Synopsis
Results of experimental transfer of rainbow smelt into lakes reclaimed by rotenone around 1960 in Maine were originally interpreted to cast doubt on the previously widely accepted hypothesis that there were two hereditarily different forms of rainbow smelt, one large and one small. Study of more recent data from some of the transplanted populations and reanalysis of the original data suggests different conclusions. The initial effect of introductions into a reclaimed lake may be accelerated and/or more prolonged growth which exceeds even interlake differences. This initial phase, however, is followed by a second phase, when the population reaches equilibrium and these effects subside. Data from phase two of the Little Concord-Shagg and Cold Stream-Coleback Lake transfers showed that the growth characteristics of the transplanted populations returned to those of the parental populations. Large differences in growth patterns were thus found only in the initial phase of the introduction. Meristic characters were little affected by transplanting.
Analysis of large specimens derived from a postulated second unofficial introduction into Coleback Lake showed that they also differed significantly, having both higher gill raker and vertebral counts than the smaller smelt. This was of interest as smelt vertebral and gill raker counts usually are inversely related; hence we do not equate these for the moment with the large form of smelt known elsewhere.
It is concluded that the initial interpretation of transfer experiments be delayed until conditions approaching equilibrium can be expected to exist. Further, our analysis of more recent lake transfer data has shown nothing to refute the hypothesis that there are at least two hereditarily different forms of smelt.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References cited
Bridges, & C. E. Delisle, 1974a. Postglacial evolution of the visual pigments of the smelt Osmerus eperlanus mordax. Vision Res. 14: 345–356.
Bridges, & C. E. Delisle, 1974b. Evolution of visual pigments. Exp. Eye Res. 18: 323–332.
Brooks, J. L. & E. S. Deevey, 1963. New England. pp. 142–148. In: David G. Frey (ed.) Limnology in North America. Univ. Wisconsin Press, Madison, Wis.
Copeman, D. C., 1973. Population diversity in the rainbow smelt, Osmerus eperlanus mordax (Mitchill, 1814) (Salmonoidea: Osmeridae) as revealed by canonical and discriminant function analysis of morphometric, meristic and esterase data. Ph. D. Thesis. Memorial University of Newfoundland, Canada. 231 pp.
Copeman, D. G., 1977. Population differences in the rainbow smelt, Osmerus motdax (Mitchill, 1814). I. Multivariate analysis of morphometric and meristic data. J. Fish. Res. Board Can. 34: 1220–1229.
Davies, R. G., 1971. Computer programming in quantitative biology. Academic Press, London and New York. 492 pp.
Delisle, C., 1969. Ecologie, croissance et comportement de l'Eperlan du Lac Heney, Comté de Gatineau, ainsi que la répartition en eau douce au Québec. Ph.D. Thesis, University of Ottawa, Ontario. 180 pp.
Greene, C. W., 1930. IV. The smelts of Lake Champlain. In a biological survey of the Champlain watershed. A supplement to the 19th Ann. Rept. New York Conservation Dept. for 1929, pp. 105–129.
Kendall, W. C., 1927. The smelts. Bull. U.S. Bur. Fish., 42: 217–315.
Legault, R. O. & C. Delisle, 1968. La fraye d'un population d'éperlans géants, Osmerus eperlanus mordax, au lac Heney, comté de Gatineau, Québec. J. Fish. Res. Board Can. 28: 1813–1830.
McKenzie, R. A., 1958. Age and growth of smelt, Osmerus mordax (Mitchill) of the Miramichi River, New Brunswick. J. Fish. Res. Board Can. 15: 1313–1327.
Parent, S. & P. Brunel, 1976. Aires et périodes de fraye du capelan (Mallotus villosus) dans l'estuaire et le golfe du Saint-Laurent. Travaux sur les Pcheries du Québec. 45: 1–46.
Rupp, R. S., 1959. Variation in the life history of the American smelt in inland waters of Maine. Trans. Am. Fish. Soc. 94: 160–168.
Rupp, R. S. & M. A. Redmond, 1966. Transfer studies of ecologie and genetic variation in the American smelt. Ecology 47: 253–259.
Svärdson, G., 1950. The coregonid problem. II. Morphology of two coregonid species in different environments. Rept. Inst. Freshw. Res. Drottningholm 31: 151–162.
Zillox, R. G. & W. D. Youngs, 1958. Further studies of the smelt of Lake Champlain. N.Y. Fish and Game J. 5: 164–174.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Copeman, D.G., McAllister, D.E. Analysis of the effect of transplantation on morphometric and meristic characters in lake populations of the rainbow smelt, Osmerus mordax (Mitchill). Environ Biol Fish 3, 253–259 (1978). https://doi.org/10.1007/BF00001450
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00001450