The organization of the descending and secondary octaval nuclei in the hindbrain of the Gulf toadfish, Opsanus beta, was revealed following the injection of biotin compounds into a physiologically identified auditory region of the torus semicircularis. The results show retrogradely-filled neurons mainly in a dorsomedial division of the descending octaval nucleus, and dorsal and ventral divisions of a secondary octaval nucleus; minor labeling also appeared in dorsolateral and rostromedial intermediate divisions of the descending nucleus. The pattern identified is consistent with that reported in other teleosts, including both vocal and non-vocal species, and clarifies earlier reports of the organization of hindbrain octaval nuclei in toadfish and the closely related midshipman fish.

1.
Bass, A.H. (1989) The evolution of vertebrate motor systems for acoustic and electric communication: peripheral and central elements. Brain Behav. Evol., 33: 237–247.
2.
Bass, A.H. (1992) Dimorphic male brains and alternative reproductive tactics in a vocalizing fish. Trends Neurosci., 15: 139–145.
3.
Bass, A.H. (1996) Shaping brain sexuality. Am. Sci., 84: 352–363.
4.
Bass, A.H. (1998) Behavioral and evolutionary neurobiology: a pluralistic approach. Am. Zool., 38: 97–107.
5.
Bass, A.H., and R. Baker (1991) Adaptive modification of homologous vocal control traits in teleost fishes. Brain Behav. Evol., 38: 240–254.
6.
Bass, A.H., and R. Baker (1997) Phenotypic specification of hindbrain rhombomeres and the origins of rhythmic circuits in vertebrates. Brain Behav. Evol., 50: 3–16.
7.
Bass, A.H., and C. Clark (2001) The physical acoustics of underwater sound communication. In Handbook of Auditory Research (ed. by A.M. Simmons, A. Popper, and R. Fay), Springer-Verlag, New York, in press.
8.
Bass, A.H., D.A. Bodnar, and M.A. Marchaterre (1999) Complementary explanations for existing phenotypes in an acoustic communication system. In Neural Mechanisms of Communication (ed. by M. Hauser and M. Konishi), MIT Press, Cambridge, Mass., pp. 493–514.
9.
Bass, A.H., D.A. Bodnar, and M.A. Marchaterre (2000) Midbrain acoustic circuitry in a vocalizing fish. J. Comp. Neurol., 419: 505–531.
10.
Bass, A.H., M.A. Marchaterre, and R. Baker (1993) Transneuronal biocytin delineates species differences in a brainstem vocal-acoustic circuit in sound producing fish. Soc. Neurosci. Abstr., 19: 1202.
11.
Bass, A.H., M.A. Marchaterre, and R. Baker (1994) Vocal-acoustic pathways in a teleost fish. J. Neurosci., 14: 4025–4039.
12.
Batschelet, E. (1981) Circular Statistics in Biology. Academic Press, New York.
13.
Bodnar, D.A, and A.H. Bass (1997) Temporal coding of concurrent acoustic signals in auditory midbrain. J. Neurosci., 17: 7553–7564.
14.
Braford, M.R., Jr., and R.G. Northcutt (1983) Organization of the diencephalon and pretectum of the ray-finned fishes. In Fish Neurobiology (ed. by R.E. Davis and R.G. Northcutt), University of Michigan Press, Ann Arbor, Mich., pp. 117–164.
15.
Brantley, R.K., and A.H. Bass (1994) Alternative male spawning tactics and acoustic signals in the plainfin midshipman fish Porichthys notatus Girard (Teleostei, Batrachoididae). Ethology, 96: 213–232.
16.
Brantley, R.K., J. Tseng, and A.H. Bass (1993) The ontogeny of inter- and intrasexual vocal muscle dimorphisms in a sound-producing fish. Brain Behav. Evol., 42: 336–349.
17.
Brenowitz, E.A., G. Rose, and R.R. Capranica (1985) Neural correlates of temperature coupling in the vocal communication system of the gray treefrog (Hyla versicolor). Brain Res., 359: 364–367.
18.
Edds-Walton, P.L. (1998) Anatomical evidence for binaural processing in the descending octaval nucleus of the toadfish (Opsanus tau). Hearing Res., 123: 41–54.
19.
Edds-Walton, P.L., R.R. Fay, and S.M. Highstein (1999) Dendritic arbors and central projections of physiologically characterized auditory fibers from the saccule of the toadfish, Opsanus tau. J. Comp. Neurol., 411: 212–238.
20.
Fine, M.L. (1978) Seasonal and geographical variation of the mating call of the Oyster toadfish, Opsanus tau L. Oceologia, 36: 45–57.
21.
Fine, M.L. (1997) Endocrinology of sound production in fishes. Mar. Fresh. Behav. Physiol., 29: 23–45.
22.
Fine, M.L., N.M. Burns, and T.M. Harris (1990) Ontogeny and sexual dimorphism of sonic muscle in the oyster toadfish. Can. J. Zool., 68: 1374–1381.
23.
Fine, M.L., H.E. Winn, and B.L. Olla (1977) Communication in fishes. In How Animals Communicate (ed. by T.A. Sebeok), Indiana Univ. Press, Bloomington, Ind., pp. 472–518.
