Your search keyword '"Dincă, Vlad"' showing total 250 results

201. Unexpected layers of cryptic diversity in wood white Leptidea butterflies

Author

Dincă, Vlad, primary, Lukhtanov, Vladimir A., additional, Talavera, Gerard, additional, and Vila, Roger, additional

Published

2011

202. Unprecedented within-species chromosome number cline in the Wood White butterfly Leptidea sinapis and its significance for karyotype evolution and speciation

Author

Lukhtanov, Vladimir A, primary, Dincă, Vlad, additional, Talavera, Gerard, additional, and Vila, Roger, additional

Published

2011

203. Complete DNA barcode reference library for a country's butterfly fauna reveals high performance for temperate Europe

Author

Dincă, Vlad, primary, Zakharov, Evgeny V., additional, Hebert, Paul D. N., additional, and Vila, Roger, additional

Published

2010

204. Biogeography, ecology and conservation ofErebia oeme(Hübner) in the Carpathians (Lepidoptera: Nymphalidae: Satyrinae)

Author

Dincă, Vlad, primary, Cuvelier, Sylvain, additional, Zakharov, Evgeny V., additional, Hebert, Paul D. N., additional, and Vila, Roger, additional

Published

2010

205. Comparing population patterns for genetic and morphological markers with uneven sample sizes. An example for the butterfly Maniola jurtina.

Author

Dapporto, Leonardo, Vodă, Raluca, Dincă, Vlad, Vila, Roger, and Johnson, Louise

Subjects

MANIOLA jurtina, SAMPLE size (Statistics), BIOGEOGRAPHY, MORPHOMETRICS, LEPIDOPTERA, CYTOCHROME oxidase

Abstract

1. Integrating genetic and/or phenotypic traits at population level is considered a fundamental approach in the study of evolutionary processes, systematics, biogeography and conservation. But combining the two types of data remain a complex task, mostly due to the high, and sometimes different, sample sizes required for reliable assessments of community traits. Data availability has been increasing in recent years, thanks to online resources, but it is uncommon that different types of markers are available for any given specimen. 2. We provide new R functions aimed at directly correlating traits at population level, even if data sets only overlap partially. The new functions are based on a modified Procrustes algorithm that minimizes differences between bidimensional ordinations of two different markers, based on a subsample of specimens for which both characters are known. To test the new functions, we used a molecular and morphological data set comprising Mediterranean specimens of the butterfly Maniola jurtina. 3. By using this method, we have been able to maximize similarities between genotypic and phenotypic configurations obtained after principal coordinate analysis for the model species and evaluated their degree of correlation at both individual and population level. The new recluster.procrustes function retained the information of the relative importance of different morphological variables in determining the observed ordinations and preserved it in the transformed configurations. This allowed calculating the best combination of morphological variables mirroring genetic relationships among specimens and populations. Finally, it was possible to analyse the modality and variance of the phenotypic characters correlated with the genetic structure among populations. 4. The genetic and phenotypic markers displayed high overall correlation in the study area except in the contact zone, where discrepancies for particular populations were detected. Interestingly, such discrepancies were spatially structured, with southern populations displaying typical western morphotype and eastern haplotypes, while the opposite occurred in the northern populations. The methodology here described can be applied to any number and type of traits for which bidimensional configurations can be obtained, and opens new possibilities for data mining and for meta-analyses combining existing data sets in biogeography, systematics and ecology. [ABSTRACT FROM AUTHOR]

Published

2014

206. Biogeography, ecology and conservation of Erebia oeme(Hübner) in the Carpathians (Lepidoptera: Nymphalidae: Satyrinae)

Author

Dincă, Vlad, Cuvelier, Sylvain, Zakharov, EvgenyV., Hebert, PaulD. N., and Vila, Roger

Abstract

AbstractThe European endemic Erebia oeme(Hübner [1804]) (Lepidoptera: Nymphalidae: Satyrinae) is discovered in the Carpathian Chain, from where it was considered to be absent. The single population found is situated in the southern part of the Romanian Carpathians (Retezat Mountains), where it flies sympatrically and synchronically with Erebia medusa([Denis & Schiffermüller] 1775). The similar external morphology of these two species probably caused E. oemeto be overlooked in the Carpathians, leading to an unexpected information gap in the otherwise thoroughly studied European continent. The morphology of the Romanian specimens is compared to populations from the rest of the species’ range and to E. medusa. In addition, we tested DNA barcoding as a method to discriminate between these species and confirmed that it represents an effective identification tool for the taxa involved. The habitat of E. oeme, adults of both sexes and their genitalia are illustrated in comparison with E. medusa. Based on the study of several collections, we show that E. oemeis likely to be extremely local in the Carpathians and provide arguments to consider the species as vulnerable in Romania.

Published

2010

207. Supplementary Material from Climatic niche evolution is faster in sympatric than allopatric lineages of the butterfly genus Pyrgus

Author

Pitteloud, Camille, Arrigo, Nils, Suchan, Tomasz, Mastretta-Yanes, Alicia, Vila, Roger, Dincă, Vlad, Hernández-Roldán, Juan, Brockmann, Ernst, Chittaro, Yannick, Kleckova, Irena, Fumagalli, Luca, Buerki, Sven, Pellissier, Loïc, and Alvarez, Nadir

Subjects

15. Life on land

Abstract

Understanding how speciation relates to ecological divergence has long fascinated biologists. It is assumed that ecological divergence is essential to sympatric speciation, as a mechanism to avoid competition and eventually lead to reproductive isolation, while divergence in allopatry is not necessarily associated with niche differentiation. The impact of the spatial context of divergence on the evolutionary rates of abiotic dimensions of the ecological niche has rarely been explored for an entire clade. Here, we compare the magnitude of climatic niche shifts between sympatric versus allopatric divergence of lineages in butterflies. By combining next-generation sequencing, parametric biogeography and ecological niche analyses applied to a genus-wide phylogeny of Palaearctic Pyrgus butterflies, we compare evolutionary rates along eight climatic dimensions across sister lineages that diverged in large-scale sympatry versus allopatry. In order to examine the possible effects of the spatial scale at which sympatry is defined, we considered three sets of biogeographic assignments, ranging from narrow to broad definition. Our findings suggest higher rates of niche evolution along all climatic dimensions for sister lineages that diverge in sympatry, when using a narrow delineation of biogeographic areas. This result contrasts with significantly lower rates of climatic niche evolution found in cases of allopatric speciation, despite the biogeographic regions defined here being characterized by significantly different climates. Higher rates in allopatry are retrieved when biogeographic areas are too widely defined—in such a case allopatric events may be recorded as sympatric. Our results reveal the macro-evolutionary significance of abiotic niche differentiation involved in speciation processes within biogeographic regions, and illustrate the importance of the spatial scale chosen to define areas when applying parametric biogeographic analyses.

