Evolution of reduced pre-adult viability and larval growth rate in laboratory populations of Drosophila melanogaster selected for shorter development time

N. G. PRASAD; MALLIKARJUN SHAKARAD; VISHAL M. GOHIL; V. SHEEBA; M. RAJAMANI; AMITABH JOSHI

doi:10.1017/S0016672300004754

Abstract

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Four large (n > 1000) populations of Drosophila melanogaster, derived from control populations maintained on a 3 week discrete generation cycle, were subjected to selection for fast development and early reproduction. Egg to eclosion survivorship and development time and dry weight at eclosion were monitored every 10 generations. Over 70 generations of selection, development time in the selected populations decreased by approximately 36 h relative to controls, a 20% decline. The difference in male and female development time was also reduced in the selected populations. Flies from the selected populations were increasingly lighter at eclosion than controls, with the reduction in dry weight at eclosion over 70 generations of selection being approximately 45% in males and 39% in females. Larval growth rate (dry weight at eclosion/development time) was also reduced in the selected lines over 70 generations, relative to controls, by approximately 32% in males and 24% in females. However, part of this relative reduction was due to an increase in growth rate of the controls populations, presumably an expression of adaptation to conditions in our laboratory. After 50 generations of selection had elapsed, a considerable and increasing pre- adult viability cost to faster development became apparent, with viability in the selected populations being about 22% less than that of controls at generation 70 of selection.

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Shakarad, Mallikarjun Prasad, N. G. Rajamani, M. and Joshi, Amitabh 2001. Evolution of faster development does not lead to greater fluctuating asymmetry of sternopleural bristle number inDrosophila. Journal of Genetics, Vol. 80, Issue. 1, p. 1.

Prasad, N. G. Shakarad, Mallikarjun Anitha, D. Rajamani, M. and Joshi, Amitabh 2001. CORRELATED RESPONSES TO SELECTION FOR FASTER DEVELOPMENT AND EARLY REPRODUCTION IN DROSOPHILA: THE EVOLUTION OF LARVAL TRAITS. Evolution, Vol. 55, Issue. 7, p. 1363.

Joshi, Amitabh Prasad, N. G. and Shakarad, Mallikarjun 2001. K-selection, α-selection, effectiveness, and tolerance in competition: Density-dependent selection revisited. Journal of Genetics, Vol. 80, Issue. 2, p. 63.

Cortese, Marcelo D. Norry, Fabian M. Piccinali, Romina and Hasson, Esteban 2002. DIRECT AND CORRELATED RESPONSES TO ARTIFICIAL SELECTION ON DEVELOPMENTAL TIME AND WING LENGTH IN DROSOPHILA BUZZATII. Evolution, Vol. 56, Issue. 12, p. 2541.

Prasad, N. G. and Joshi, Amitabh 2003. What have two decades of laboratory life-history evolution studies onDrosophila melanogaster taught us?. Journal of Genetics, Vol. 82, Issue. 1-2, p. 45.

Chippindale, Adam K. Ngo, Anh L. and Rose, Michael R. 2003. The devil in the details of life-history evolution: Instability and reversal of genetic correlations during selection onDrosophila development. Journal of Genetics, Vol. 82, Issue. 3, p. 133.

de Jong, Gerdien and Bochdanovits, Zoltán 2003. Latitudinal clines inDrosophila melanogaster: Body size, allozyme frequencies, inversion frequencies, and the insulin-signalling pathway. Journal of Genetics, Vol. 82, Issue. 3, p. 207.

Šešlija, Darka and Tucić, Nikola 2003. Selection for developmental time in bean weevil (Acanthoscelides obtectus): correlated responses for other life history traits and genetic architecture of line differentiation. Entomologia Experimentalis et Applicata, Vol. 106, Issue. 1, p. 19.

Bharathi, N. Sharmila Prasad, N. G. Shakarad, Mallikarjun and Joshi, Amitabh 2004. Correlates of sexual dimorphism for dry weight and development time in five species of Drosophila. Journal of Zoology, Vol. 264, Issue. 1, p. 87.

Prasad, N. G. and Shakarad, Mallikarjun N. 2004. Genetic correlations: Transient truths of adaptive evolution. Journal of Genetics, Vol. 83, Issue. 1, p. 3.

Rajamani, M. Raghavendra, N. Prasad, N. G. Archana, N. Joshi, Amitabh and Shakarad, Mallikarjun 2006. Reduced larval feeding rate is a strong evolutionary correlate of rapid development inDrosophila melanogaster . Journal of Genetics, Vol. 85, Issue. 3,

BERNER, DANIEL and BLANCKENHORN, WOLF U. 2006. Grasshopper ontogeny in relation to time constraints: adaptive divergence and stasis. Journal of Animal Ecology, Vol. 75, Issue. 1, p. 130.

Danks, H.V. 2006. Short life cycles in insects and mites. The Canadian Entomologist, Vol. 138, Issue. 4, p. 407.

SINCLAIR, BRENT J. NELSON, SEAN NILSON, THERESA L. ROBERTS, STEPHEN P. and GIBBS, ALLEN G. 2007. The effect of selection for desiccation resistance on cold tolerance of Drosophila melanogaster. Physiological Entomology, Vol. 32, Issue. 4, p. 322.

Prasad, N. G. Bedhomme, S. Day, T. and Chippindale, A. K. 2007. An Evolutionary Cost of Separate Genders Revealed by Male‐Limited Evolution. The American Naturalist, Vol. 169, Issue. 1, p. 29.

Kwan, Lucia Bedhomme, Stéphanie Prasad, N. G. and Chippindale, Adam K. 2008. Sexual conflict and environmental change: trade-offs within and between the sexes during the evolution of desiccation resistance. Journal of Genetics, Vol. 87, Issue. 4, p. 383.

FOLGUERA, GUILLERMO CEBALLOS, SANTIAGO SPEZZI, LUCIANA FANARA, JUAN JOSÉ and HASSON, ESTEBAN 2008. Clinal variation in developmental time and viability, and the response to thermal treatments in two species of Drosophila. Biological Journal of the Linnean Society, Vol. 95, Issue. 2, p. 233.

Zwaan, Bas J. Zijlstra, Wilte G. Keller, Marieke Pijpe, Jeroen and Brakefield, Paul M. 2008. Potential constraints on evolution: sexual dimorphism and the problem of protandry in the butterfly Bicyclus anynana. Journal of Genetics, Vol. 87, Issue. 4, p. 395.

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Evolution of reduced pre-adult viability and larval growth rate in laboratory populations of Drosophila melanogaster selected for shorter development time

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