24.
Fish, J.F. (1972) The effect of sound playback on the toadfish. In Behavior of Marine Animals, Vol. 2 (ed. by H.E. Winn and B.L. Olla), Plenum Pub. Co., New York, pp. 386–434.
25.
Goldberg, J.M., and P.B. Brown (1969) Response of binaural neurons of dog superior olivary complex to dichotic tonal stimuli: some physiological mechanisms of sound localization. J. Neurophysiol., 32: 613–636.
26.
Goodson, J.L., and A.H. Bass (2000a) Forebrain peptide modulation of sexually polymorphic vocal motor circuitry. Nature, 403: 769–772.
27.
Goodson, J.L., and A.H. Bass (2000b) Vasotocin innervation and modulation of vocal-acoustic circuitry in the teleost Porichthys notatus. J. Comp. Neurol., 422: 363–379.
28.
Heiligenberg, W.H. (1991) Neural Nets in Electric Fish. The MIT Press, Cambridge, Mass.
29.
Highstein, S.M., R. Kitch, J. Carey, and R. Baker (1992) Anatomical organization of the brainstem octavolateralis area of the oyster toadfish, Opsanus tau. J. Comp. Neurol., 319: 501–518.
30.
Kozloski, J., and J.D. Crawford (1999) Functional neuroanatomy of auditory pathways in the sound-producing fish Pollimyrus. J. Comp. Neurol., 401: 227–252.
31.
McCormick, C.A. (1997) Organization and connections of octaval and lateral line centers in the medulla of a clupeid, Dorosoma cepedianum. Hearing Res., 110: 39–60.
32.
McCormick, C.A. (1999) Anatomy of the central auditory pathways of fish and amphibians. In Comparative Hearing: Fish and Amphibians (ed. by A. Popper and R.R. Fay), Springer-Verlag, New York, pp. 155–217.
33.
McKibben, J.R. (1998) A neuroethological analysis of acoustic communication in the plainfin midshipman fish, Porichthys notatus. Ph.D. Thesis, Cornell Univ., Ithaca, NY.
34.
McKibben, J.R., and A.H. Bass (1998) Behavioral assessment of acoustic parameters relevant to signal recognition and preference in a vocal fish. J. Acoust. Soc. Am., 104: 3520–3533.
35.
McKibben, J.R., and A.H. Bass (1999) Peripheral encoding of behaviorally relevant acoustic signals in a vocal fish: single tones. J. Comp. Physiol., 184: 563–576.
36.
Mensinger, A.F., J.P. Carey, R. Boyle, and S.M. Highstein (1997) Differential central projections of physiologically characterized horizontal semicircular canal vestibular nerve afferents in the toadfish, Opsanus tau. J. Comp. Neurol., 384: 71–85.
37.
O’Marra, S.K., and C.A. McCormick (1999) Organization and connections of the dorsal descending nucleus and other presumed acoustic areas in the brainstem of the teleost fish, Astronotus ocellatus. Hearing Res., 129: 7–19.
38.
Popper, A.N., and R.R. Fay (1993) Sound detection and processing by fish: critical review and major research questions. Brain Behav. Evol., 41: 14–38.
39.
Rabbitt, R.D., R. Boyle, and S.M. Highstein (1999) Influence of surgical plugging on horizontal semicircular canal mechanics and afferent response dynamics. J. Neurophysiol., 82: 1033–1053.
40.
Tavolga, W.N. (1958) Underwater sounds produced by two species of toadfish, Opsanus tau and Opsanus beta. Bull Mar. Sci. Gulf Carib., 8: 278–285.
41.
Tavolga, W.N. (1960) Sound production and underwater communication in fishes. In Animal Sounds and Communication (ed. by W.E. Lanyon and W.N. Tavolga), Am. Inst. Biol. Sci., Washington, D.C., pp. 93–136.
42.
Weeg, M.S., and A.H. Bass (2000) Midbrain lateral line circuitry in a vocalizing fish. J. Comp. Neurol., 418: 841–864.
Copyright / Drug Dosage / Disclaimer
Copyright: All rights reserved. No part of this publication may be translated into other languages, reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying, recording, microcopying, or by any information storage and retrieval system, without permission in writing from the publisher.
Drug Dosage: The authors and the publisher have exerted every effort to ensure that drug selection and dosage set forth in this text are in accord with current recommendations and practice at the time of publication. However, in view of ongoing research, changes in government regulations, and the constant flow of information relating to drug therapy and drug reactions, the reader is urged to check the package insert for each drug for any changes in indications and dosage and for added warnings and precautions. This is particularly important when the recommended agent is a new and/or infrequently employed drug.
Disclaimer: The statements, opinions and data contained in this publication are solely those of the individual authors and contributors and not of the publishers and the editor(s). The appearance of advertisements or/and product references in the publication is not a warranty, endorsement, or approval of the products or services advertised or of their effectiveness, quality or safety. The publisher and the editor(s) disclaim responsibility for any injury to persons or property resulting from any ideas, methods, instructions or products referred to in the content or advertisements.
You do not currently have access to this content.