scholarly journals Ecological divergence of burying beetles into the forest canopy

PeerJ ◽  
2018 ◽  
Vol 6 ◽  
pp. e5829 ◽  
Author(s):  
Jillian D. Wettlaufer ◽  
Kevin W. Burke ◽  
Adam Schizkoske ◽  
David V. Beresford ◽  
Paul R. Martin
Keyword(s):  
Forest Canopy ◽  
Sympatric Species ◽  
Burying Beetle ◽  
Burying Beetles ◽  
Closely Related Species ◽  
Geographic Ranges ◽  
Vertical Partitioning ◽  
Nicrophorus Orbicollis ◽  
Carrion Beetles ◽  
Number Of Individuals

Closely related species with overlapping geographic ranges encounter a significant challenge: they share many ecological traits and preferences but must partition resources to coexist. In Ontario, potentially eleven species of carrion beetles (Coleoptera: Silphidae) live together and require vertebrate carrion for reproduction. Their reliance on an ephemeral and uncommon resource that is unpredictable in space and time is thought to create intense intra- and interspecific competition. Evidence suggests that burying beetle species reduce competition by partitioning carrion for breeding across different habitats, temperatures, and seasons. Here, we test predictions of an alternative axis for partitioning carrion: vertical partitioning between the ground and forest canopy. We conducted a survey of carrion beetles from May to July 2016 at the Queen’s University Biological Station across 50 randomly generated points using baited lethal traps at zero and six metres. Ground traps yielded more species and individuals compared to those in the canopy, and the number of individuals and species caught increased through the season in both trap types. Ground and canopy traps were accurately distinguished by the presence or absence of three species: ground traps contained more Nicrophorus orbicollis and Necrophila americana, while canopy traps contained more Nicrophorus pustulatus. We trapped 253 N. pustulatus in the canopy, but only 60 on the ground. N. pustulatus is thought to be rare across its geographic range, but our results suggest it is uniquely common in canopy habitats, demonstrating a vertical partitioning of habitat and resources. Our results are consistent with N. pustulatus having diverged into canopy habitats as a strategy to coexist with closely related sympatric species when competing for similar resources. We still, however, do not know the traits that allow N. pustulatus to flourish in the canopy, exactly how N. pustulatus uses canopy resources for breeding, or the factors that restrict the expansion of other burying beetles into this habitat.

scholarly journals Ecological divergence of burying beetles into the forest canopy

2017 ◽  
Author(s):  
Jillian D Wettlaufer ◽  
Kevin W Burke ◽  
Adam Schizkoske ◽  
David V Beresford ◽  
Paul R Martin
Keyword(s):  
Forest Canopy ◽  
Common Species ◽  
Sympatric Species ◽  
Burying Beetle ◽  
Burying Beetles ◽  
Geographic Ranges ◽  
Vertical Partitioning ◽  
Nicrophorus Orbicollis ◽  
Carrion Beetles ◽  
Number Of Individuals

Closely related species with overlapping geographic ranges encounter a significant challenge: they share many ecological traits and preferences but must partition resources to coexist. In Ontario, potentially eleven species of carrion beetles (Coleoptera: Silphidae) live together and require vertebrate carrion for reproduction. Their reliance on an ephemeral and uncommon resource that is unpredictable in space and time is thought to create intense intra- and interspecific competition. Evidence suggests that burying beetle species reduce competition by partitioning carrion for breeding across different habitats, temperatures, and seasons. Here, we test predictions of an alternative axis for partitioning carrion: vertical partitioning between the ground and forest canopy. We conducted a survey of carrion beetles from May to July 2016 at the Queen’s University Biological Station across 50 randomly generated points using baited lethal traps at 0m and 6m. Ground traps yielded more species and individuals compared to those in the canopy, and the number of individuals and species caught increased through the season in both trap types. Ground and canopy traps were accurately distinguished by the presence or absence of three predictor species: ground traps contained more Nicrophorus orbicollis and Necrophila americana, while canopy traps contained more Nicrophorus pustulatus. Indeed, we trapped 253 N. pustulatus in the canopy, but only 60 on the ground; N. pustulatus was the most common species in the canopy, and the only species that was more common in the 6m traps than on the ground. N. pustulatus is thought to be rare across its geographic range, but our results suggest instead that N. pustulatus is uniquely common in canopy habitats, demonstrating a vertical partitioning of habitat and resources between N. pustulatus and other co-occurring burying beetles. Our results are consistent with N. pustulatus having diverged into canopy habitats as a strategy to coexist with closely related sympatric species when competing for similar resources. We still, however, do not know the traits that allow N. pustulatus to flourish in the canopy, exactly how N. pustulatus uses canopy resources for breeding, or the factors that restrict the expansion of other burying beetles into this habitat.

