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Survival value of fever in fish

Nature volume 267pages 43–45 (1977)Cite this article

Abstract

THE phenomenon of behavioural fever, manifested as an increase in preferred temperature following injection of live or killed bacteria, or other pyrogenic substances, has been demonstrated in bony fishes1–3, amphibians4,5, reptiles5–10, and mammals11,12. Ectothermic vertebrates, including some newborn mammals11, are unable to increase their body temperatures much above ambient by physiological means, and so are largely limited to behavioural thermoregulation by selecting favourable temperatures in their environment. The behavioural febrile response of a lizard, Dipsosaurus dorsalis, has been shown to have adaptive value5,8–10 in conferring increased survival during infection by the Gram-negative bacterium Aeromonas hydrophila. A. hydrophila is pathogenic to bony fishes, amphibians and reptiles, causing haemorrhagic septicaemia. All three classes show similar (1–5 °C) elevations in preferred temperature in response to injection of this bacterium1–10. The absolute preferred temperatures, however, both normal and febrile, differ considerably among these vertebrates. The preferred temperatures of lizards such as D. dorsalis (about 40 °C) are quickly lethal to most fishes and amphibians. We report here that fever significantly enhances survival of goldfish, Carassius auratus, at febrile temperatures about 10 °C lower than those of D. dorsails, after injection with live A. hydrophila.

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References

  1. Reynolds, W. W., Casterlin, M. E. & Covert, J. B. Nature 259, 41–42 (1976).

    Article  ADS  CAS  Google Scholar 

  2. Reynolds, W. W. & Covert, J. B. in Drugs, Biogenic Amines and Body Temperature (Karger, Basle, in the press).

  3. Reynolds, W. W. Comp. Biochem. Physiol. (in the press).

  4. Casterlin, M. E. & Reynolds, W. W. Life Sci. 20, 593–596 (1977).

    Article  CAS  Google Scholar 

  5. Kluger, M. J., Bernheim, H. A., Vaughn, L. K., Foster, M. A. & D'Alecy, L. G. in Drugs, Biogenic Amines and Body Temperature (Karger, Basle, in the press).

  6. Bernheim, H. A., Vaughn, L. K. & Kluger, M. J. Fedn. Proc. 33, 457 (1974).

    Google Scholar 

  7. Vaughn, L. K., Bernheim, H. A. & Kluger, M. J. Nature, 252, 473–474 (1974).

    Article  ADS  CAS  Google Scholar 

  8. Kluger, M. J., Ringler, D. H. & Anver, M. R. Science 188, 166–168 (1975).

    Article  ADS  CAS  Google Scholar 

  9. Kluger, M. J. Nat. Hist. 85, 70–75 (1976).

    Google Scholar 

  10. Bernheim, H. A. & Kluger, M. J. Science 193, 237–239 (1976); Am. J. Physiol. 231, 198–203 (1976); J. Physiol. (in the press).

    Article  ADS  CAS  Google Scholar 

  11. Satinoff, E., McEwen, G. N. Jr & Williams, B. A. Science 193, 1139–1140 (1976).

    Article  ADS  CAS  Google Scholar 

  12. Crawshaw, L. I. & Stitt, J. T. J. Physiol. 244, 197–206 (1975).

    Article  CAS  Google Scholar 

  13. Reynolds, W. W., McCauley, R. W., Casterlin, M. E. & Crawshaw, L. I. Comp. Biochem. Physiol. 54A, 461–463 (1976).

    Article  CAS  Google Scholar 

  14. Reynolds, W. W. J. Fish. Res. Bd Can. 34, 300–304 (1977).

    Article  Google Scholar 

  15. Reynolds, W. W. & Casterlin, M. E. Thermal Ecology II (eds Esch, G. W. & McFarlane, R. W.), 185–190 (ERDA Symp. Ser CONF-750425, US Natl Tech. Info. Serv., Springfield, Virginia, 1976).

    Google Scholar 

  16. Fry, F. E. J. Univ. Toronto Stud., Biol. Ser. 55 (1947).

  17. Ferguson, R. G. J. Fish. Res. Bd Can. 15, 607–624 (1958).

    Article  Google Scholar 

  18. Avtalion, R. R., Wojdani, A., Malik, Z., Shahrabani, R. & Duczyminer, M. Curr. Top. microbiol. Immunol. 61, 1–35 (1973).

    CAS  PubMed  Google Scholar 

  19. Hildemann, W. H. Am. Natur. 96, 195–204 (1962).

    Article  Google Scholar 

  20. Amend, D. F. J. Fish. Res. Bd Can. 27, 265–270 (1970); 33, 1059–1066 (1976).

    Article  Google Scholar 

  21. Peterson, R. H. J. Fish. Res. Bd Can. 33, 1722–1730 (1976).

    Article  CAS  Google Scholar 

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Authors and Affiliations

  1. Department of Biology, The Pennsylvania State University Hazleton, Pennsylvania, 18201

    JERRY B. COVERT

  2. Department of Biology, The Pennsylvania State University, Wilkes-Barre, Pennsylvania, 18708

    WILLIAM W. REYNOLDS

Authors
  1. JERRY B. COVERT
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  2. WILLIAM W. REYNOLDS
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COVERT, J., REYNOLDS, W. Survival value of fever in fish. Nature 267, 43–45 (1977). https://doi.org/10.1038/267043a0

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