Book contents
- Frontmatter
- Contents
- Contributors
- Acknowledgements
- Introduction
- 1 Are behavioral classifications blinders to studying natural variation?
- 2 Life beneath silk walls: a review of the primitively social Embiidina
- 3 Postovulation parental investment and parental care in cockroaches
- 4 The spectrum of eusociality in termites
- 5 Maternal care in the Hemiptera: ancestry, alternatives, and current adaptive value
- 6 Evolution of paternal care in the giant water bugs (Heteroptera: Belostomatidae)
- 7 The evolution of sociality in aphids: a clone's-eye view
- 8 Ecology and evolution of social behavior among Australian gall thrips and their allies
- 9 Interactions among males, females and offspring in bark and ambrosia beetles: the significance of living in tunnels for the evolution of social behavior
- 10 Biparental care and social evolution in burying beetles: lessons from the larder
- 11 Subsocial behavior in Scarabaeinae beetles
- 12 The evolution of social behavior in Passalidae (Coleoptera)
- 13 The evolution of social behavior in the augochlorine sweat bees (Hymenoptera: Halictidae) based on a phylogenetic analysis of the genera
- 14 Demography and sociality in halictine bees (Hymenoptera: Halictidae)
- 15 Behavioral environments of sweat bees (Halictinae) in relation to variability in social organization
- 16 Intrinsic and extrinsic factors associated with social evolution in allodapine bees
- 17 Cooperative breeding in wasps and vertebrates: the role of ecological constraints
- 18 Morphologically ‘primitive’ ants: comparative review of social characters, and the importance of queen–worker dimorphism
- 19 Social conflict and cooperation among founding queens in ants (Hymenoptera: Formicidae)
- 20 Social evolution in the Lepidoptera: ecological context and communication in larval societies
- 21 Sociality and kin selection in Acari
- 22 Colonial web-building spiders: balancing the costs and benefits of group-living
- 23 Causes and consequences of cooperation and permanent-sociality in spiders
- 24 Explanation and evolution of social systems
- Organism index
- Subject index
10 - Biparental care and social evolution in burying beetles: lessons from the larder
Published online by Cambridge University Press: 06 July 2010
- Frontmatter
- Contents
- Contributors
- Acknowledgements
- Introduction
- 1 Are behavioral classifications blinders to studying natural variation?
- 2 Life beneath silk walls: a review of the primitively social Embiidina
- 3 Postovulation parental investment and parental care in cockroaches
- 4 The spectrum of eusociality in termites
- 5 Maternal care in the Hemiptera: ancestry, alternatives, and current adaptive value
- 6 Evolution of paternal care in the giant water bugs (Heteroptera: Belostomatidae)
- 7 The evolution of sociality in aphids: a clone's-eye view
- 8 Ecology and evolution of social behavior among Australian gall thrips and their allies
- 9 Interactions among males, females and offspring in bark and ambrosia beetles: the significance of living in tunnels for the evolution of social behavior
- 10 Biparental care and social evolution in burying beetles: lessons from the larder
- 11 Subsocial behavior in Scarabaeinae beetles
- 12 The evolution of social behavior in Passalidae (Coleoptera)
- 13 The evolution of social behavior in the augochlorine sweat bees (Hymenoptera: Halictidae) based on a phylogenetic analysis of the genera
- 14 Demography and sociality in halictine bees (Hymenoptera: Halictidae)
- 15 Behavioral environments of sweat bees (Halictinae) in relation to variability in social organization
- 16 Intrinsic and extrinsic factors associated with social evolution in allodapine bees
- 17 Cooperative breeding in wasps and vertebrates: the role of ecological constraints
- 18 Morphologically ‘primitive’ ants: comparative review of social characters, and the importance of queen–worker dimorphism
- 19 Social conflict and cooperation among founding queens in ants (Hymenoptera: Formicidae)
- 20 Social evolution in the Lepidoptera: ecological context and communication in larval societies
- 21 Sociality and kin selection in Acari
- 22 Colonial web-building spiders: balancing the costs and benefits of group-living
- 23 Causes and consequences of cooperation and permanent-sociality in spiders
- 24 Explanation and evolution of social systems
- Organism index
- Subject index
Summary
ABSTRACT
Burying beetles (Coleoptera: Silphidae: Nicrophorus) exhibit elaborate biparental care. Males and females independently search for small vertebrate carcasses, which serve as the sole food source for developing young. Both parents prepare the carcass for burial, excavate a cavity in the carcass within which the young feed, provision the young during the early stages of their development, and protect them from conspecific and interspecific predators and competitors. Carrion is an extremely nutrient–rich resource, but it can vary greatly in quantity and quality, and owing to its rarity and ephemeral nature, its occurrence is highly unpredictable. We propose that many of the sexual and parental behaviors of Nicrophorus can be regarded as adaptations to the unique problems posed by these resource features. Competition for carrion is intense; consequently, traits that help reduce or eliminate competition, such as carcass burial, should increase reproductive success.
Competition among burying beetles is manifest in inter– and intraspecific aggressive interactions that can escalate into damaging fights. However, losers of contests over carcasses can adopt alternative reproductive tactics: subordinate females can leave some young to be cared for by a dominant female, and subordinate males can sire offspring by surreptitiously mating with the resident female. Males can also inseminate females without having found a carcass, but the number of offspring resulting from these matings is small relative to that of parental males on carcasses.
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- Information
- The Evolution of Social Behaviour in Insects and Arachnids , pp. 216 - 236Publisher: Cambridge University PressPrint publication year: 1997
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