208. Supplementary Material from Climatic niche evolution is faster in sympatric than allopatric lineages of the butterfly genus Pyrgus

Author

Pitteloud, Camille, Arrigo, Nils, Suchan, Tomasz, Mastretta-Yanes, Alicia, Vila, Roger, Dincă, Vlad, Hernández-Roldán, Juan, Brockmann, Ernst, Chittaro, Yannick, Kleckova, Irena, Fumagalli, Luca, Buerki, Sven, Pellissier, Loïc, and Alvarez, Nadir

Subjects

15. Life on land

Abstract

Understanding how speciation relates to ecological divergence has long fascinated biologists. It is assumed that ecological divergence is essential to sympatric speciation, as a mechanism to avoid competition and eventually lead to reproductive isolation, while divergence in allopatry is not necessarily associated with niche differentiation. The impact of the spatial context of divergence on the evolutionary rates of abiotic dimensions of the ecological niche has rarely been explored for an entire clade. Here, we compare the magnitude of climatic niche shifts between sympatric versus allopatric divergence of lineages in butterflies. By combining next-generation sequencing, parametric biogeography and ecological niche analyses applied to a genus-wide phylogeny of Palaearctic Pyrgus butterflies, we compare evolutionary rates along eight climatic dimensions across sister lineages that diverged in large-scale sympatry versus allopatry. In order to examine the possible effects of the spatial scale at which sympatry is defined, we considered three sets of biogeographic assignments, ranging from narrow to broad definition. Our findings suggest higher rates of niche evolution along all climatic dimensions for sister lineages that diverge in sympatry, when using a narrow delineation of biogeographic areas. This result contrasts with significantly lower rates of climatic niche evolution found in cases of allopatric speciation, despite the biogeographic regions defined here being characterized by significantly different climates. Higher rates in allopatry are retrieved when biogeographic areas are too widely defined—in such a case allopatric events may be recorded as sympatric. Our results reveal the macro-evolutionary significance of abiotic niche differentiation involved in speciation processes within biogeographic regions, and illustrate the importance of the spatial scale chosen to define areas when applying parametric biogeographic analyses.

209. Supplementary Material from Climatic niche evolution is faster in sympatric than allopatric lineages of the butterfly genus Pyrgus

Author

Pitteloud, Camille, Arrigo, Nils, Suchan, Tomasz, Mastretta-Yanes, Alicia, Vila, Roger, Dincă, Vlad, Hernández-Roldán, Juan, Brockmann, Ernst, Chittaro, Yannick, Kleckova, Irena, Fumagalli, Luca, Buerki, Sven, Pellissier, Loïc, and Alvarez, Nadir

Subjects

15. Life on land

Abstract

Understanding how speciation relates to ecological divergence has long fascinated biologists. It is assumed that ecological divergence is essential to sympatric speciation, as a mechanism to avoid competition and eventually lead to reproductive isolation, while divergence in allopatry is not necessarily associated with niche differentiation. The impact of the spatial context of divergence on the evolutionary rates of abiotic dimensions of the ecological niche has rarely been explored for an entire clade. Here, we compare the magnitude of climatic niche shifts between sympatric versus allopatric divergence of lineages in butterflies. By combining next-generation sequencing, parametric biogeography and ecological niche analyses applied to a genus-wide phylogeny of Palearctic Pyrgus butterflies, we compare evolutionary rates along eight climatic dimensions across sister lineages that diverged in large-scale sympatry versus allopatry. In order to examine the possible effects of the spatial scale at which sympatry is defined, we considered three sets of biogeographic assignments, ranging from narrow to broad definition. Our findings suggest higher rates of niche evolution along all climatic dimensions for sister lineages that diverge in sympatry, when using a narrow delineation of biogeographic areas. This result contrasts with significantly lower rates of climatic niche evolution found in cases of allopatric speciation, despite the biogeographic regions defined here being characterized by significantly different climates. Higher rates in allopatry are retrieved when biogeographic areas are too widely defined—in such a case allopatric events may be recorded as sympatric. Our results reveal the macro-evolutionary significance of abiotic niche differentiation involved in speciation processes within biogeographic regions, and illustrate the importance of the spatial scale chosen to define areas when applying parametric biogeographic analyses.

210. Lack of parallelism: lineage-specific directional selection drives genome differentiation across a triplet of cryptic butterfly species

Author

Talla, Venkat, Johansson, Anna, Dincă, Vlad, Vila, Roger, Friberg, Magne, Wiklund, Christer, Backström, Niclas, Talla, Venkat, Johansson, Anna, Dincă, Vlad, Vila, Roger, Friberg, Magne, Wiklund, Christer, and Backström, Niclas

211. A macroevolutionary role for chromosomal fusion and fission in Erebia butterflies.

Author

Augustijnen, Hannah, Bätscher, Livio, Cesanek, Martin, Chkhartishvili, Tinatin, Dincă, Vlad, Iankoshvili, Giorgi, Ogawa, Kota, Vila, Roger, Klopfstein, Seraina, de Vos, Jurriaan M., and Lucek, Kay

Subjects

*CHROMOSOMAL rearrangement, *SPECIES diversity, *BUTTERFLIES, *KARYOTYPES, *GENETIC speciation, *CHROMOSOMES

Abstract

The impact of large-scale chromosomal rearrangements, such as fusions and fissions, on speciation is a long-standing conundrum. We assessed whether bursts of change in chromosome numbers resulting from chromosomal fusion or fission are related to increased speciation rates in Erebia, one of the most species-rich and karyotypically variable butterfly groups. We established a genome-based phylogeny and used state-dependent birth-death models to infer trajectories of karyotype evolution. We demonstrated that rates of anagenetic chromosomal changes (i.e., along phylogenetic branches) exceed cladogenetic changes (i.e., at speciation events), but, when cladogenetic changes occur, they are mostly associated with chromosomal fissions rather than fusions. We found that the relative importance of fusion and fission differs among Erebia clades of different ages and that especially in younger, more karyotypically diverse clades, speciation is more frequently associated with cladogenetic chromosomal changes. Overall, our results imply that chromosomal fusions and fissions have contrasting macroevolutionary roles and that large-scale chromosomal rearrangements are associated with bursts of species diversification. [ABSTRACT FROM AUTHOR]

Published

2024

212. Rapid colour shift by reproductive character displacement in Cupido butterflies.

Author

Hinojosa, Joan C., Koubínová, Darina, Dincă, Vlad, Hernández‐Roldán, Juan, Munguira, Miguel L., García‐Barros, Enrique, Vila, Marta, Alvarez, Nadir, Mutanen, Marko, and Vila, Roger

Subjects

*BUTTERFLIES, *MITOCHONDRIAL DNA, *NUCLEOTIDE sequence, *SPERMATOPHORES, *MITOCHONDRIA, *CHARACTER

Abstract

Reproductive character displacement occurs when competition for successful breeding imposes a divergent selection on the interacting species, causing a divergence of reproductive traits. Here, we show that a disputed butterfly taxon is actually a case of male wing colour shift, apparently produced by reproductive character displacement. Using double digest restriction‐site associated DNA sequencing and mitochondrial DNA sequencing we studied four butterfly taxa of the subgenus Cupido (Lepidoptera: Lycaenidae): Cupido minimus and the taxon carswelli, both characterized by brown males and females, plus C. lorquinii and C. osiris, both with blue males and brown females. Unexpectedly, taxa carswelli and C. lorquinii were close to indistinguishable based on our genomic and mitochondrial data, despite displaying strikingly different male coloration. In addition, we report and analysed a brown male within the C. lorquinii range, which demonstrates that the brown morph occurs at very low frequency in C. lorquinii. Such evidence strongly suggests that carswelli is conspecific with C. lorquinii and represents populations with a fixed male brown colour morph. Considering that these brown populations occur in sympatry with or very close to the blue C. osiris, and that the blue C. lorquinii populations never do, we propose that the taxon carswelli could have lost the blue colour due to reproductive character displacement with C. osiris. Since male colour is important for conspecific recognition during courtship, we hypothesize that the observed colour shift may eventually trigger incipient speciation between blue and brown populations. Male colour seems to be an evolutionarily labile character in the Polyommatinae, and the mechanism described here might be at work in the wide diversification of this subfamily of butterflies. [ABSTRACT FROM AUTHOR]

Published

2020

213. Assigning occurrence data to cryptic taxa improves climatic niche assessments: Biodecrypt, a new tool tested on European butterflies.

