Wider investigations of these plastic strategies, their fitness o

Wider investigations of these plastic strategies, their fitness outcomes for both sexes, and sex-specific control are therefore required. http://www.selleckchem.com/products/Roscovitine.html Given more evidence of the extent of sex-specific control over shared traits in general it may also then be possible to determine whether this occurs due to an attempt to resolve sexual conflict, because of a coincidence of interests, or because of better information gathering by one sex than the other about what the value of the shared trait should be. We thank the BBSRC for funding (research grant to T.C., Matthew J.G. Gage and A.B.). We thank James Rouse for help with data collection and two anonymous referees for their constructive

comments on an earlier version AZD6244 cell line of this manuscript. “
“Vespine wasps of the genus Vespula are capable of a very impressive thermoregulatory performance ( Coelho and Ross, 1996, Heinrich, 1989, Kovac and Stabentheiner, 1999 and Kovac et al., 2009). Endothermy improves muscular function ( Coelho, 1991), which improves agility

and enables them to carry heavy loads during foraging ( Kovac and Stabentheiner, 1999 and Kovac et al., 2009). Endothermy is also used to regulate the nest temperature ( Himmer, 1927, Schmolz et al., 1993 and Steiner, 1930). A high nest temperature in honeybees speeds up larval development ( Petz et al., 2004). However, in the nest of D-malate dehydrogenase honeybees, which have a comparable social thermoregulatory capacity, most bees are ectothermic ( Stabentheiner et al., 2003 and Stabentheiner

et al., 2010). The same has to be assumed for the nest of vespine wasps. Basal metabolism of the ectothermic insects provides a considerable amount of heat for social thermoregulation ( Kovac et al., 2007, Petz et al., 2004, Schmolz et al., 1993 and Stabentheiner et al., 2010). As in the wasps’ nests temperature varies more than in honeybee nests (e.g. Büdel, 1955, Himmer, 1962, Klingner et al., 2005, Klingner et al., 2006, Simpson, 1961 and Steiner, 1930) the temperature dependence of their resting metabolism is of special interest. The resting metabolism as a measure of the basal metabolism, however, has not yet been well investigated in vespine wasps. Wasp nests may cool considerably during cold nights ( Himmer, 1962, Klingner et al., 2005, Klingner et al., 2006 and Steiner, 1930), and the individuals’ resting metabolism is important also outside their thermal optimum. To gain a comprehensive overview of an insect’s physiological reaction to environmental changes, analysis over the animal’s entire viable temperature range is a necessity. Therefore we measured the CO2 production of resting Vespula vulgaris and Vespula germanica foragers in the entire range of temperatures they are likely exposed to in a breeding season (2.9–42.4 °C) in Central Europe.

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