Evol Ecol Res 11: 1111-1130 (2009)     Full PDF if your library subscribes.

Size-dependent energetics of metamorphosis in the yellow dung fly, Scathophaga stercoraria

Constanze Reim, Christian Kaufmann*, and Wolf U. Blanckenhorn

Zoologisches Museum, Universität Zürich-Irchel, Zürich, Switzerland

Correspondence: W.U. Blanckenhorn, Zoologisches Museum, Universität Zürich-Irchel, Winterthurerstrasse 190, CH-8057 Zürich, Switzerland.
e-mail: wolfman@zm.uzh.ch


Competing hypotheses: (1) Large body size confers more efficient energy use (relative efficiency hypothesis). (2) Large body size requires more energy to be sustained, a disadvantage when food is limited (absolute energy demand hypothesis).

Organism: Yellow dung flies, Scathophaga stercoraria (Diptera: Scathophagidae), artificially selected for large and small body size in the laboratory for 24 generations to augment the available phenotypic body sizes.

Methods: Larvae were reared under limited and unlimited food (dung) conditions, and the energy content of pupae was measured at the beginning and the end of the pupal stage in different, size-matched individuals.

Conclusions: Over the pupal period, lipids and glycogen decreased whereas sugar content increased. Net energy loss per unit body mass was higher at unlimited food. Contrary to expectation, males (the larger sex) lost less energy than females. Large selection line pupae showed the highest absolute and mass-specific energy loss during metamorphosis, indicating a correlated physiological response to body size selection because phenotypic body sizes do not differ between the lines at limited dung. We conclude that energetic costs due to greater absolute energy demand of larger individuals during the pupal phase outweigh the benefits due to greater metabolic efficiency.

Keywords: artificial selection, body size, development, energy reserves, insect pupa, life history, metabolic rate, survival.

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