Data from: Queen longevity and fecundity affect conflict with workers over resource inheritance in a social insect
Data from: Queen longevity and fecundity affect conflict with workers over resource inheritance in a social insect
1 - Experiment_(a)_dataExperiment (a): data2 - Experiment_(b)_frequency of egg-laying eventsExperiment (b): frequency of egg-laying events3 - Experiment_(b)_number of eggs laid per eventExperiment (b): number of eggs laid per event4 - Experiment_(c)_digitalfilmaggressionallsepExperiment (c): worker-to-queen aggression as a function of treatment5 - Experiment_(c)_queenactivityrateExperiment (c): queen activity rate6 - Experiment_(c)_anytimeperiodExperiment (c): worker-to-queen aggression as a function of worker reproductive status - any time period7 - Experiment_(c)_eggmanipulationperiodonlyExperiment (c): worker-to-queen aggression as a function of worker reproductive status - egg manipulation period only8 - Experiment_(c)_queeneggproductionExperiment (c): queen egg production,Resource inheritance is a major source of conflict in animal societies. However, the assumptions and predictions of models of conflict over resource inheritance have not been systematically tested within a single system. We developed an inclusive fitness model for annual eusocial Hymenoptera that predicts a zone of conflict in which future reproductive workers are selected to enforce nest inheritance before the queen is selected to cede the nest. We experimentally tested key elements of this model in the bumble bee Bombus terrestris. In colonies from which queens were sequentially removed, queen tenure was significantly negatively associated with worker male production, confirming that workers gain direct fitness by usurping the queen. In unmanipulated colonies, queen fecundity decreased significantly over the latter part of the colony cycle, confirming that workers' indirect fitness from maintaining queens declines over time. Finally, in an experiment simulating loss of queen fecundity by removal of queens' eggs, worker-to-queen aggression increased significantly and aggressive workers were significantly more likely to become egg-layers, consistent with workers monitoring queen fecundity to assess the net benefit of future reproduction. Overall, by upholding key assumptions and predictions of the model, our results provide novel empirical support for kin-selected conflict over resource inheritance.
Almond, Edward J.
cc3a261b-51af-49db-86f0-521c84ad5fe9
Huggins, Timothy J.
e73438a7-8180-4082-95e4-0b28b48684f9
Crowther, Liam P.
1ebe9256-e43b-49e7-b5ee-e53a1ce9acb3
Parker, Joel D.
23c6e137-cc5c-4ea1-a9b2-c87d750a68f5
Bourke, Andrew F. G.
74dea7af-cba7-4aeb-997c-cb615e9f0186
Almond, Edward J.
cc3a261b-51af-49db-86f0-521c84ad5fe9
Huggins, Timothy J.
e73438a7-8180-4082-95e4-0b28b48684f9
Crowther, Liam P.
1ebe9256-e43b-49e7-b5ee-e53a1ce9acb3
Parker, Joel D.
23c6e137-cc5c-4ea1-a9b2-c87d750a68f5
Bourke, Andrew F. G.
74dea7af-cba7-4aeb-997c-cb615e9f0186
(2018)
Data from: Queen longevity and fecundity affect conflict with workers over resource inheritance in a social insect.
DRYAD
doi:10.5061/dryad.84033r7
[Dataset]
Abstract
1 - Experiment_(a)_dataExperiment (a): data2 - Experiment_(b)_frequency of egg-laying eventsExperiment (b): frequency of egg-laying events3 - Experiment_(b)_number of eggs laid per eventExperiment (b): number of eggs laid per event4 - Experiment_(c)_digitalfilmaggressionallsepExperiment (c): worker-to-queen aggression as a function of treatment5 - Experiment_(c)_queenactivityrateExperiment (c): queen activity rate6 - Experiment_(c)_anytimeperiodExperiment (c): worker-to-queen aggression as a function of worker reproductive status - any time period7 - Experiment_(c)_eggmanipulationperiodonlyExperiment (c): worker-to-queen aggression as a function of worker reproductive status - egg manipulation period only8 - Experiment_(c)_queeneggproductionExperiment (c): queen egg production,Resource inheritance is a major source of conflict in animal societies. However, the assumptions and predictions of models of conflict over resource inheritance have not been systematically tested within a single system. We developed an inclusive fitness model for annual eusocial Hymenoptera that predicts a zone of conflict in which future reproductive workers are selected to enforce nest inheritance before the queen is selected to cede the nest. We experimentally tested key elements of this model in the bumble bee Bombus terrestris. In colonies from which queens were sequentially removed, queen tenure was significantly negatively associated with worker male production, confirming that workers gain direct fitness by usurping the queen. In unmanipulated colonies, queen fecundity decreased significantly over the latter part of the colony cycle, confirming that workers' indirect fitness from maintaining queens declines over time. Finally, in an experiment simulating loss of queen fecundity by removal of queens' eggs, worker-to-queen aggression increased significantly and aggressive workers were significantly more likely to become egg-layers, consistent with workers monitoring queen fecundity to assess the net benefit of future reproduction. Overall, by upholding key assumptions and predictions of the model, our results provide novel empirical support for kin-selected conflict over resource inheritance.
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Published date: 2018
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Local EPrints ID: 448480
URI: http://eprints.soton.ac.uk/id/eprint/448480
PURE UUID: 8c921450-1783-4f08-9b5f-d2564dd185d7
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Date deposited: 22 Apr 2021 16:48
Last modified: 18 Jul 2023 16:57
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Contributors
Contributor:
Edward J. Almond
Contributor:
Timothy J. Huggins
Contributor:
Liam P. Crowther
Contributor:
Joel D. Parker
Contributor:
Andrew F. G. Bourke
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