scholarly journals Ecological divergence of burying beetles into the forest canopy

2017 ◽  
Author(s):  
Jillian D Wettlaufer ◽  
Kevin W Burke ◽  
Adam Schizkoske ◽  
David V Beresford ◽  
Paul R Martin
Keyword(s):  
Forest Canopy ◽  
Common Species ◽  
Sympatric Species ◽  
Burying Beetle ◽  
Burying Beetles ◽  
Geographic Ranges ◽  
Vertical Partitioning ◽  
Nicrophorus Orbicollis ◽  
Carrion Beetles ◽  
Number Of Individuals

Closely related species with overlapping geographic ranges encounter a significant challenge: they share many ecological traits and preferences but must partition resources to coexist. In Ontario, potentially eleven species of carrion beetles (Coleoptera: Silphidae) live together and require vertebrate carrion for reproduction. Their reliance on an ephemeral and uncommon resource that is unpredictable in space and time is thought to create intense intra- and interspecific competition. Evidence suggests that burying beetle species reduce competition by partitioning carrion for breeding across different habitats, temperatures, and seasons. Here, we test predictions of an alternative axis for partitioning carrion: vertical partitioning between the ground and forest canopy. We conducted a survey of carrion beetles from May to July 2016 at the Queen’s University Biological Station across 50 randomly generated points using baited lethal traps at 0m and 6m. Ground traps yielded more species and individuals compared to those in the canopy, and the number of individuals and species caught increased through the season in both trap types. Ground and canopy traps were accurately distinguished by the presence or absence of three predictor species: ground traps contained more Nicrophorus orbicollis and Necrophila americana, while canopy traps contained more Nicrophorus pustulatus. Indeed, we trapped 253 N. pustulatus in the canopy, but only 60 on the ground; N. pustulatus was the most common species in the canopy, and the only species that was more common in the 6m traps than on the ground. N. pustulatus is thought to be rare across its geographic range, but our results suggest instead that N. pustulatus is uniquely common in canopy habitats, demonstrating a vertical partitioning of habitat and resources between N. pustulatus and other co-occurring burying beetles. Our results are consistent with N. pustulatus having diverged into canopy habitats as a strategy to coexist with closely related sympatric species when competing for similar resources. We still, however, do not know the traits that allow N. pustulatus to flourish in the canopy, exactly how N. pustulatus uses canopy resources for breeding, or the factors that restrict the expansion of other burying beetles into this habitat.

Habitat use of co-occurring burying beetles (genus Nicrophorus) in southeastern Ontario, Canada

2020 ◽  
Vol 98 (9) ◽  
pp. 591-602
Author(s):  
K.W. Burke ◽  
J.D. Wettlaufer ◽  
D.V. Beresford ◽  
P.R. Martin
Keyword(s):  
Habitat Use ◽  
Forest Canopy ◽  
Habitat Associations ◽  
Habitat Characteristics ◽  
Habitat Partitioning ◽  
Shared Resources ◽  
Burying Beetles ◽  
Local Diversity ◽  
Nicrophorus Orbicollis ◽  
Nicrophorus Marginatus

The coexistence of closely related species plays an important role in shaping local diversity. However, competition for shared resources can limit the ability of species to coexist. Many species avoid the costs of coexistence by diverging in habitat use, known as habitat partitioning. We examine patterns of habitat use in seven co-occurring species of burying beetles (genus Nicrophorus Fabricius, 1775), testing the hypothesis that Nicrophorus species partition resources by occupying distinct habitats. We surveyed Nicrophorus abundance and 54 habitat characteristics at 100 random sites spanning an environmentally diverse region of southeastern Ontario, Canada. We found that three species occupied distinct habitat types consistent with habitat partitioning. Specifically, Nicrophorus pustulatus Herschel, 1807, Nicrophorus hebes Kirby, 1837, and Nicrophorus marginatus Fabricius, 1801 appear to be specialists for forest canopy, wetlands, and open fields, respectively. In contrast, Nicrophorus orbicollis Say, 1825, Nicrophorus sayi Laporte, 1840, and Nicrophorus tomentosus Weber, 1801 appear to be generalists with wide breadths of habitat use. We were unable to identify the habitat associations of Nicrophorus defodiens Mannerheim, 1846. Our findings are consistent with habitat acting as an important resource axis along which some Nicrophorus species partition; however, divergence along other resource axes (e.g., temporal partitioning) also appears important for Nicrophorus coexistence.

scholarly journals Divergent coevolutionary trajectories in parent–offspring interactions and discrimination against brood parasites revealed by interspecific cross-fostering

