Burying beetles mix a special growth potion for their young: one part dead mice, many parts bacteria

Same-sex sexual behaviour (SSB) has been documented in a wide range of animals, but its evolutionary causes are not well understood. Here, we investigated SSB in the light of Reeve's acceptance threshold theory. When recognition is not error-proof, the acceptance threshold used by males to recognize potential mating partners should be flexibly adjusted to maximize the fitness pay-off between the costs of erroneously accepting males and the benefits of accepting females. By manipulating male burying beetles' search time for females and their reproductive potential, we influenced their perceived costs of making an acceptance or rejection error. As predicted, when the costs of rejecting females increased, males exhibited more permissive discrimination decisions and showed high levels of SSB; when the costs of accepting males increased, males were more restrictive and showed low levels of SSB. Our results support the idea that in animal species, in which the recognition cues of females and males overlap to a certain degree, SSB is a consequence of an adaptive discrimination strategy to avoid the costs of making rejection errors.

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The Role of Conflict in Breeding Systems: Burying Beetles as Experimental Organisms

The American Biology Teacher ◽

10.2307/4450092 ◽

1996 ◽

Vol 58 (2) ◽

pp. 118-121 ◽

Cited By ~ 4

Author(s):

Stephen T. Trumbo

Keyword(s):

Breeding Systems ◽

Burying Beetles

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Intended and unintended receivers of the male pheromones of the burying beetles Nicrophorus humator and Nicrophorus vespilloides

Entomologia Experimentalis et Applicata ◽

10.1111/j.1570-7458.2011.01143.x ◽

2011 ◽

Vol 140 (2) ◽

pp. 122-126 ◽

Cited By ~ 10

Author(s):

Wolf Haberer ◽

Thomas Schmitt ◽

Peter Schreier ◽

Josef K. Müller

Keyword(s):

Burying Beetles ◽

Male Pheromones ◽

Nicrophorus Vespilloides

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Rapid, ultra-local adaptation facilitated by phenotypic plasticity

10.1101/598292 ◽

2019 ◽

Author(s):

Syuan-Jyun Sun ◽

Andrew M. Catherall ◽

Sonia Pascoal ◽

Benjamin J. M. Jarrett ◽

Sara E. Miller ◽

...

Keyword(s):

Gene Flow ◽

Rapid Evolution ◽

Reaction Norm ◽

Ancestral Population ◽

Adaptive Divergence ◽

Wild Populations ◽

Rapid Adaptation ◽

Burying Beetles ◽

Genetic Accommodation ◽

Nicrophorus Vespilloides

AbstractModels of ‘plasticity-first’ evolution are attractive because they explain the rapid evolution of new complex adaptations. Nevertheless, it is unclear whether plasticity can still facilitate rapid evolution when diverging populations are connected by gene flow. Here we show how plasticity has generated adaptive divergence in fecundity in wild populations of burying beetlesNicrophorus vespilloides, which are still connected by gene flow, which occupy distinct Cambridgeshire woodlands that are just 2.5km apart and which diverged from a common ancestral population c. 1000-4000 years ago. We show that adaptive divergence is duetothe coupling of an evolved increase in the elevation of the reaction norm linking clutch size to carrion size (i.e. genetic accommodation) with plastic secondary elimination of surplus offspring. Working in combination, these two processes have facilitated rapid adaptation to fine-scale environmental differences, despite ongoing gene flow.

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Climate-mediated cooperation promotes niche expansion in burying beetles

eLife ◽

10.7554/elife.02440 ◽

2014 ◽

Vol 3 ◽

Cited By ~ 22

Author(s):

Syuan-Jyun Sun ◽

Dustin R Rubenstein ◽

Bo-Fei Chen ◽

Shih-Fan Chan ◽

Jian-Nan Liu ◽

...

Keyword(s):

Climate Change ◽

Small Groups ◽

Social Insects ◽

Breeding Success ◽

Cooperative Groups ◽

Burying Beetles ◽

Ecological Consequences ◽

Social Species ◽

The Earth ◽

Large Groups

The ability to form cooperative societies may explain why humans and social insects have come to dominate the earth. Here we examine the ecological consequences of cooperation by quantifying the fitness of cooperative (large groups) and non-cooperative (small groups) phenotypes in burying beetles (Nicrophorus nepalensis) along an elevational and temperature gradient. We experimentally created large and small groups along the gradient and manipulated interspecific competition with flies by heating carcasses. We show that cooperative groups performed as thermal generalists with similarly high breeding success at all temperatures and elevations, whereas non-cooperative groups performed as thermal specialists with higher breeding success only at intermediate temperatures and elevations. Studying the ecological consequences of cooperation may not only help us to understand why so many species of social insects have conquered the earth, but also to determine how climate change will affect the success of these and other social species, including our own.

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Peer Review #1 of "Ecological divergence of burying beetles into the forest canopy (v0.2)"

10.7287/peerj.5829v0.2/reviews/1 ◽

2018 ◽

Keyword(s):

Peer Review ◽

Forest Canopy ◽

Burying Beetles ◽

Ecological Divergence

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Evolutionary change in the construction of the nursery environment when parents are prevented from caring for their young directly

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.2102450118 ◽

2021 ◽

Vol 118 (48) ◽

pp. e2102450118

Author(s):

Ana Duarte ◽

Darren Rebar ◽

Allysa C. Hallett ◽

Benjamin J. M. Jarrett ◽

Rebecca M. Kilner

Keyword(s):

Parental Care ◽

Experimental Evolution ◽

Evolutionary Change ◽

Direct Care ◽

Dead Body ◽

Extended Phenotype ◽

Burying Beetle ◽

Burying Beetles ◽

Nicrophorus Vespilloides ◽

Cross Fostering

Parental care can be partitioned into traits that involve direct engagement with offspring and traits that are expressed as an extended phenotype and influence the developmental environment, such as constructing a nursery. Here, we use experimental evolution to test whether parents can evolve modifications in nursery construction when they are experimentally prevented from supplying care directly to offspring. We exposed replicate experimental populations of burying beetles (Nicrophorus vespilloides) to different regimes of posthatching care by allowing larvae to develop in the presence (Full Care) or absence of parents (No Care). After only 13 generations of experimental evolution, we found an adaptive evolutionary increase in the pace at which parents in the No Care populations converted a dead body into a carrion nest for larvae. Cross-fostering experiments further revealed that No Care larvae performed better on a carrion nest prepared by No Care parents than did Full Care larvae. We conclude that parents construct the nursery environment in relation to their effectiveness at supplying care directly, after offspring are born. When direct care is prevented entirely, they evolve to make compensatory adjustments to the nursery in which their young will develop. The rapid evolutionary change observed in our experiments suggests there is considerable standing genetic variation for parental care traits in natural burying beetle populations—for reasons that remain unclear.

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