Electrolocation

Bastian J (1975) Receptive fields of cerebellar cells receiving extero-ceptive input in a gymnotid fish. J Neurophysiol 38:285–300 Bastian J (1976) The range of electrolocation: a comparison of electroreceptor responses and the responses of cerebellar neurons in a gymnotid fish. J Comp Physiol 108:193–210 Bastian J (1981) Electrolocation. I. How the electroreceptors ofApteronotus albifrons code for moving objects and other electrical stimuli. J Comp Physiol 144:465–479 Bastian J, Heiligenberg W (1980) Neural correlates of the jamming avoidance response ofEigenmannia. J Comp Physiol 136:135–152 Behrend K (1977) Processing information carried in a high frequency wave: properties of cerebellar units in a high frequency electric fish. J Comp Physiol 118:357–371 Bullock TH (1969) Species differences in effect of electroreceptor input on electric organ pacemakers and other aspects of behavior in electric fish. Brain Behav Evol 2:85–118 Bullock TH, Hamstra RH, Scheich H (1972) The jamming avoidance response of high frequency electric fish. J Comp Physiol 77:1–48 Enger PS, Szabo T (1965) Activity of central neurons involved in electroreception in some weakly electric fish. J Neurophysiol 28:800–818 Heiligenberg W (1973) Electrolocation of objects in the electric fish,Eigenmannia (Rhamphichthyidae, Gymnotoidei). J Comp Physiol 87:137–164 Heiligenberg W, Bastian J (1980) The control ofEigenmannia's pacemaker by distributed evaluation of electroreceptive afferences. J Comp Physiol 136:113–133 Hopkins CD (1976) Stimulus filtering and electroreception: tuberous electroreceptors in three species of gymnotid fish. J Comp Physiol 111:171–207 Langner G, Scheich H (1978) Active phase coupling in electric fish: behavioral control with microsecond precision. J Comp Physiol 128:235–240 Larimer JL, MacDonald JA (1968) Sensory feedback from electroreceptors to electromotor pacemaker centers in gymnotids. Am J Physiol 214:1253–1261 Maler L (1979) The posterior lateral line lobe of certain gymnotid fish: quantitative light microscopy. J Comp Neurol 183:323–364 Maler L, Sas EKB, Rogers J (1981) The cytology of the posterior lateral line lobe of high frequency weakly electric fish (Gymnoti- dae): Dendritic differentiation and synaptic specificity in a simple cortex. J Comp Neurol 195:87–139 Matsubara J (1980) Neural correlates of a non-jammable electrolocation system. Abstr 207.3, 10th Annual Meeting, Society for Neurosciences Matsubara J, Heiligenberg W (1978) How well do electric fish electrolocate under jamming? J Comp Physiol 125:285–290 McCreery DB (1977) Spatial organization of receptive fields of lateral lemniscus neurons of the lateral line lobe of the catfishIctalurus nebulosus. J Comp Physiol 113:341–353 Scheich H (1977) Neural basis of communication in the high frequency electric fish,Eigenmannia virescens (jamming avoidance response). J Comp Physiol 113:181–255 Sokal RR, Rohlf FJ (1969) Biometry. The principles and practices of statistics in biological research. Freeman, San Francisco, pp 246–249 Szabo T (1965) Sense organs of the lateral line system in some electric fish of the Gymnotidae, Mormyridae and Gymnarchidae. J Morphol 117:229–250 Watanabe A, Takeda K (1963) The change of discharge frequency by A.C. stimulus in a weakly electric fish. J Exp Biol 40:56–66