Visual afferences to flight steering muscles controlling optomotor responses of the fly Martin Egelhaaf OriginalPaper Pages: 719 - 730
Distinct mechanisms of modulation in a neuronal oscillator generate different social signals in the electric fishHypopomus Masashi KawasakiWalter Heiligenberg OriginalPaper Pages: 731 - 741
Development of the gin trap reflex inManduca sexta: a comparison of larval and pupal motor responses B. WaldropR. B. Levine OriginalPaper Pages: 743 - 753
Ontogenesis of tonotopy in inferior colliculus of a hipposiderid bat reveals postnatal shift in frequency-place code R. RübsamenG. NeuweilerG. Marimuthu OriginalPaper Pages: 755 - 769
The eye of the hooded seal,Cystophora cristata, in air and water J. G. SivakH. C. HowlandJ. Weerheim OriginalPaper Pages: 771 - 777
An unusual low-current receptor-circuit in the trap setae of the prey-capture apparatus ofLoricera pilicornis (Carabidae, Coleoptera) Josef GöddeUlrike Hintzpeter OriginalPaper Pages: 779 - 787
The properties of photoreconvertible fluorophore systems in insect eyes resemble those of quinones Achim JusePeter StūsekKurt Hamdorf OriginalPaper Pages: 789 - 800
Crustacean elastic strand receptors that function without impulses A. J. CannoneM. J. M. Nijland OriginalPaper Pages: 801 - 809
Running activity mediates the phase-advancing effects of dark pulses on hamster circadian rhythms Stéphan G. ReebsRobert J. LaveryN. Mrosovsky OriginalPaper Pages: 811 - 818
Large phase-shifts of circadian rhythms caused by induced running in a re-entrainment paradigm: The role of pulse duration and light Stéphan G. ReebsN. Mrosovsky OriginalPaper Pages: 819 - 825
Influence of syllable period on song encoding properties of an ascending auditory interneuron in the cricketAcheta domestica Steven AtkinsGordon AtkinsJohn F. Stout OriginalPaper Pages: 827 - 836
Neuromuscular activity during stridulation in the cricketTeleogryllus commodus R. Matthias Hennig OriginalPaper Pages: 837 - 846
Secondary hair cells and afferent neurones of the squid statocyst receive both inhibitory and excitatory efferent inputs R. Williamson OriginalPaper Pages: 847 - 860