none none FRESHWATER CRAYFISH: Escaping while defenseless or blind: Effects of sensory input on tailflipping in the crayfish <i>Procambarus clarkii</i> (Girard, 1852)
Issue Cover image

logo

Freshwater Crayfish 18(1): 13-17 (2011)

PEER REVIEWED    RESEARCH ARTICLE

Download: PDF (1.05 Mb)

Escaping while defenseless or blind: Effects of sensory input on tailflipping in the crayfish Procambarus clarkii (Girard, 1852)

Espinoza SY and Faulkes Z  e-mail link

Published Online: 12/31/2011

Abstract

Crayfish escape from unexpected stimuli by tailflipping. The neural basis of tailflipping is well understood, and is a model for simple decision making. A crayfish’s propensity to tailflip can be modulated by many factors, such as social status. The sensory stimuli associated are usually so complex that it is difficult to determine which sensory cues are the most relevant to modulating the neural circuits controlling tailflipping. We tested whether removing sensory input from the chelae or the eyes would enhance tailflipping in Procambarus clarkii (Girard, 1852). Removing sensory input from even one chela significantly increased the distance that crayfish tailflipped. Removing visual input significantly increased the probability of tailflipping, but not the distance tailflipped. This enhancement of tailflipping may be due to impairing crayfish’s ability to perform defense responses, rather than simply removing sensory input to the tailflipping circuits directly.

Supplemental Documents

  • There are no supplementary documents for this article

CrossRef Logo

Cited By

0 Citations:

How to Cite

Espinoza SY and Faulkes Z. (2011). Escaping while defenseless or blind: Effects of sensory input on tailflipping in the crayfish Procambarus clarkii (Girard, 1852). Freshwater Crayfish 18(1):13-17. doi: 10.5869/fc.2011.v18.13

 

 

Author Information

Zen  Faulkes,* Department of Biology, The University of Texas-Pan American, 1201 W. University Drive, Edinburg, TX, USA78539. E-mail: zfaulkes@utpa.edu

Sandra Y. Espinoza, Department of Biology, The University of Texas-Pan American, 1201 W. University Drive, Edinburg, TX, USA78539. E-mail: beluhua@aol.com

Corresponding Author indicated by an *.

 

Publication History

   Manuscript Submitted: 11/22/2010

   Manuscript Accepted: 6/29/2011

   Published Online: 12/31/2011

   Published in Print: 12/31/2011

 

 

Funding Information

No specific funding statement is available for this article.

 

 



 

 

 

Member Login

Forgot Your Password?

Recover PW

Enter the e-mail address you used to
create your IAA account.
Return to Login
Back to Top