Abstract
The inheritance of Drosophila melanogaster larval pupation behaviour is investigated in sixteen reciprocal crosses between field collected lines. These lines were made isogenic for the two major autosomes enabling the data to be analyzed using contrast analysis of variance and biometrical genetic analysis. Results of both analyses showed that the trait “pupation distance”, the distance larvae pupate from food, fits a simple additive model of inheritance with no dominance. A chromosomal analysis showed that both the second and third chromosomes act additively on pupation distance and that the third pair of chromosomes had a much larger effect than the second. Significant variability exists in the distance D. melanogaster larvae pupate from fruit in nature. This phenotypic variation results from both heritable variation and variation from environmental sources. When the moisture content of the environment surrounding food is modified, gene by environment interactions also contribute to variation in the phenotype. Selective pressures which may act on larval differences in pupation site choice are discussed.
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Bauer, S J. 1984. Sex differences in pupation site choice in Drosophila melanogaster. Dros Inf Serv, 60, 58.
Bauer, S J, and Sokolowski, M B. 1984. Larval foraging in isofemale lines of Drosophila melanogaster and D. pseudoobscura. J Heredity, 75, 131–134.
Bauer, S J, and Sokolowski, M B. 1985. A genetic analysis of path length and pupation height in a natural population of Drosophila melanogaster. Can J Genet Cytol, 27, 334–340.
Bauer, S J, and Sokolowski, M B. 1988. Autosomal and maternal effects on pupation behaviour in Drosophila melanogaster. Behav Genet, 18, 81–97.
Casares, P, and Carracedo, M C. 1987. Pupation height in Drosophila: Sex differences and influences of larval developmental time. Behav Genet, 17, 523–535.
Cavalli, L L. 1952. An analysis of linkage in quantitative inheritance. In Reeve, E. C. R., and Waddington, C. H. (ed.) Quantitative Inheritanc. London, HMSO, pp. 135–144.
De Belle, J S, and Sokolowski, M B. 1987. Heredity of rover/sitter: Alternative foraging strategies of Drosophila melanogaster. Heredity, 59, 73–83.
De Souza, H, Da Cunha, A, and Dos Santos, I. 1970. Adaptive polymorphism of behavior evolved in laboratory populations of Drosophila willistoni. Am Nat, 104, 175–189.
Godoy-Herrera, R, Cifuentes, L, Diaz De Arcaya, M F, Fernandez, M, Fuentes, M, Reyes, I, and Valderrama, C. The behaviour of Drosophila melanogaster larvae during pupation. Anim Beh (in press).
Hay, D A. 1972. Genetical and maternal determinants of the activity and preening behaviour of Drosophila melanogaster reared in different environments. Heredity, 28, 311–336.
Hays, W L. 1981. Statistics, 3rd ed. Holt, Rinehart and Winston, New York.
Markow, T A. 1979. A survey of intra- and interspecific variation for pupation height in Drosophila. Behav Genet, 9, 209–217.
Mather, K, and Jinks, J L. 1982. Biometrical Genetics. Chapman and Hall, New York.
Mueller, L D, and Sweet, V F. 1986. Density-dependent natural selection in Drosophila: Evolution of pupation height. Evolution, 40, 1354–1356.
Ringo, J, and Wood, D. 1983. Pupation site selection in Drosophila simulans. Behav Genet, 13, 17–27.
Sameoto, D, and Miller, R. 1968. Selection of pupation site by Drosophila melanogaster and D. simulans. Ecology, 49, 177–180.
Sokal, R, Ehrlich, P, Hunter, P, and Schlager, G. 1960. Some factors affecting pupation site of Drosophila. Ann Entom Soc Am, 53, 174–182.
Sokolowski, M B. 1985. Ecology, genetics and behaviour of Drosophila larval foraging and pupation behaviour. J Insect Physiol, 31, 857–864.
Sokolowski, M B, and Hansell, R I C. 1983. Elucidating the behavioral phenotype of D. melanogaster larvae: Correlations between foraging strategies and pupation heights. Behav Genet, 13, 267–280.
Wahlsten, D. 1979. A critique of the concepts of heritability and heredity in behavioural genetics. In Royce, J. R. and Mos, L. (ed.) Theoretical Advances in Behavioural Genetics, Sijthoff and Nordhoff, Germantown, MD, pp. 425–481.
Wong, J L, Sokolowski, M B, and Kent, C F. 1985. Pre-pupation behaviour in Drosophila: Embedding. Behav Genet, 15, 155–164.
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Sokolowski, M., Bauer, S. Genetic analyses of pupation distance in Drosophila melanogaster. Heredity 62, 177–183 (1989). https://doi.org/10.1038/hdy.1989.26
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DOI: https://doi.org/10.1038/hdy.1989.26
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