New evidence on an old question: Is the “fight or flight” stage present in the cardiac and respiratory regulation of decapod crustaceans?

Publication date: Available online 16 September 2014 Source:Journal of Physiology-Paris Author(s): Eliana M. Canero , Gabriela Hermitte The ability to stay alert to subtle changes in the environment and to freeze, fight or flight in the presence of predators requires integrating sensory information as well as triggering motor output to target tissues, both of which are associated with the autonomic nervous system. These reactions, which are commonly related to vertebrates, are the fundamental physiological responses that allow an animal to survive danger. The circulatory activity in vertebrates changes in opposite phases. The stage where circulatory activity is high is termed the “fight or flight stage”, while the stage where circulatory activity slows down is termed the “rest and digest stage”. It may be assumed that highly evolved invertebrates possess a comparable response system as they also require rapid cardiovascular and respiratory regulation to be primed when necessary. However, in invertebrates, the body plan may have developed such a system very differently. Since this topic is insufficiently studied, it is necessary to extend studies for a comparative analysis. In the present review, we use our own experimental results obtained in the crab Neohelice granulata and both older and newer findings obtained by other authors in decapod crustaceans as well as in other invertebrates, to compare the pattern of change in circulatory activity, especially in the ...
Source: Journal of Physiology Paris - Category: Physiology Source Type: research