Author: Salazar VL, Krahe R, Lewis JE.
Affiliation: Department of Biology, Cape Breton University, Sydney, NS, Canada, B1P 6L2.
Conference/Journal: J Exp Biol.
Date published: 2013 Jul 1
Other:
Volume ID: 216 , Issue ID: Pt 13 , Pages: 2459-68 , Special Notes: doi: 10.1242/jeb.082735 , Word Count: 169
Gymnotiform weakly electric fish produce an electric signal to sense their environment and communicate with conspecifics. Although the generation of such relatively large electric signals over an entire lifetime is expected to be energetically costly, supporting evidence to date is equivocal. In this article, we first provide a theoretical analysis of the energy budget underlying signal production. Our analysis suggests that wave-type and pulse-type species invest a similar fraction of metabolic resources into electric signal generation, supporting previous evidence of a trade-off between signal amplitude and frequency. We then consider a comparative and evolutionary framework in which to interpret and guide future studies. We suggest that species differences in signal generation and plasticity, when considered in an energetics context, will not only help to evaluate the role of energetic constraints in the evolution of signal diversity but also lead to important general insights into the energetics of bioelectric signal generation.
KEYWORDS:
action potential, bioelectric signalling, electric field, electrosensory system, energetic cost, metabolic rate, neuroenergetics, oxygen consumption, signal evolution
PMID: 23761471