Author

Platania, Leonardo, Menchetti, Mattia, Dincă, Vlad, Corbella, Cecília, Kay‐Lavelle, Isaac, Vila, Roger, Wiemers, Martin, Schweiger, Oliver, Dapporto, Leonardo, and Hampe, Ardnt

Subjects

*BUTTERFLIES, *CONCAVE functions, *SET functions, *RELIABILITY in engineering, *CLIMATE change, *INSECT diversity

Abstract

Aim: Occurrence data are fundamental to macroecology, but accuracy is often compromised when multiple units are lumped together (e.g., in recently separated cryptic species or in citizen science records). Using amalgamated data leads to inaccuracy in species mapping, to biased beta‐diversity assessments and to potentially erroneously predicted responses to climate change. We provide a set of R functions (biodecrypt) to objectively attribute unidentified occurrences to the most probable taxon based on a subset of identified records. Innovation: Biodecrypt assumes that unidentified occurrences can only be attributed at certain distances from areas of sympatry. The function draws concave hulls based on the subset of identified records; subsequently, based on hull geometry, it attributes (or not) unidientified records to a given taxon. Concavity can be imposed with an alpha value and sea or land areas can be excluded. A cross‐validation function tests attribution reliability and another function optimises the parameters (alpha, buffer, distance ratio between hulls). We applied the procedure to 16 European butterfly complexes recently separated into 33 cryptic species for which most records were amalgamated. We compared niche similarity and divergence between cryptic taxa, and re‐calculated and contributed updated climatic niche characteristics of the butterflies in Europe (CLIMBER). Main conclusions: Biodecrypt showed a cross‐validated correct attribution of known records always ≥ 98% and attributed more than 80% of unidientified records to the most likely taxon in parapatric species. The functions determined where records can be assigned even for largely sympatric species, and highlighted areas where further sampling is required. All the cryptic taxa showed significantly diverging climatic niches, reflected in different values of mean temperature and precipitation compared to the values originally provided in the CLIMBER database. The substantial fraction of cryptic taxa existing across different taxonomic groups and their divergence in climatic niches highlight the importance of using reliably assigned occurrence data in macroecology. [ABSTRACT FROM AUTHOR]

Published

2020

214. Co-Evolution of Iolana Blues with Their Host Plants and the Higher Phylogeny of Subtribe Scolitantidina (Lepidoptera, Lycaenidae).

Author

Nazari, Vazrick, Montagud Alario, Sergio, Spilani, Loukia, Dincă, Vlad, Naderi, Alireza, ten Hagen, Wolfgang, and Vila, Roger

Subjects

*HOST plants, *LYCAENIDAE, *PHYLOGENY, *LEPIDOPTERA, *COEVOLUTION, *LARVAE

Abstract

We investigated the evolutionary relationships between the taxa in the butterfly genus Iolana Bethune-Baker, 1914 and others in the subtribe Scolitantidina using information from nine DNA markers (COI-COII, ND1, ITS2, 28S, CAD, EF-1α, wg, and H3). We show that the genus Iolana originated about 10 mya in Central Asia and gradually expanded to the west to reach Europe about 5 mya. We then compared our inferred phylogeny with that of the Iolana larval host plants in the genus Colutea, reconstructed using three DNA markers (ITS, matK, and rpl32). Although the host plant phylogeny was weakly resolved, the close spatiotemporal correlation between Iolana butterflies and their larval hosts suggests that they may have co-evolved. Based on the molecular results and the morphology of male and female genitalia, we confirm nine species in the genus Iolana, which are distributed in allopatry from Europe and North Africa to Central Asia. We synonymize I. andreasi andreasi Sheljuzhko, 1919 (=I. andreasi khayyami Bernardi, 1964 syn. nov.) and I. iolas wullschlegeli Oberthür, 1914 (=I. iolas protogenes Fruhstorfer, 1917 syn. nov.). [ABSTRACT FROM AUTHOR]

Published

2024

215. Lack of gene flow: Narrow and dispersed differentiation islands in a triplet of Leptidea butterfly species.

Author

Talla, Venkat, Johansson, Anna, Dincă, Vlad, Vila, Roger, Friberg, Magne, Wiklund, Christer, and Backström, Niclas

Subjects

*GENE flow, *GENETIC drift, *SPECIES, *BUTTERFLIES, *ISLANDS

Abstract

Genome scans in recently separated species can inform on molecular mechanisms and evolutionary processes driving divergence. Large‐scale polymorphism data from multiple species pairs are also key to investigate the repeatability of divergence—whether radiations tend to show parallel responses to similar selection pressures and/or underlying molecular forces. Here, we used whole‐genome resequencing data from six wood white (Leptidea sp.) butterfly populations, representing three closely related species with karyomorph variation, to infer the species' demographic history and characterize patterns of genomic diversity and differentiation. The analyses supported previously established species relationships, and there was no evidence for postdivergence gene flow. We identified significant intraspecific genetic structure, in particular between karyomorph extremes in the wood white (L. sinapis)—a species with a remarkable chromosome number cline across the distribution range. The genomic landscapes of differentiation were erratic, and outlier regions were narrow and dispersed. Highly differentiated (FST) regions generally had low genetic diversity (θπ), but increased absolute divergence (DXY) and excess of rare frequency variants (low Tajima's D). A minority of differentiation peaks were shared across species and population comparisons. However, highly differentiated regions contained genes with overrepresented functions related to metabolism, response to stimulus and cellular processes, indicating recurrent directional selection on a specific set of traits in all comparisons. In contrast to the majority of genome scans in recently diverged lineages, our data suggest that divergence landscapes in Leptidea have been shaped by directional selection and genetic drift rather than stable recombination landscapes and/or introgression. [ABSTRACT FROM AUTHOR]

Published

2019

216. An updated checklist of the European Butterflies (Lepidoptera, Papilionoidea).

Author

Wiemers, Martin, Balletto, Emilio, Dincă, Vlad, Fric, Zdenek Faltynek, Lamas, Gerardo, Lukhtanov, Vladimir, Munguira, Miguel L., van Swaay, Chris A. M., Vila, Roger, Vliegenthart, Albert, Wahlberg, Niklas, and Verovnik, Rudi

Subjects

*BUTTERFLIES, *LEPIDOPTERA, *LEGUMES, *PHYLOGENETIC models, *BIOTIC communities

Abstract

This paper presents an updated checklist of the butterflies of Europe, together with their original name combinations, and their occurrence status in each European country. According to this checklist, 496 species of the superfamily Papilionoidea occur in Europe. Changes in comparison with the last version (2.6.2) of Fauna Europaea are discussed. Compared to that version, 16 species are new additions, either due to cryptic species most of which have been discovered by molecular methods (13 cases) or due to discoveries of Asian species on the eastern border of the European territory in the Ural mountains (three cases). On the other hand, nine species had to be removed from the list, because they either do not occur in Europe or lost their species status due to new evidence. In addition, three species names had to be changed and 30 species changed their combination due to new evidence on phylogenetic relationships. Furthermore, minor corrections were applied to some authors' names and years of publication. Finally, the name Polyommatus ottomanus Lefèbvre, 1831, which is threatened by its senior synonym Lycaena legeri Freyer, 1830, is declared a nomen protectum, thereby conserving its name in the current combination Lycaena ottomana. [ABSTRACT FROM AUTHOR]

Published

2018

217. DNA barcoding the Lepidoptera inventory of a large complex tropical conserved wildland, Area de Conservacion Guanacaste, northwestern Costa Rica1.

