Data from: Nutritional geometry of paternal effects on embryo mortality

  • Michal Polak (University of Cincinnati) (Creator)
  • Leigh Simmons (Creator)
  • Joshua B. Benoit (Creator)
  • Kari Ruohonen (Creator)
  • Stephen J. Simpson (Creator)
  • Samantha M. Solon-Biet (Creator)



Well-established causal links exist between maternal nutritional deficits and embryo health and viability. By contrast, environmental effects operating through the father that could influence embryo mortality have seldom been examined. Yet, ejaculates can require non-trivial resource allocation, and seminal plasma components are increasingly recognized to exert wide-ranging effects on females and offspring, so paternal dietary effects on the embryo should be expected. We test for effects of varying levels of protein (P), carbohydrate (C) and caloric load in adult male diet on embryo mortality in Drosophila melanogaster. We demonstrate that macronutrient balance and caloric restriction exert significant effects, and that nutritional effects are more impactful when a prior mating has occurred. Once-mated males produced embryos with marginally elevated mortality under high-caloric densities and a 1 : 8 P : C ratio. In contrast, embryos produced by twice-mated males were significantly more likely to die under male caloric restriction, an outcome that may have resulted from shifts in ejaculate quality and/or epigenetic paternal effects. Body nutrient reserves were strongly and predictably altered by diet, and body condition, in turn, was negatively related to embryo mortality. Thus, sire nutritional history and resultant shifts in metabolic state predict embryo viability and post-fertilization fitness outcomes.,A_females_sugars_combinedEmbryo mortality data for "A" femalesB_females_sugars_combinedEmbryo mortality data for "B" femalesDeath_rate_and_nutrient_reservesAverage embryo mortality and nutrient reserves data,
Date made available11 Sept 2017

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