Summary
The postmetamorphic growth and survival of the salamanderHynobius nebulosus tokyoentis Tago were surveyed in the study site located in Habu village of Hinodemachi, a suburb of Tokyo City, during 1975–1981. A laboratory experiment on the growth rate of juveniles was conducted in parallel with the field survey. The result indicated that this salamander grew at the rate of 8,mm in s.v.l. per year during the juvenile stage, but its growth rate decreased markedly as low as 1.8 mm for males and 1.1 mm for females, once it had attained sexual maturity. According to the “capture-recapture” procedure the annual survival rate after metamorphosis was found to be quite high; that is, approximately 0.7. By using the growth rate of juveniles and the difference between the sizes at metamorphosis and sexual maturity, the age at first reproduction was estimated to be 4 year for males and 5 year for females.
From the data obtained in this study, the intrinsic rates of increase (r) were calculated for various values of age at first reproduction under different survival schedules, and the relationship between the age at first reproduction and fitness as measured byr was examined. The result indicated that an optimal age maximizing fitness always existed under respective survival schedules, and the observed age at first reproduction of this salamandei was found to coincide well with the predicted optimal age.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bell, G. (1980) The costs of reproduction and their consequences.Amer. Nat. 116: 45–76.
Cole, L. C. (1954) The population consequences of life-history phenomena.Quart., Rev. Biol. 29: 103–137.
Danstedt, R. T. Jr. (1975) Local geographic variation in demographic parameters and body size ofDesmognathus fuscus (Amphibia, Plethodontidae).Ecology 56: 1054–1067.
Giesel, J. T. (1976) Reproductive strategies as adaptations to life in temporally heterogeneous environments.Ann. Rev. Ecol. Syst. 7: 57–79.
Heatwole, H. (1961) Inhibition of digital regeneration in salamanders and its use in marking individuals for field studies.Ecology 42: 593–594.
Houck, L. D. (1977) Life history patterns and reproductive biology of neotropical salamanders. 43–72. InD. H. Taylor andS. I. Guttman (eds)The Reproductive Biology of Amphibians. Plenum Press, New York and London.
Kusano, T. (1980) Breeding and egg survival of a population of a salamander,Hynobius nebulosus torkyoensis Tago.Res. Popul. Ecol. 21: 181–196.
Kusano, T. (1981) Growth and survival rate of the larvae ofHynobius nebulosus tokyoensis Tago (Amphibia, Hynobiidae).Res. Popul. Ecol. 23: 360–378.
Oldham, R. S. (1966) Spring movements in the American toad,Bufo americanus.Can. J. Zool. 44: 63–100.
Organ, J. A. (1961) Studies of local distributions, life history and population dynamics of the salamander genusDesmognathus in Virginia.Ecol. Monogr. 31: 189–220.
Stearns, S. C. (1976) Life history tactics: a review of the idea.Quart. Rev. Biol. 5: 3–47.
Stearns, S. C. andR. E. Crandall (1981) Quantitative predictions of delayed maturity.Evolution 35: 455–463.
Twitty, V. C. (1959) Migration and speciation in newts.Science 130: 1735–1743.
Woodbury, A. M. (1956) Use of marking animals in ecological studies; marking amphibians and reptiles.Ecology 37: 670–674.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Kusano, T. Postmetamorphic growth, survival, and age at first reproduction of the salamander,hynobius nebulosus tokyoensis Tago in relation to a consideration on the optimal timing of first reproduction. Res Popul Ecol 24, 329–344 (1982). https://doi.org/10.1007/BF02515580
Issue Date:
DOI: https://doi.org/10.1007/BF02515580