Author

Janzen, Daniel H., Hallwachs, Winnie, and Dincă, Vlad

Subjects

*GENETIC barcoding, *LEPIDOPTERA, *INVENTORIES, *PARASITOIDS, *BIODIVERSITY

Abstract

The 37-year ongoing inventory of the estimated 15 000 species of Lepidoptera living in the 125 000 terrestrial hectares of Area de Conservacion Guanacaste, northwestern Costa Rica, has DNA barcode documented 11 000+ species, and the simultaneous inventory of at least 6000+ species of wild-caught caterpillars, plus 2700+ species of parasitoids. The inventory began with Victorian methodologies and species-level perceptions, but it was transformed in 2004 by the full application of DNA barcoding for specimen identification and species discovery. This tropical inventory of an extraordinarily species-rich and complex multidimensional trophic web has relied upon the sequencing services provided by the Canadian Centre for DNA Barcoding, and the informatics support from BOLD, the Barcode of Life Data Systems, major tools developed by the Centre for Biodiversity Genomics at the Biodiversity Institute of Ontario, and available to all through couriers and the internet. As biodiversity information flows from these many thousands of undescribed and often look-alike species through their transformations to usable product, we see that DNA barcoding, firmly married to our centuries-old morphology-, ecology-, microgeography-, and behavior-based ways of taxonomizing the wild world, has made possible what was impossible before 2004. We can now work with all the species that we find, as recognizable species-level units of biology. In this essay, we touch on some of the details of the mechanics of actually using DNA barcoding in an inventory. [ABSTRACT FROM AUTHOR]

Published

2016

218. Patterns of DNA barcode diversity in butterfly species (Lepidoptera) introduced to the Nearctic.

Author

D'ERCOLE, JACOPO, DAPPORTO, LEONARDO, SCHMIDT, B. CHRISTIAN, DINCĂ, VLAD, TALAVERA, GERARD, VILA, ROGER, and HEBERT, PAUL D. N.

Subjects

*GENETIC barcoding, *SPECIES diversity, *LEPIDOPTERA, *CYTOCHROME oxidase, *GENETIC variation, *HESPERIIDAE

Abstract

One of the main consequences of globalization is the intensification of biological introductions. Because of their negative impact on environments, the early detection and monitoring of introduced species through molecular approaches is gaining increased uptake. This study assembles 2,278 DNA barcode records to examine contemporary patterns of sequence variation in mitochondrial cytochrome c oxidase I (COI) in five butterfly species introduced to the Nearctic, with a focus on Pieris rapae Linnaeus (Lepidoptera: Pieridae) and Thymelicus lineola Ochsenheimer (Lepidoptera: Hesperiidae). Parameters of genetic diversity were low (i.e., h < 0.606, p < 0.0039) for Nearctic populations of all analyzed species. Those of P. rapae and T. lineola showed marked genetic differentiation from their source populations in the Palearctic. Haplotype distributions in their Nearctic populations exposed a starburst pattern with a few common haplotypes known from Palearctic, and infrequent haplotypes diverging from them at only one or two nucleotide sites. Some uncommon haplotypes were only found in the Nearctic suggesting they originated after invasion, while others also occur in the Palearctic. This study provides an example of genetic paradox of invasion, where species often rapidly expand their distribution and become dominant in the new habitat despite their depleted levels of sequence variation. [ABSTRACT FROM AUTHOR]

Published

2022

219. The atlas of mitochondrial genetic diversity for Western Palaearctic butterflies.

Author

Dapporto, Leonardo, Menchetti, Mattia, Vodă, Raluca, Corbella, Cecilia, Cuvelier, Sylvain, Djemadi, Imed, Gascoigne‐Pees, Martin, Hinojosa, Joan C., Lam, Nok Ting, Serracanta, Maria, Talavera, Gerard, Dincă, Vlad, and Vila, Roger

Subjects

*CYTOCHROME oxidase, *BIOLOGICAL classification, *GENETIC variation, *PALEARCTIC, *BUTTERFLIES, *GENETIC polymorphisms

Abstract

Motivation: Butterflies represent a model in biology and a flagship group for invertebrate conservation. We provide four new resources for the Western Palaearctic butterflies: (1) an updated checklist comprising 552 species; (2) a curated dataset of 32,126 mitochondrial cytochrome c oxidase subunit I (COI) sequences for 532 species, including a de novo reference library for the Maghreb (Morocco, northern Algeria and Tunisia) and Macaronesia (Azores, Madeira and Canary Islands); (3) seven indexes of intraspecific genetic variation (IGV): observed and expected number of haplotypes, haplotype and nucleotide diversity, two fixation indexes and maximum p‐distance; and (4) species‐level maps illustrating the distribution of COI variability and haplotype networks. The updated checklist will be fundamental for any application dealing with butterfly diversity in the Western Palaearctic. The IGV indexes provide measures for genetic polymorphism and spatial structure and represent proxies for dispersal capacity. These resources will facilitate comparative studies of macrogenetics, foster integrative taxonomy and aid conservation strategies. Main types of variables contained: A complete species checklist in table format, 32,126 mitochondrial DNA barcodes provided with metadata (species membership, WGS84 coordinates and sequence length) and a book in PDF format, including the IGV atlas and indexes, are provided. Spatial location and grain: The checklist encompasses Europe up to the Urals in the east, north Macaronesia (the Azores, Madeira and the Canary Islands) and the Maghreb (Morocco, northern Algeria and Tunisia). COI sequences have been retained in the geographical interval of −31.3 to 67.5° of longitude and 27.5–71.2° of latitude. Time period and grain: COI sequences originate from studies published between 1998 and 2022 and from de novo sequencing of 2541 specimens done between 2007 and 2022. Major taxa and level of measurement: Butterflies (Lepidoptera: Papilionoidea), analysed from individual to species level. Software format: Data and functions to manage the dataset are provided in the iodatabase R package (https://github.com/leondap/iodatabase) and in Dryad (https://doi.org/10.5061/dryad.9w0vt4bjj). [ABSTRACT FROM AUTHOR]

Published

2022

220. Genetic assessment and climate modelling of the Iberian specialist butterfly Euchloe bazae (Lepidoptera: Pieridae).

Author

Escuer, Paula, Hinojosa, Joan C., Minguet‐Parramona, Carla, Romo, Helena, Munguira, Miguel L., Olivares, Javier, Dincă, Vlad, Talavera, Gerard, and Vila, Roger

Subjects

*ATMOSPHERIC models, *LEPIDOPTERA, *ECOLOGICAL niche, *BUTTERFLIES, *ECOLOGICAL models

Abstract

Although both positive (expansion of thermophilous species) and negative effects (retraction of cold‐adapted species) have been attributed to global warming, range shifts may be constrained by the ecological traits of species.This can be especially true for highly specialised organisms like the Spanish Greenish Black‐tip (Euchloe bazae), an Iberian endemic specialist of semiarid steppes with a debated taxonomic and conservation status.Here, we first seek to clarify the taxonomic status of this butterfly and its populations by using multilocus phylogenetic inference. Then, we update its distribution range and employ ecological niche modelling, combined with other sources of data, to re‐evaluate its conservation status.Our results confirm E. bazae as a well‐differentiated species with one of the most restricted distribution ranges among the European butterflies.We demonstrate that its two disjunct populations, regarded as subspecies, are genetically differentiated and should be treated as independent management units.Climate models under two future emission scenarios suggest an increase of the area climatically suitable. However, the suitability of the areas currently occupied is estimated to decrease, meaning that rapid range shifts could be required for the survival of the species.Given the presumably low dispersal capabilities of E. bazae, its current restricted distribution, high degree of population fragmentation (divided in two distant populations), low intrapopulation genetic variability, decline in extension and abundance, low densities, high yearly fluctuations, and numerous threats to its habitat, we consider that their populations are extremely fragile and we propose to consider it 'Endangered' [EN B1ab(i,ii,iii,iv); B2ab(i,ii,iii,iv)]. [ABSTRACT FROM AUTHOR]

