Geometric morphometrics as a tool for interpreting evolutionary transitions in the black fly wing (Diptera: Simuliidae)

Pepinelli, Mateus; Spironello, Mike; Currie, Douglas C.

doi:10.1111/zoj.12065

Cited by 24 publications

(17 citation statements)

References 35 publications

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“…We also could not distinguish among S. damnosum complex flies from the statistical analysis of wing shape, which has proven to an effective diagnostic tool for other groups of black fly species (e.g. Pepinelli et al ., ); however, the usefulness of our morphometric analysis was limited by our inability to directly cytotype our samples of adult flies.…”

Section: Discussionmentioning

confidence: 99%

Poor genetic differentiation but clear cytoform divergence among cryptic species in Simulium damnosum complex (Diptera: Simuliidae)

Oforka

Adeleke

Anikwe

et al. 2017

Systematic Entomology

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Abstract.A complex cryptic species taxonomy has been developed for the flies that vector Onchocerca volvulus Leuckart in Africa. This taxonomy names cytoforms of Simulium damnosum Theobald s.l. based on chromosomal inversion polymorphisms. Researchers have linked variation in cytoforms to variation in geographical distributions and biological traits, but have failed to demonstrate that many of these cytoforms are differentiated genetically or morphologically. This may be explained by recent divergence and incomplete lineage sorting of ancestral polymorphisms. Alternatively, it may be the outcome of ongoing gene flow, with inversions maintaining sets of co-adapted alleles and selection driving inversion frequency differences across habitats. Here, our goals were to test species delimitations in the S. damnosum complex, and determine if the poor differentiation between these species is better explained by the ancestral polymorphisms or gene-flow hypotheses. Geometric morphometric analysis and more intensive genetic sampling of populations in Nigeria only reinforced the lack of clear divergence among S. damnosum complex cytoforms. By contrast, the first statistical estimates of evolutionary relationships based on chromosomal inversion polymorphism data revealed clear signs of divergence, which lends support to the ancestral polymorphisms hypothesis. But the latter analyses may be biased by non-neutral evolution of inversion polymorphisms; more rigorous tests of cytoform-based species hypothesis will require deeper sampling across populations and neutral genetic markers along with explicit modelling of genetic isolation and migration.

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Section: Discussionmentioning

confidence: 99%

Poor genetic differentiation but clear cytoform divergence among cryptic species in Simulium damnosum complex (Diptera: Simuliidae)

Oforka

Adeleke

Anikwe

et al. 2017

Systematic Entomology

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“…Passive dispersal along with the host presumably contributes the most the population expansion of the deer ked (Hackman et al ., ; Välimäki et al ., ). Some previous studies have concentrated on the wing shape variation in Diptera (Azevedo et al ., ; Bitner‐Mathé & Klaczko, ; Wootton, ; Loh & Bitner‐Mathé, ; Soto, Hasson & Manfrin, ; Carreira et al ., ; Pepinelli, Spironello & Currie, ), although the adaptive role of wing shape in terms of flight ability and dispersal remains unclear. Some studies suggest that wing shape variation arises because of genetic drift in the absence of natural selection (Gilchrist et al ., ) or as a result of environmental factors such as temperature or humidity (Prudhomme et al ., ).…”

Section: Discussionmentioning

confidence: 99%

Morphological variation between populations of the expanding ectoparasitic deer kedLipoptena cervi(Diptera: Hippoboscidae) in Fennoscandia

Jaakola

Ojanen

Hurme

et al. 2015

Biol. J. Linn. Soc.

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We examined morphological and genetic differences among Fennoscandian deer ked (Lipoptena cervi L, Hippoboscidae) populations with varying expansion history: the eastern population (Finland) has expanded rapidly, whereas the western population is divided into an old and relatively stationary sub-population in Sweden and a newly established and more expansive sub-population in Norway. The genetic analysis suggests that the distinct populations represent a single species. Individuals from expansive populations were characterized by a large body size, relatively large and robust thorax shape, and wing shape with an exaggerated basal posterior margin. Yet, there was no among population variation in relative wing size or its elongated shape after variation in overall size was controlled for. Although certain size and shape variables showed thermal sensitivity, the degree of plasticity did not differ between the populations. In general, we observed that shape is more sensitive to external thermal conditions at the pupal stage than size per se, with the thermal sensitivity of the latter depending on the trait under examination. We conclude that the possible adaptive value of morphological differences relies on variation in survival during the off-host life stages or short-distance flight to reach a susceptible host instead of long-distance dispersal ability.

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“…Nevertheless, other evidence supports the notion that Ugolyakia kaluginae gen. et sp. nov. was a blood-sucking species, i.e., its female tergites are strongly chitinous and clearly visible, while the weight-supporting force on the upstroke (Ennos, 1989;Pepinelli et al, 2013). Reduction of sternites of abdominal sclerites indicates the ability of the abdomen to expand M A N U S C R I P T A C C E P T E D ACCEPTED MANUSCRIPT significantly during feeding, and the wing morphology indicates the possibility of taking off after filling with blood, further consistent with hematophagy.…”

Section: Biological and Taphonomic Peculiarities Important For Undersmentioning

confidence: 99%

An unexpectedly abundant new genus of black flies (Diptera, Simuliidae) from Upper Cretaceous Taimyr amber of Ugolyak, with discussion of the early evolution of birds at high latitudes

Perkovsky

Sukhomlin

Зеленков

2018

Cretaceous Research

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Ugolyakia kaluginae gen. et sp. nov. is described from Ugolyak (Santonian Taimyr amber), based primarily on its unbranched Rs and developed katepisternal sulcus. It is attributed to the tribe Simuliini, although it lacks calcipala and spiniform seta on the costal vein characteristic of most genera of the tribe. Possession of a claw with a large subbasal tooth and absence of significant sclerotization of the sternites suggest that U. kaluginae females were blood-sucking avian parasites. Black flies make up 3% of all insect inclusions and 5% of all identifiable dipterans in Ugolyak amber. Only two Late Cretaceous black fly specimens were previously known: a poorly preserved female

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Geometric morphometrics as a tool for interpreting evolutionary transitions in the black fly wing (Diptera: Simuliidae)

Cited by 24 publications

References 35 publications

Poor genetic differentiation but clear cytoform divergence among cryptic species in Simulium damnosum complex (Diptera: Simuliidae)

Poor genetic differentiation but clear cytoform divergence among cryptic species in Simulium damnosum complex (Diptera: Simuliidae)

Morphological variation between populations of the expanding ectoparasitic deer kedLipoptena cervi(Diptera: Hippoboscidae) in Fennoscandia

An unexpectedly abundant new genus of black flies (Diptera, Simuliidae) from Upper Cretaceous Taimyr amber of Ugolyak, with discussion of the early evolution of birds at high latitudes

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