Abstract
-
1.
Experiment 1 employed a repeated measures design to examine the effects of captivity on sex differences in the electric organ discharge (EOD) of Gnathonemus petersii, newly imported from Africa, and maintained individually or in groups.
-
2.
On the day of import, males exhibited longer durations of phases 2 and 3 of the EOD and lower peak power spectral frequencies (PPSFs) than females.
-
3.
After 14 days in captivity in the laboratory, the sex differences were eliminated. After 37 days of captivity, all sex differences were still abolished, or even reversed depending on housing conditions. Males exhibited the most dramatic changes in EODs and females appeared to have higher testosterone (T) levels than males.
-
4.
Experiment 2 was designed to investigate the effects of captivity on both behavior and endocrine status in 58 newly imported males. In this independent group design, EOD data and blood were collected from subjects over 15 days.
-
5.
Decreases in phase 3 of the EOD and increases in PPSFs progressed over the 15 day experimental period, becoming statistically significant by days 10 and 15, respectively. Regardless of housing conditions, both T and 11-keto T dramatically decreased to near non-detectable levels by Day 5 in the laboratory.
-
6.
Captivity causes rapid and profound changes in the endocrine system which result in dramatic changes in steroid-sensitive EODs. These findings directly link captivity, hormones, and behavior, and show why feral animals brought into captivity usually do not exhibit sexual behavior.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Abbreviations
- EOD:
-
electric organ discharge
- PPSF:
-
peak power spectrum frequency
- T:
-
testosterone
- 11-keto T:
-
11-ketotestosterone
References
Bass AH (1986) A hormone-sensitive communication system in an electric fish. J Neurobiol 17:131–155
Bass AH, Hopkins CD (1983) Hormonal control of sexual differentiation: Changes in electric organ discharge waveform. Science 220:971–974
Bass AH, Hopkins CD (1985) Hormonal control of sex differences in the electric organ discharge (EOD) of mormyrid fishes. J Comp Physiol A 156:587–604
Bell CC, Myers JP, Russell CJ (1974) Electric organ discharge patterns during dominance related behavioral displays in Gnathonemus petersii (Mormyridae). J Comp Physiol 92:201–228
Billard R, Bry C, Gillet C (1981) Stress, environment and reproduction in teleost fish. In: Pickering AD (ed) Stress and fish. Academic Press, New York, 185–208
Bratton BO, Kramer B (1986) Environmental effect on the sexually dimorphic discharge of an electric fish, Pollimyrus isidori. (Abstr.). 1st International Congress of Neuroethology, Tokyo
Bratton BO, Kramer B (1988) Intraspecific variability of the pulsetype discharges of the African electric fishes, Pollimyrus isidori and Petrocephalus bovei (Mormyridae, Teleostei), and their dependence on water conductivity. Exp Biol 47:227–238
Crockett DP (1986) Agonistic behavior of the weakly electric fish, Gnathonemus petersii (Mormyridae, Osteoglossomorpha). J Comp Psychol 100:3–14
Dessypris A, Kuoppasalmi K, Adlercreutz H (1976) Plasma cortisol, testosterone, androstenedione and leuteinizing hormone (LH) in a non-competitive marathon run. J Ster Biochem 7:33–37
Elton RH (1979) Baboon behavior under crowded conditions. In: Erwin J, Maple TL, Mitchell G (eds) Captivity and behavior. Van Nostrand Reinhold Co, New York, 125–138
Enger PS, Szabo T (1968) Effect of temperature on the discharge rates of the electric organ of some gymnotids. Comp Biochem Physiol 27:625–627
Erwin J, Deni R (1979) Strangers in a strange land: abnormal behaviors or abnormal environments? In: Erwin J, Maple TL, Mitchell G (eds) Captivity and behavior. Van Nostrand Reinhold Co, New York, 1–28
Freeman HC, Sangalang GB, Burns G, McMenemy M (1983) The blood sex hormone levels in sexually mature male Atlantic salmon (Salmo salar) in the Westfield River (pH 4.7) and the Medway River (pH 5.6), Nova Scotia. Sci Total Environ 32:87–91
Hagedorn M, Carr C (1985) Single electrocytes produce a sexually dimorphic signal in South American electric fish, Hypopomus occidentalis (Gymnotiformes, Hypopomidae). J Comp Physiol A 156:511–523