Published

2022

221. Cryptic matters: overlooked species generate most butterfly beta-diversity.

Author

Vodă, Raluca, Dapporto, Leonardo, Dincă, Vlad, and Vila, Roger

Subjects

*BIODIVERSITY, *BIOLOGICAL databases, *QUALITATIVE research, *SPECIES distribution, *ENVIRONMENTAL monitoring

Abstract

The cryptic fraction of biodiversity is composed of morphologically similar species that are or have been overlooked by scientists. Although current research is increasingly documenting new cases, cryptic species are frequently ignored in large-scale studies and monitoring programs, either because they have not yet been discovered, or because of the practical difficulties involved in differentiating them. However, it is unknown if this could represent a bias extending beyond the number of missed species. By analyzing the butterfly fauna of the west Mediterranean (335 species), we defined cryptic species based on the current consensus of the scientific community, compared their properties to other congeneric species and investigated the consequences of their inclusion/exclusion in beta-diversity analyses. We show that, as defined, the cryptic fraction of butterfly diversity represents about 25% of the west Mediterranean fauna and is overwhelmingly composed by groups of species that are not sympatric. Our results show that co-occurrence among cryptic species is significantly lower than among congeneric non-cryptic species. Accordingly, albeit the frequency of cryptic species is homogenously distributed over the study area, their distribution pattern accounts for most beta-diversity turnover over sea (from 50 to 100%). Beta-diversity turnover, a direct measure of the frequency of species replacement from site to site, is recognized as a fundamental parameter in ecology and is widely used to detect biogeographic patterns. These findings represent a change of paradigm in showing that cryptic diversity comprises original qualitative aspects in addition to merely quantitative ones. This highlights the importance of differentiating cryptic species for various research fields and opens the door to the study of further potential particularities of cryptic diversity. [ABSTRACT FROM AUTHOR]

Published

2015

222. The genome sequence of the lesser marbled fritillary, Brenthis ino, and evidence for a segregating neo-Z chromosome.

Author

Mackintosh, Alexander, Laetsch, Dominik R., Baril, Tobias, Foster, Robert G., Dincă, Vlad, Vila, Roger, Hayward, Alexander, and Lohse, Konrad

Subjects

*CHROMOSOMES, *FRITILLARIA, *PALEARCTIC, *LEPIDOPTERA, *BUTTERFLIES

Abstract

The lesser marbled fritillary, Brenthis ino (Rottemburg, 1775), is a species of Palearctic butterfly. Male Brenthis ino individuals have been reported to have between 12 and 14 pairs of chromosomes, a much-reduced chromosome number than is typical in butterflies. Here, we present a chromosome-level genome assembly for Brenthis ino, as well as gene and transposable element annotations. The assembly is 411.8Mb in length with a contig N50 of 9.6Mb and a scaffold N50 of 29.5Mb. We also show evidence that the male individual from which we generated HiC data was heterozygous for a neo-Z chromosome, consistent with inheriting 14 chromosomes from one parent and 13 from the other. This genome assembly will be a valuable resource for studying chromosome evolution in Lepidoptera, as well as for comparative and population genomics more generally. [ABSTRACT FROM AUTHOR]

Published

2022

223. Identifying zones of phenetic compression in West Mediterranean butterflies (Satyrinae): refugia, invasion and hybridization.

Author

Dapporto, Leonardo, Bruschini, Claudia, Dincă, Vlad, Vila, Roger, and Dennis, Roger L. H.

Subjects

*PHENETICS, *BUTTERFLIES, *SPECIES hybridization, *INSECT populations, *WILDLIFE conservation, *INSECT ecology, *GEOGRAPHIC information systems

Abstract

Aim Distinct insular populations are generally considered important units for conservation. In island-mainland situations, unidirectional introgressive gene flow from the most abundant, typically continental, populations into the smaller island populations can erase native insular genetic units. As an indication of threat, the concept of phenetic slope is developed, a measure proportional to differentiation and to geographical proximity. Location The Western Mediterranean, including the following islands: Sardinia, Sicily, Corsica, Balearics, circum-Italian, circum-Sicilian and circum-Sardo-Corsican archipelagos. Eastern Europe is included for comparison. Methods Geometric morphometrics was applied to 2392 male genitalia of seven butterfly species groups. Geographic Information System techniques were used to depict the pattern in the distribution of morphotypes. The slope of variation in genital shape was computed to highlight geographical areas showing abrupt morphological changes. Correlation analyses were performed between the mean slope values across sea straits separating islands and nearest sources and ecological traits of the species that underlie their colonization and migration capacity. Results Phenetic slope analysis has revealed that the strait of Messina and the northern Tyrrhenian Sea support particularly contrasting populations. In these areas, mean slopes for species also correlated with certain ecological traits of the species. Sardinia emerges as the most stable refugium for ancestral mediterranean populations. Main conclusions There is strong support for the hypothesis that Italy has experienced invasion by populations from Eastern Europe with postglacial expansion of these populations across Italy. However, propagules are impeded from invading islands by the expanse of sea straits. Even so, sea straits are not invariably barriers. Our results suggest that wind direction in combination with habitat occupancy may have maintained ancestral insular populations in key locations distinguished by phenetic compression. We conclude that native insular populations acting as barriers to introgression in the areas showing particularly steep phenetic slopes deserve attention in conservation programmes. [ABSTRACT FROM AUTHOR]

Published

2012

224. The isolated Erebia pandrose Apennine population is genetically unique and endangered by climate change.

Author

Sistri, Ginevra, Menchetti, Mattia, Santini, Luca, Pasquali, Lorenzo, Sapienti, Sofia, Cini, Alessandro, Platania, Leonardo, Balletto, Emilio, Barbero, Francesca, Bonelli, Simona, Casacci, Luca Pietro, Dincă, Vlad, Vila, Roger, Mantoni, Cristina, Fattorini, Simone, and Dapporto, Leonardo

Subjects

*CLIMATE change, *KEYSTONE species, *SPECIES distribution, *GENETIC markers, *SPECIES diversity, *CYTOCHROME oxidase

Abstract

Climate change is causing shifts in the distribution of many species and populations inhabiting mountain tops are particularly vulnerable to these threats because they are constrained in altitudinal shifts. Apennines are a relatively narrow and low mountain chain located in Southern Europe, which hosts many isolated populations of mountain species. The butterfly Erebia pandrose was recorded for the last time in the Apennines in 1977, on the top of a single massif (Monti della Laga).We confirmed the presence of a small, isolated population of E. pandrose in the Apennines, at a distance of more than 400 km to any other known populations. Then, we examined the cytochrome c oxidase subunit 1 mitochondrial DNA marker of this species across the Palaearctic area and estimated the potential decline over the Alps and the Apennines due to future climatic changes.The Apennine population represents an endemic lineage characterised by eight mutations over the 658 bp analysed (1.2%). In the Alps and Apennines, this species has shifted uphill more than 3 m per year since the end of the 19th century and more than 22 m per year since 1995. Species distribution models suggested that these mountain populations will experience a generalised loss of climatic suitability, which, according to our projections, could lead to the extinction of the Apennine population in a few decades.Erebia pandrose has the potential to become a flagship species for advertising the risk of losing unique fractions of genetic diversity for mountain species. [ABSTRACT FROM AUTHOR]

Published

2022

225. Overlooked cryptic diversity in Muschampia (Lepidoptera: Hesperiidae) adds two species to the European butterfly fauna.

