Resource allocation in a social wasp: effects of breeding system and life cycle on reproductive decisions

Organisms must make important decisions on how to allocate resources to reproduction. We investigated allocation decisions in the social wasp Vespula maculifrons to understand how social insects make reproductive choices. We first determined how annual colonies apportioned resources to growth and re...

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Bibliographic Details
Published in:Molecular ecology 2009-07, Vol.18 (13), p.2908-2920
Main Authors: Johnson, Elizabeth L, Cunningham, Tyler W, Marriner, Sarah M, Kovacs, Jennifer L, Hunt, Brendan G, Bhakta, Dimpal B, Goodisman, Michael A.D
Format: Article
Language:English
Subjects:
Animal behavior
Animal reproduction
Animals
Female
Genetic Markers
Hymenoptera
Insects
kin selection
Life cycles
life-history strategy
Male
Nesting Behavior
optimal resource allocation
polyandry
Reproduction - genetics
reproductive competition
Resource allocation
Sequence Analysis, DNA
Sex Ratio
Sexual Behavior, Animal
social insect
social insects
Vespula maculifrons
Wasps - genetics
Wasps - growth & development
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Summary:Organisms must make important decisions on how to allocate resources to reproduction. We investigated allocation decisions in the social wasp Vespula maculifrons to understand how social insects make reproductive choices. We first determined how annual colonies apportioned resources to growth and reproduction by analysing developing brood. In contrast to expectations, colonies invested in both growth (workers) and reproduction (males) simultaneously. In addition, colonies showed evidence of producing males in pulses and reversing their reproductive choices by decreasing investment in males late in the season. This reversal is consistent with theory suggesting that colonies decrease production in males if fitness of late emerging males is low. To further investigate reproductive decisions within colonies, we determined if the male mates of multiply-mated queens varied in their reproductive success over time. Sperm use by queens did vary over time suggesting that male success may depend on sperm clumping within the female reproductive tract. Finally, we tested if colony sex ratio conformed to expectations under kin selection theory that nestmate relatedness would positively correlate with investment in new queens if workers controlled sex allocation. Surprisingly, the proportion of queens produced by colonies was negatively correlated with nestmate relatedness, suggesting that allocation may be shaped by advantages arising from increased genetic diversity resulting from multiple mating by queens. Overall, our study suggests that the reproductive decisions of colonies are flexible and may depend both on environmental cues arising from energetic needs of the colony and genetic cues arising from mating behaviours of queens.
ISSN:0962-1083
1365-294X
DOI:10.1111/j.1365-294X.2009.04240.x