2018 ◽  
Vol 5 (6) ◽  
pp. 180189 ◽  
Author(s):  
Alexandra Capodeanu-Nägler ◽  
Elena Ruiz de la Torre ◽  
Anne-Katrin Eggert ◽  
Scott K. Sakaluk ◽  
Sandra Steiger
Keyword(s):  
Interspecific Cross ◽  
Offspring Survival ◽  
Burying Beetles ◽  
Differential Survival ◽  
Closely Related Species ◽  
Brood Parasites ◽  
Nicrophorus Vespilloides ◽  
Nicrophorus Orbicollis ◽  
Direct Recognition ◽  
Cross Fostering

In animal families, parents are expected to adapt to their offspring's traits, and offspring, in turn, are expected to adapt to the environment circumscribed by their parents. However, whether such coevolutionary trajectories differ between closely related species is poorly understood. Here, we employ interspecific cross-fostering in three species of burying beetles, Nicrophorus orbicollis , Nicrophorus pustulatus and Nicrophorus vespilloides , to test for divergent co-adaptation among species with different degrees of offspring dependency on parental care, and to test whether they are able to discriminate against interspecific parasites. We found that offspring survival was always higher when offspring were reared by conspecific rather than heterospecific parents. In the case of N. orbicollis raising N. pustulatus , none of the larvae survived. Overall, these results indicate that parent and offspring traits have diverged between species, and that the differential survival of conspecific and heterospecific larvae is because of improper matching of co-adapted traits, or, in the case of N. orbicollis with larval N. pustulatus , because of selection on parents to recognize and destroy interspecific brood parasites. We suggest that burying beetles experiencing a high risk of brood parasitism have evolved direct recognition mechanisms that enable them to selectively kill larvae of potential brood parasites.

scholarly journals The transcriptional basis of quantitative behavioral variation

2017 ◽  
Author(s):  
Kyle M. Benowitz ◽  
Elizabeth C. McKinney ◽  
Christopher B. Cunningham ◽  
Allen J. Moore
Keyword(s):  
Gene Expression ◽  
Parental Care ◽  
Behavioral State ◽  
Rna Seq ◽  
Burying Beetle ◽  
Burying Beetles ◽  
Behavioral Variation ◽  
Provisioning Behavior ◽  
Nicrophorus Vespilloides ◽  
Nicrophorus Orbicollis

AbstractWhat causes individuals to produce quantitatively different phenotypes? While substantial research has focused on the allelic changes that affect phenotype, we know less about how gene expression accompanies variable phenotypes. Here, we investigate the transcriptional basis of variation in parental provisioning using two species of burying beetle, Nicrophorus orbicollis and Nicrophorus vespilloides. Specifically, we used RNA-seq to compare the transcriptomes of parents that provided high amounts of provisioning behavior versus low amounts in males and females of each species. We found that there were no overarching transcriptional patterns that distinguish high from low caring parents, and no informative transcripts that displayed particularly large expression differences in females or males. However, we did find more subtle gene expression changes between high and low provisioning parents that are consistent across sexes as well as between the two species. Furthermore, we show that transcripts previously implicated in transitioning into parental care in N. vespilloides had high variance in the levels of transcription and were unusually likely to display differential expression between high and low provisioning parents. Thus, quantitative behavioral variation appears to reflect many transcriptional differences of small effect. We show that nuanced regulation of the same gene products that are required for the transition of one behavioral state to another are also those influencing variation within a behavioral state.Author SummaryBurying beetles in the genus Nicrophorus breed on vertebrate carcasses and provide advanced parental care to their offspring by regurgitating partially digested flesh. However, all adult beetles do not uniformly express this trait. Some provide a large amount of parenting to their offspring, and some only a little. Here, we investigate the genetic causes of why some Nicrophorus beetles feed their offspring more than others. We demonstrate that this difference is likely caused by many small changes in gene expression, rather than a few genes that have major effects. We also find that some of the same genes that help to turn on parental care behavior in burying beetles also seem to play a role in determining how much care a beetle gives. These results provide new angles on longstanding questions about the complexity of the mechanisms that underlie quantitative variation in populations.

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

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.