Author

Hinojosa, Joan C, Dapporto, Leonardo, Brockmann, Ernst, Dincă, Vlad, Tikhonov, Valentin, Grishin, Nick, Lukhtanov, Vladimir A, and Vila, Roger

Subjects

*BUTTERFLIES, *HESPERIIDAE, *CYTOCHROME oxidase, *RIBOSOMAL DNA, *LEPIDOPTERA, *MITOCHONDRIAL DNA, *SPECIES, *MALE reproductive organs

Abstract

Cryptic species represent a challenge for documenting global biodiversity. Even in well-studied groups, such as European butterflies, the application of integrative approaches has allowed the recognition of an unexpected number of cryptic taxa. Here, we combine the analysis of mitochondrial (cytochrome c oxidase I, COI) and nuclear (internal transcribed spacer 2, ITS2) markers with geometric morphometrics of the male genitalia to study diversity within the butterfly Muschampia proto. The nuclear marker reveals three well-supported and deeply diverged lineages, which are also detected based on mitochondrial DNA, although the latter recovers one of them as paraphyletic with poor support. These lineages also present distinct male genital characters, which allow blind assignment of > 97% of specimens when applying a jackknife procedure. We conclude that M. proto comprises three cryptic species that started to differentiate ~2 Mya: M. proto, distributed in northern Africa, the Iberian Peninsula and southern France; Muschampia alta comb. & stat. nov., occurring in southern Italy and the Balkan Peninsula; and Muschampia proteides, present in the easternmost part of Europe, the Near East and Iran. This discovery adds two new species to the European butterfly fauna and highlights the necessity to continue investigating potential cryptic diversity. [ABSTRACT FROM AUTHOR]

Published

2021

226. Versatility of multivalent orientation, inverted meiosis, and rescued fitness in holocentric chromosomal hybrids

Author

Vlad Dincă, Christer Wiklund, Martin Olofsson, Magne Friberg, Roger Vila, Jindra Šíchová, František Marec, Vladimir A. Lukhtanov, Russian Science Foundation, Wenner-Gren Foundation, European Commission, Swedish Research Council, Ministerio de Economía y Competitividad (España), Generalitat de Catalunya, Czech Science Foundation, Lukhtanov, Vladimir A., Dincă, Vlad, Friberg, Magne, Vila, Roger, Marec, František, Wiklund, Christer, Lukhtanov, Vladimir A. [0000-0003-2856-2075], Dincă, Vlad [0000-0003-1791-2148], Friberg, Magne [0000-0003-4779-7881], Vila, Roger [0000-0002-2447-4388], Marec, František [0000-0002-6745-5603], and Wiklund, Christer [0000-0003-4719-487X]

Subjects

0301 basic medicine, chromosomal rearrangement, Chromosomal rearrangements, Speciation, Chromosomal rearrangement, Chromatids, Biology, Inverted meiosis, Sister chromatid segregation, Chromosome segregation, 03 medical and health sciences, Meiosis, Homologous chromosome, Animals, Sister chromatids, Hybridization, hybridization, Metaphase, Genetics, Multidisciplinary, Chimera, Meiosis II, Chromosomal evolution, chromosomal evolution, Chromosomes, Insect, inverted meiosis, 030104 developmental biology, PNAS Plus, speciation, Holocentric, Butterflies

Abstract

Chromosomal rearrangements (e.g., fusions/fissions) have the potential to drive speciation. However, their accumulation in a population is generally viewed as unlikely, because chromosomal heterozygosity should lead to meiotic problems and aneuploid gametes. Canonical meiosis involves segregation of homologous chromosomes in meiosis I and sister chromatid segregation during meiosis II. In organisms with holocentric chromosomes, which are characterized by kinetic activity distributed along almost the entire chromosome length, this order may be inverted depending on their metaphase I orientation. Here we analyzed the evolutionary role of this intrinsic versatility of holocentric chromosomes, which is not available to monocentric ones, by studying F1 to F4 hybrids between two chromosomal races of the Wood White butterfly (Leptidea sinapis), separated by at least 24 chromosomal fusions/fissions. We found that these chromosomal rearrangements resulted in multiple meiotic multivalents, and, contrary to the theoretical prediction, the hybrids displayed relatively high reproductive fitness (42% of that of the control lines) and regular behavior of meiotic chromosomes. In the hybrids, we also discovered inverted meiosis, in which the first and critical stage of chromosome number reduction was replaced by the less risky stage of sister chromatid separation. We hypothesize that the ability to invert the order of the main meiotic events facilitates proper chromosome segregation and hence rescues fertility and viability in chromosomal hybrids, potentially promoting dynamic karyotype evolution and chromosomal speciation., V.A.L. was supported by Grant N 14-14-00541 from the Russian Science Foundation to the Zoological Institute of the Russian Academy of Sciences. V.D. was supported by the Wenner-Gren Foundation Sweden and by a Marie Curie International Outgoing Fellowship within the 7th European Community Framework Programme (Project 625997). M.F. was supported by a Junior Research Grant from the Swedish Research Council. R.V. was supported by Agencia Estatal de Investigación and Fondo Europeo de Desarrollo Regional (Project CGL2016-76322-P) and by Agència de Gestió d’Ajuts Universitaris i de Recerca (Project 2014-SGR-1532). J.Š. and F.M. acknowledge support from Grants 14–22765S and 17-13713S of the Czech Science Foundation.

Published

2018

227. Two ways to be endemic. Alps and Apennines are different functional refugia during climatic cycles.

Author

Menchetti, Mattia, Talavera, Gerard, Cini, Alessandro, Salvati, Vania, Dincă, Vlad, Platania, Leonardo, Bonelli, Simona, Balletto, Emilio, Vila, Roger, and Dapporto, Leonardo

Subjects

*CYTOCHROME oxidase, *PHYLOGEOGRAPHY, *PLEISTOCENE Epoch

Abstract

Endemics co‐occur because they evolved in situ and persist regionally or because they evolved ex situ and later dispersed to shared habitats, generating evolutionary or ecological endemicity centres, respectively. We investigate whether different endemicity centres can intertwine in the region ranging from Alps to Sicily, by studying their butterfly fauna. We gathered an extensive occurrence data set for butterflies of the study area (27,123 records, 269 species, in cells of 0.5 × 0.5 degrees of latitude‐longitude). We applied molecular‐based delimitation methods (GMYC model) to 26,557 cytochrome c oxidase subunit 1 (COI) sequences of Western Palearctic butterflies. We identified entities based on molecular delimitations and/or the checklist of European butterflies and objectively attributed occurrences to their most probable entity. We obtained a zoogeographic regionalisation based on the 69 endemics of the area. Using phylogenetic ANOVA we tested if endemics from different centres differ from each other and from nonendemics for key ecological traits and divergence time. Endemicity showed high incidence in the Alps and Southern Italy. The regionalisation separated the Alps from the Italian Peninsula and Sicily. The endemics of different centres showed a high turnover and differed in phylogenetic distances, phenology and distribution traits. Endemics are on average younger than nonendemics and the Peninsula‐Sicily endemics also have lower variance in divergence than those from the Alps. The observed variation identifies Alpine endemics as paleoendemics, now occupying an ecological centre, and the Peninsula‐Sicily ones as neoendemics, that diverged in the region since the Pleistocene. The results challenge the common view of the Alpine‐Apennine area as a single "Italian refugium". [ABSTRACT FROM AUTHOR]

Published

2021

228. How long is 3 km for a butterfly? Ecological constraints and functional traits explain high mitochondrial genetic diversity between Sicily and the Italian Peninsula.