Hagedorn M, Heiligenberg W (1985) Court and spark: electric signals in the courtship and mating of gymnotoid fish. Anim Behav 33:254–265
Hopkins CD (1972) Sex differences in electric signaling in an electric fish. Science 176:1035–1037
Hopkins CD (1974) Electric communication: Functions in the social behavior of Eigenmannia virescens. Behaviour 50:270–305
Hopkins CD, Bass AH (1981) Temporal coding of species-specific signals in an electric fish. Science 212:85–87
Kramer B (1976) The attack frequency of Gnathonemus petersii towards electrically silent (denervated) and intact conspecifics, and towards another mormyrid (Brienomyrus niger). Behav Ecol Sociobiol 1:425–446
Kramer B, Otto B (1988) Female discharges are more electrifying: spontaneous preference in the electric fish, Eigenmannia (Gymnotiformes, Teleostei). Behav Ecol Sociobiol 23:55–60
Kramer B, Westby GWM (1985) No sex difference in the waveform of the pulse type electric fish, Gnathonemus petersii (Mormyridae). Experientia 41:1530–1531
Landsman RE (1990) The effects of steroid hormones on the external morphology and electric organ discharge waveform of Gnathonemus petersii (Mormyriformes). In: Landsman RE (1990) Seasonal, hormonally controlled, phase-specific sex differences in electric organ discharges of the weakly electric fish, Gnathonemus petersii (Mormyridae), and the effects of captivity on these discharges. Dissertation submitted to the Graduate School and University Center of the City University of New York, New York
Landsman RE (1991) Captivity affects behavioral physiology: plasticity in signaling sexual identity. Experientia 47:31–38
Landsman RE (1993) Sex differences in external morphology and electric organ discharges in imported Gnathonemus petersii (Mormyriformes). Anim Behav (in press)
Landsman RE, Moller P (1988) Testosterone changes the electric organ discharge and external morphology of the mormyrid fish, Gnathonemus petersii (Mormyriformes). Experientia 44:900–903
Landsman RE, Moller P (1991) Laboratory captivity reverses sex differences in electric organ discharges in mormyrid fish. In: Scott AP, Sumpter JP, Kime DE, Rolfe MS (eds) Reproductive physiology of fish 1991. Proc Fourth Intern Symp Reprod Physiol Fish, Norwich, UK, p 204
Landsman RE, Jou SH, Moller P (1987) Stress obscures signalling of sexual identity in Gnathonemus petersii (Mormyriformes). In: Idler DR, Crim LW, Walsh JM (eds) Reproductive physiology of fish 1987. Proc Third Intern Symp Reprod Physiol Fish, Memorial Univ of Newfoundland, St. John's, Newfoundland, 307
Landsman RE, Harding CF, Moller P, Thomas P (1990) The effects of androgens and estrogen on the external morphology and electric organ discharge waveform of Gnathonemus petersii (Mormyridae, Teleostei). Horm Behav 24:532–553
Licht P, McCreery BR, Barnes R, Pang R (1983) Seasonal and stress related changes in plasma gonadotropins, sex steroids, and corticosterone in the bullfrog, Rana catesbeiana. Gen Comp Endocrinol 50:124–145
Lücker H, Kramer B (1981) Development of a sex difference in the preferred latency response in the weakly electric fish, Pollimyrus isidori (Cuvier et Valenciennes) (Mormyridae, Teleostei). Behav Ecol Sociobiol 9:103–109
Mazeaud MM, Mazeaud F (1981) Adrenergic responses to stress in fish. In: Pickering AD (ed) Stress and fish. Academic Press, New York, 49–75
Mazeaud MM, Mazeaud F, Donaldson EM (1977) Primary and secondary effects of stress in fish: Some new data with a general review. Trans Am Fish Soc 106(3):201–212
Meyer JH (1983) Steroid influences upon the discharge frequencies of a weakly electric fish. J Comp Physiol 153:29–37
Meyer JH, Leong M, Keller CH (1987) Hormone-induced and maturational changes in electric organ discharges and electroreceptor tuning in the weakly electric fish Apteronotus. J Comp Physiol A 160:385–394
Miller LJ, Moore FL (1983) Intracranial administration of corticotropin-like peptides increases incidence of amphibian reproductive behavior. Peptides 4:729–733
Moore FL (1978) Differential effects of testosterone plus dihydrotestosterone on male courtship of castrated newts, Taricha granulosa. Horm Behav 9:202–208