TEMPORAL AND SPATIAL PATTERNS OF RESOURCE USE AMONG NICROPHORUS CARRION BEETLES (COLEOPTERA: SILPHIDAE) IN A SPHAGNUM BOG AND ADJACENT FOREST NEAR OTTAWA, CANADA

1992 ◽  
Vol 124 (1) ◽  
pp. 79-86 ◽  
Author(s):  
Clifford W. Beninger ◽  
Stewart B. Peck
Keyword(s):  
Resource Use ◽  
Brood Size ◽  
Significant Positive Correlation ◽  
Mixed Forest ◽  
Resource Acquisition ◽  
Closely Related Species ◽  
Temporal And Spatial Patterns ◽  
Temporal And Spatial ◽  
Carrion Beetles ◽  
Sphagnum Bog

AbstractThis study examines reproductive resource acquisition and utilization among Nicrophorus carrion beetles (Coleoptera: Silphidae) in two different and adjacent habitats. The proportion of small carrion resource (dead mice, Mus musculus L.) used by Nicrophorus and other scavengers in a Sphagnum bog did not differ significantly from that used in a nearby forest. Among congeneric Nicrophorus, N. vespilloides Herbst reproduced on small carrion exclusively in the Sphagnum bog, whereas a closely related species, N. defodiens Mannerheim, reproduced only in the nearby mixed forest. Nicrophorus sayi Laporte, N. orbicollis Say, and N. tomentosus Weber were rarely associated with small carrion resource in the bog, and reproduced primarily in the forest during the spring, summer, and fall, respectively. A significant positive correlation between brood size and weight of larval carrion resource was found for N. vespilloides.

scholarly journals Color Differences Among Closely Related Species of Red-Breasted Meadowlarks (Sturnella)

The Condor ◽  
2007 ◽  
Vol 109 (3) ◽  
pp. 605-616
Author(s):  
Pilar Benites ◽  
Pablo L. Tubaro ◽  
Darío A. Lijtmaer ◽  
Stephen C. Lougheed ◽  
Muir D. Eaton
Keyword(s):  
Related Species ◽  
Short Wavelength ◽  
Visual Space ◽  
Color Discrimination ◽  
Threshold Value ◽  
Sympatric Species ◽  
Closely Related Species ◽  
Interspecific Differences ◽  
Sexually Selected Traits ◽  
Color Differences

Abstract Abstract. Interspecific differences in sexually selected traits may be important for maintaining reproductive isolation among closely related species living in sympatry. We present the first study of plumage color differences among males of partially sympatric species of South American red-breasted meadowlarks—the White-browed Blackbird (Sturnella superciliaris), the Pampas Meadowlark (S. defilippii), and the Long-tailed Meadowlark (S. loyca)—using reflectance spectrophotometry and the avian visual model of Vorobyev and Osorio (1998). Reflectance values of sexually dichromatic red plumage patches were measured on study skins. Total reflectance, reflectance in the short wavelength part of the spectrum, and several measures of spectral shape were extracted directly from the spectra. Our analyses revealed that S. loyca and S. defilippii were brighter and had higher reflectance in the short wavelength part of the spectrum than S. superciliaris. Minimum reflectance was located at higher wavelengths in breeding than in nonbreeding plumage. Interspecific distances in avian visual space obtained from the Vorobyev and Osorio (1998) model were considerably higher than the threshold value for color discrimination, indicating that the differences found are also detectable by birds. Taken together, these results show that the red plumage patches of these three species present significant color differences throughout the year, not only in the visible but also in the UV part of the spectrum.

scholarly journals Limited intrinsic postzygotic reproductive isolation despite chromosomal rearrangements between closely related sympatric species of small ermine moths (Lepidoptera: Yponomeutidae)

2019 ◽  
Vol 128 (1) ◽  
pp. 44-58 ◽  
Author(s):  
Katerina H Hora ◽  
František Marec ◽  
Peter Roessingh ◽  
Steph B J Menken
Keyword(s):  
Reproductive Isolation ◽  
Parental Species ◽  
Meiotic Chromosome ◽  
Chromosomal Rearrangements ◽  
Sympatric Species ◽  
Hybrid Fitness ◽  
New Host ◽  
Closely Related Species ◽  
Postzygotic Reproductive Isolation

Abstract In evolutionarily young species and sympatric host races of phytophagous insects, postzygotic incompatibility is often not yet fully developed, but reduced fitness of hybrids is thought to facilitate further divergence. However, empirical evidence supporting this hypothesis is limited. To assess the role of reduced hybrid fitness, we studied meiosis and fertility in hybrids of two closely related small ermine moths, Yponomeuta padella and Yponomeuta cagnagella, and determined the extent of intrinsic postzygotic reproductive isolation. We found extensive rearrangements between the karyotypes of the two species and irregularities in meiotic chromosome pairing in their hybrids. The fertility of reciprocal F1 and, surprisingly, also of backcrosses with both parental species was not significantly decreased compared with intraspecific offspring. The results indicate that intrinsic postzygotic reproductive isolation between these closely related species is limited. We conclude that the observed chromosomal rearrangements are probably not the result of an accumulation of postzygotic incompatibilities preventing hybridization. Alternative explanations, such as adaptation to new host plants, are discussed.

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