Meeting Abstract

P1.173  Friday, Jan. 4  Nonylphenol Effects on Chemosensory Orientation Behavior of the Crayfish, Orconectes propinquus WAALKES, W.C.*; BERGMAN, D.A.; Grand Valley State University; Grand Valley State University waalkesw@mail.gvsu.edu

Proper sensory input and motor output relies on constant nervous system activity. We proposed to test the neurological effects of a chemical pollutant on crayfish, Orconectes propinquus. Nonylphenol is a chemical used in detergents and pesticides that is commonly concentrated in crayfish, fish, and birds. Crayfish were exposed to 0.20 µL of nonylphenol for seven days. At the conclusion, crayfish behavioral responses were tested by allowing crayfish to find food in a Y-maze. Data recorded included percent success finding food, time to find food, time spent motionless, and time spent in the food arm of the Y-maze. In phase two of experiments, primary sensory and motor neurons were isolated to test changes in membrane potential across axonal membranes. By doing so, we will elucidate any alterations in neuronal signals due to nonylphenol exposure. For example, a reduction in neuronal signaling would indicate the pollutant directly affects the crayfish nervous system.