Abstract
ABSTRACTZebrafish have become a useful model for studying behavior and cognitive functions. Recent studies have shown that zebrafish have natural color preference and the ability to form associative memories with visual perception. It is well known that visual perception enhances memory recall in humans, and we suggest that a similar phenomenon occurs in zebrafish. This study proposes that adding a visual perception component to a conventional reward method would enhance memory recall in zebrafish. We found that zebrafish showed greater preference for red cellophane over yellow in the training session but could not remember the preferred place in the memory test. However, the test memory recall was greater when the zebrafish were exposed to the red cellophane with a food reward during the training session, when compared with the use of food reward only. Furthermore, the red cellophane with food reward group showed more predictable memory recall than the food reward only group. These results propose that visual perception can increase memory recall by enhancing the consolidation processes. We suggest that color-cued learning with food reward is a more discriminative method than food reward alone for examining the cognitive changes in the zebrafish.Abbreviations: WM: working memory; LTM: long-term memory
Highlights
Utilitarian models have been developed using zebrafish for studying cognitive functions and behavior (Levin and Chen 2004; Liu et al 2012; Collier et al 2014)
This idea was challenged by Sison and Gerlai (2010) who found that zebrafish have the ability to form associative memory with visual perception, even though synesthesia was not demonstrated
We evaluated whether zebrafish recognized colors using colored cellophane
Summary
Utilitarian models have been developed using zebrafish for studying cognitive functions and behavior (Levin and Chen 2004; Liu et al 2012; Collier et al 2014). Different perceptions can synergistically affect the consolidation of LTM. This effect is referred to as synesthesia or chromesthesia (Presti 2015). Associative memory related to synesthesia has not been studied in the zebrafish model because of the belief that zebrafish lack complex brain processes due to the absence of the hippocampus. This idea was challenged by Sison and Gerlai (2010) who found that zebrafish have the ability to form associative memory with visual perception, even though synesthesia was not demonstrated
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