Author

Scalercio, Stefano, Cini, Alessandro, Menchetti, Mattia, Vodă, Raluca, Bonelli, Simona, Bordoni, Adele, Casacci, Luca Pietro, Dincă, Vlad, Balletto, Emilio, Vila, Roger, Dapporto, Leonardo, and Richardson, David

Subjects

*PHYLOGEOGRAPHY, *PENINSULAS, *BUTTERFLIES, *NUCLEOTIDE sequence, *STRAITS, *MITOCHONDRIAL DNA

Abstract

Populations inhabiting Mediterranean islands often show contrasting genetic lineages, even on islands that were connected to the mainland during glacial maxima. This pattern is generated by forces acting in historical and contemporary times. Understanding these phenomena requires comparative studies integrating genetic structure, functional traits and dispersal constraints.Using as a model the butterfly species living across the Messina strait (3 km wide) separating Sicily from the Italian Peninsula, we aimed to unravel the mechanisms limiting the dispersal of matrilines and generating genetic differentiation across a narrow sea strait.We analysed the mitochondrial COI gene of 84 butterfly species out of 90 documented in Sicily and compared them with populations from the neighbouring southern Italian Peninsula (1,398 sequences) and from the entire Palaearctic region (8,093 sequences). For each species, we regressed 13 functional traits and 2 ecological constraints to dispersal (winds experienced at the strait and climatic suitability) against genetic differentiation between Sicily and Italian Peninsula to understand the factors limiting dispersal.More than a third of the species showed different haplogroups across the strait and most of them also represented endemic haplogroups for this island. One fifth of Sicilian populations (and 32.3% of endemic lineages) had their closest relatives in distant areas, instead of the neighbouring Italian Peninsula, which suggests high relictuality. Haplotype diversity was significantly explained by the length of the flight period, an intrinsic phenology trait, while genetic differentiation was explained by both intrinsic traits (wingspan and degree of generalism) and contemporary local constraints (winds experienced at the strait and climatic suitability).A relatively narrow sea strait can produce considerable differentiation among butterfly matrilines and this phenomenon showed a largely deterministic fingerprint. Because of unfavourable winds, populations of the less dispersive Sicilian butterflies tended to differentiate into endemic variants or to maintain relict populations. Understanding these phenomena required the integration of DNA sequences, species traits and physical constraints for a large taxon at continental scale. Future studies may reveal if the patterns here shown for mitochondrial DNA are also reflected in the nuclear genome or, alternatively, are the product of limited female dispersal. [ABSTRACT FROM AUTHOR]

Published

2020

229. Integrating three comprehensive data sets shows that mitochondrial DNA variation is linked to species traits and paleogeographic events in European butterflies.

Author

Dapporto, Leonardo, Cini, Alessandro, Vodă, Raluca, Dincă, Vlad, Wiemers, Martin, Menchetti, Mattia, Magini, Giulia, Talavera, Gerard, Shreeve, Tim, Bonelli, Simona, Casacci, Luca Pietro, Balletto, Emilio, Scalercio, Stefano, and Vila, Roger

Subjects

*BUTTERFLIES, *SPECIES, *MITOCHONDRIAL DNA, *LARVAL dispersal

Abstract

Understanding the dynamics of biodiversity, including the spatial distribution of genetic diversity, is critical for predicting responses to environmental changes, as well as for effective conservation measures. This task requires tracking changes in biodiversity at large spatial scales and correlating with species functional traits. We provide three comprehensive resources to understand the determinants for mitochondrial DNA differentiation represented by (a) 15,609 COI sequences and (b) 14 traits belonging to 307 butterfly species occurring in Western‐Central Europe and (c) the first multi‐locus phylogenetic tree of all European butterfly species. By applying phylogenetic regressions we show that mitochondrial DNA spatial differentiation (as measured with GST, G′ST, D and DST) is negatively correlated with species traits determining dispersal capability and colonization ability. Thanks to the high spatial resolution of the COI data, we also provide the first zoogeographic regionalization maps based on intraspecific genetic variation. The overall pattern obtained by averaging the spatial differentiation of all Western‐Central European butterflies shows that the paradigm of long‐term glacial isolation followed by rapid pulses of post‐glacial expansion has been a pervasive phenomenon in European butterflies. The results and the extensive data sets we provide here constitute the basis for genetically‐informed conservation plans for a charismatic group in a continent where flying insects are under alarming decline. [ABSTRACT FROM AUTHOR]

Published

2019

230. Dissecting the Effects of Selection and Mutation on Genetic Diversity in Three Wood White (Leptidea) Butterfly Species.

Author

Talla, Venkat, Soler, Lucile, Kawakami, Takeshi, Dincă, Vlad, Vila, Roger, Friberg, Magne, Wiklund, Christer, and Backström, Niclas

Subjects

*GENETIC drift, *SPECIES, *BUTTERFLIES, *GENETIC polymorphisms, *ALLELES in plants, *WOOD, *GENETIC recombination, *SMALL groups

Abstract

The relative role of natural selection and genetic drift in evolution is a major topic of debate in evolutionary biology. Most knowledge spring from a small group of organisms and originate from before it was possible to generate genome-wide data on genetic variation. Hence, it is necessary to extend to a larger number of taxonomic groups, descriptive and hypothesis-based research aiming at understanding the proximate and ultimate mechanisms underlying both levels of genetic polymorphism and the efficiency of natural selection. In this study, we used data from 60 whole-genome resequenced individuals of three cryptic butterfly species (Leptidea sp.), together with novel gene annotation information and population recombination data. We characterized the overall prevalence of natural selection and investigated the effects of mutation and linked selection on regional variation in nucleotide diversity. Our analyses showed that genome-wide diversity and rate of adaptive substitutions were comparatively low, whereas nonsynonymous to synonymous polymorphism and substitution levels were comparatively high in Leptidea , suggesting small long-term effective population sizes. Still, negative selection on linked sites (background selection) has resulted in reduced nucleotide diversity in regions with relatively high gene density and low recombination rate. We also found a significant effect of mutation rate variation on levels of polymorphism. Finally, there were considerable population differences in levels of genetic diversity and pervasiveness of selection against slightly deleterious alleles, in line with expectations from differences in estimated effective population sizes. [ABSTRACT FROM AUTHOR]

Published

2019

231. Global invasion history of the agricultural pest butterfly Pieris rapae revealed with genomics and citizen science.

Author

Ryan, Sean F., Lombaert, Eric, Espeset, Anne, Vila, Roger, Talavera, Gerard, Dincă, Vlad, Doellman, Meredith M., Renshaw, Mark A., Eng, Matthew W., Hornett, Emily A., Yiyuan Li, Pfrender, Michael E., and Shoemaker, DeWayne

Subjects

*AGRICULTURAL pests, *WORLD history, *AGRICULTURAL history, *BELT & Road Initiative, *CITIZEN science

Abstract

The small cabbage white butterfly, Pieris rapae, is a major agricultural pest of cruciferous crops and has been introduced to every continent except South America and Antarctica as a result of human activities. In an effort to reconstruct the near-global invasion history of P. rapae, we developed a citizen science project, the "Pieris Project," and successfully amassed thousands of specimens from 32 countries worldwide. We then generated and analyzed nuclear (double-digest restriction site-associated DNA fragment procedure [ddRAD]) and mitochondrial DNA sequence data for these samples to reconstruct and compare different global invasion history scenarios. Our results bolster historical accounts of the global spread and timing of P. rapae introductions. We provide molecular evidence supporting the hypothesis that the ongoing divergence of the European and Asian subspecies of P. rapae (~1,200 y B.P.) coincides with the diversification of brassicaceous crops and the development of human trade routes such as the Silk Route (Silk Road). The further spread of P. rapae over the last ~160 y was facilitated by human movement and trade, resulting in an almost linear series of at least 4 founding events, with each introduced population going through a severe bottleneck and serving as the source for the next introduction. Management efforts of this agricultural pest may need to consider the current existence of multiple genetically distinct populations. Finally, the international success of the Pieris Project demonstrates the power of the public to aid scientists in collections-based research addressing important questions in invasion biology, and in ecology and evolutionary biology more broadly. [ABSTRACT FROM AUTHOR]

Published

2019

232. A mirage of cryptic species: Genomics uncover striking mitonuclear discordance in the butterfly Thymelicus sylvestris.