Moore FL, Deviche P (1988) Neuroendocrine processing of environmental information in amphibians. In: Stetson MH (ed) Processing of environmental information in vertebrates. Springer, New York, 20–45
Moore FL, Miller LJ (1983) Arginine vasotocin induces sexual behavior of newts by acting on cells in the brain. Peptides 4:97–102
Moore FL, Miller LJ (1984) Stress-induced inhibition of sexual behavior: corticosterone inhibits courtship behaviors of a male amphibian (Taricha granulosa). Horm Behav 18:400–410
Moore FL, Muller CH (1977) Androgens and male mating behavior in rough-skinned newts, Taricha granulosa. Horm Behav 9:309–320
Moore FL, Zoeller RT (1979) Endocrine control of amphibian sexual behavior: evidence for a neurohormone-androgen interaction. Horm Behav 13:207–213
Moore FL, Miller LJ, Spielvogel SP, Kubiak T, Folkers K (1982) Luteinizing hormone-releasing hormone involvement in the reproductive behavior of a male amphibian. Neuroendocrinology 35:212–216
Morrison PF, Leatherland JF, Sonstegard RA (1985) Plasma cortisol and sex steroid levels in Great Lakes coho salmon (Oncorhynchus kisutch Walbaum) in relation to fecundity and egg survival. Comp Biochem Physiol A 80:61–68
Pickering AD, Pottinger TG, Carragher J, Sumpter JP (1987) The effects of acute and chronic stress on the levels of reproductive hormones in the plasma of mature male brown trout, Salmo trutta L. Gen Comp Endocrinol 68:249–259
Rivier C, Rivier J, Vale W (1986) Stress-induced inhibition of reproductive functions: Role of endogenous corticotropin-releasing factor. Science 231:607–609
Safford SE, Thomas P (1987) Effects of capture and handling on circulating levels of gonadal steroids and cortisol in the spotted seatrout, Cynoscion nebulosus. In: Idler DR, Crim LW, Walsh JM (eds) Reproductive physiology of fish 1987. Proc Third Intern Symp Reprod Physiol Fish, Memorial Univ of Newfoundland, St. John's, Newfoundland, 312
Sangalang GB, Freeman HC (1974) Effects of sublethal cadmium on maturation and testosterone and 11-ketotestosterone production in vivo in brook trout. Biol Reprod 11:429–435
Singh H, Griffith RW, Takahashi A, Kawauchi H, Thomas P, Stegeman JJ (1988) Regulation of gonadal steroidogenesis in Fundulus heteroclitus by recombinant salmon growth hormone and purified salmon prolactin. Gen Comp Endocrinol 72:144–153
Squire A, Moller P (1982) Effects of water conductivity on electrocommunication in the weak-electric fish Brienomyrus niger (Mormyriformes). Anim Behav 30:375–382
Truscott B, Walsh JM, Burton MP, Payne JF, Idler DR (1983) Effect of acute exposure to crude petroleum on some reproductive hormones in salmon and flounder. Comp Biochem Physiol C 75:121–130
Westby GWM, Kirschbaum F (1977) Emergence and development of the electric organ discharge in Pollimyrus isidori. I. The larval discharge. J Comp Physiol 122:251–271
Westby GWM, Kirschbaum F (1981) Sex differences in the electric organ discharge of Eigenmannia virescens and the effect of gonadal maturation. In: Szabo T, Czeh G (eds) Sensory physiology of aquatic lower vertebrates. Adv Physiol Sci, vol 31. Pergamon Press, Budapest, 179–194
Westby GWM, Kirschbaum F (1982) Sex differences in the waveform of the pulse-type electric fish, Pollimyrus isidori (Mormyridae). J Comp Physiol 145:399–404
Wingfield JC (1988) Changes in reproductive function of free-living birds in direct response to environmental perturbations. In: Stetson MH (ed) Processing of environmental information in vertebrates. Springer, New York, 121–148
Wingfield JC, Smith JP, Farner DS (1982) Endocrine responses of white-crowned sparrows to environmental stress. Condor 84:399–409
Zoeller RT, Moore FL (1982) Duration of androgen treatment modifies behavioral response to arginine vasotocin in Taricha granulosa. Horm Behav 16:23–30
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Landsman, R.E. The effects of captivity on the electric organ discharge and plasma hormone levels in Gnathonemus petersii (Mormyriformes). J Comp Physiol A 172, 619–631 (1993). https://doi.org/10.1007/BF00213684
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00213684