AI Article Synopsis
- - Scientists typically focus on a few behaviors in animal studies, but this research proposes a new method to study multiple behaviors simultaneously across various species of fruit flies.
- - The researchers measured different stereotyped movements in six fruit fly species and used statistical models to analyze behavioral similarities within and between species, as well as ancestral behaviors.
- - The findings suggest that variations in individual fly behavior are linked to differences in neural network status rather than genetics, also highlighting how groups of behaviors may evolve together, paving the way for deeper insights into behavioral evolution.
Article Abstract
Although different animal species often exhibit extensive variation in many behaviors, typically scientists examine one or a small number of behaviors in any single study. Here, we propose a new framework to simultaneously study the evolution of many behaviors. We measured the behavioral repertoire of individuals from six species of fruit flies using unsupervised techniques and identified all stereotyped movements exhibited by each species. We then fit a Generalized Linear Mixed Model to estimate the intra- and inter-species behavioral covariances, and, by using the known phylogenetic relationships among species, we estimated the (unobserved) behaviors exhibited by ancestral species. We found that much of intra-specific behavioral variation has a similar covariance structure to previously described long-time scale variation in an individual's behavior, suggesting that much of the measured variation between individuals of a single species in our assay reflects differences in the status of neural networks, rather than genetic or developmental differences between individuals. We then propose a method to identify groups of behaviors that appear to have evolved in a correlated manner, illustrating how sets of behaviors, rather than individual behaviors, likely evolved. Our approach provides a new framework for identifying co-evolving behaviors and may provide new opportunities to study the mechanistic basis of behavioral evolution.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8445618 | PMC |
| http://dx.doi.org/10.7554/eLife.61806 | DOI Listing |
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