  • We think it is possible that these findings are the result of inadequate training protocols [15] rather than an inability of amblypygids to exhibit conceptual learning

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Summary

Introduction

Cognition and learning are complex behaviors that are difficult to define [1,2,3,4]. This makes levels of cognition and learning difficult to measure and especially difficult to compare among species. Extractive foraging problems, wherein an animal must problemsolve to extract a food reward, provide an opportunity to tease apart the many traits that underpin problem solving [8,9], while playback experiments demonstrate a vast array of social information animals perceive and incorporate into their decisions [10,11]. These experiments—predominantly focused on foraging or navigation—demonstrate impressive cognitive abilities, but many of them are domain-specific, meaning that they are not applied to new and varied problems. This is in contrast to human cognition, which has been argued to be domain-general ([12] see [13] for examples of domain-specific modules in human cognition)

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