Author

Hinojosa, Joan C., Koubínová, Darina, Szenteczki, Mark A., Pitteloud, Camille, Dincă, Vlad, Alvarez, Nadir, and Vila, Roger

Subjects

*MITOCHONDRIAL DNA, *NUCLEAR DNA, *GENOMICS, *NUCLEOTIDE sequence, *SPECIES, *BUTTERFLIES, *NATURAL selection, *GENETIC speciation

Abstract

Mitochondrial DNA (mtDNA) sequencing has led to an unprecedented rise in the identification of cryptic species. However, it is widely acknowledged that nuclear DNA (nuDNA) sequence data are also necessary to properly define species boundaries. Next generation sequencing techniques provide a wealth of nuclear genomic data, which can be used to ascertain both the evolutionary history and taxonomic status of putative cryptic species. Here, we focus on the intriguing case of the butterfly Thymelicus sylvestris (Lepidoptera: Hesperiidae). We identified six deeply diverged mitochondrial lineages; three distributed all across Europe and found in sympatry, suggesting a potential case of cryptic species. We then sequenced these six lineages using double‐digest restriction‐site associated DNA sequencing (ddRADseq). Nuclear genomic loci contradicted mtDNA patterns and genotypes generally clustered according to geography, i.e., a pattern expected under the assumption of postglacial recolonization from different refugia. Further analyses indicated that this strong mtDNA/nuDNA discrepancy cannot be explained by incomplete lineage sorting, sex‐biased asymmetries, NUMTs, natural selection, introgression or Wolbachia‐mediated genetic sweeps. We suggest that this mitonuclear discordance was caused by long periods of geographic isolation followed by range expansions, homogenizing the nuclear but not the mitochondrial genome. These results highlight T. sylvestris as a potential case of multiple despeciation and/or lineage fusion events. We finally argue, since mtDNA and nuDNA do not necessarily follow the same mechanisms of evolution, their respective evolutionary history reflects complementary aspects of past demographic and biogeographic events. see also the Perspective by Després [ABSTRACT FROM AUTHOR]

Published

2019

233. Historical and current patterns of gene flow in the butterfly Pararge aegeria.

Author

Livraghi, Luca, Vodă, Raluca, Evans, Luke Christopher, Gibbs, Melanie, Dincă, Vlad, Holland, Peter W. H., Shreeve, Tim G., Vila, Roger, Dapporto, Leonardo, and Breuker, Casper J.

Subjects

*BUTTERFLIES, *GENETIC correlations, *SEXUAL behavior in insects, *GENE flow, *PHYLOGEOGRAPHY, *INSECTS

Abstract

Abstract: Aim: We have investigated the phylogeography and genetic structure of the Speckled Wood butterfly (Pararge aegeria) across its entire distribution range and studied its dispersal both on mainland and across sea straits. The apparent lack of gene flow between Sardinia and Corsica was further investigated by means of mating experiments. Location: Europe and North Africa. Methods: We sampled 345 individuals and sequenced one mitochondrial gene (Cytochrome c Oxidase subunit I, COI) for all samples and two nuclear genes (wingless and zerknullt) for a subset of the specimens. A total of 22 females from Corsica and Sardinia were used to establish a series of crosses to investigate reproductive compatibility and were screened for the presence of Wolbachia. Bayesian inference (BI) and haplotype networks were employed to infer phylogenetic relationships and a Principal Coordinate Analysis (PCoA) was used to represent geographical patterns of genetic diversity. Mating and courtship data were analysed using linear mixed effect models. Results: We detected two main COI lineages separated by the Mediterranean Sea and maintained over relatively short sea straits. While nuclear gene variation was generally in agreement with that of COI, this was not the case in all areas (e.g. Iberian Peninsula and Corsica/Sardinia). Mating experiments revealed no evidence of reproductive isolation between the lineages, nor clear relation to Wolbachia infection status. Main conclusions: We propose that following the post‐glacial recolonization of Europe, the ancestral COI lineage of P. aegeria was maintained in North Africa and Mediterranean islands, while a new lineage colonized from Eastern Europe, replacing and apparently out‐competing the ancestral variant. Several hypotheses are discussed that may explain the local discordance between the nuclear genes and COI, including sex‐specific dispersal, selection and differential rates of gene evolution. [ABSTRACT FROM AUTHOR]

Published

2018

234. Rise and fall of island butterfly diversity: Understanding genetic differentiation and extinction in a highly diverse archipelago.

Author

Dapporto, Leonardo, Cini, Alessandro, Menchetti, Mattia, Vodă, Raluca, Bonelli, Simona, Casacci, Luca P., Dincă, Vlad, Scalercio, Stefano, Hinojosa, Joan C., Biermann, Heinrich, Forbicioni, Leonardo, Mazzantini, Umberto, Venturi, Lucia, Zanichelli, Franca, Balletto, Emilio, Shreeve, Tim G., Dennis, Roger L. H., Vila, Roger, and Burridge, Chris

Subjects

*BUTTERFLIES, *BIOLOGICAL extinction & the environment, *GENETIC correlations, *BIOLOGICAL extinction, *BIODIVERSITY, *INSECTS

Abstract

Aim We describe fine-scale diversity patterns of the entire butterfly fauna occurring on the Tuscan Archipelago. By assessing the traits associated with population diversification, haplotype uniqueness and extinction, we aim to identify the factors determining the origin and maintenance of genetic diversity, and population vulnerability to environmental changes. Location Tuscan Archipelago, Sardinia, Tuscany (Italy) and Corsica (France). Methods We built a mt DNA dataset (1,303 COI sequences) for the 52 butterfly species reported in the Archipelago, also including specimens from neighbouring areas, and compiled data on 12 species traits and on the apparent extinction of species from the main islands. We calculated indices that measure genetic differentiation, and using phylogenetic regressions we evaluated the relationships between these indices and species traits. Finally, we inferred which traits are associated with disappearance of species on individual islands using phylogenetic regression. Results The overall spatial pattern of genetic diversity corresponded with the proximity of the areas, but strong contrasts were also identified between geographically close areas. Together with the island endemics, several common and widespread species had a high genetic diversification among islands and mainland. Phylogenetic regressions revealed that smaller-sized, more specialized species, with a preference for drier regions, displayed greater genetic structure and/or haplotype uniqueness. Species that disappeared from islands had a higher population diversification. Capraia has experienced a notable loss of diversity, which significantly affected species with shorter flight periods. Main conclusions Tuscan island butterflies are characterized by strong genetic contrasts and species differ in their contribution to the overall genetic diversity. By ranking the species for their contribution to genetic diversity and identifying the traits linked to the emergence and maintenance of diversity, we have developed a valuable tool for prioritizing populations as targets for monitoring and conservation action. The dataset constructed also represents a valuable resource for testing biogeographical hypotheses. [ABSTRACT FROM AUTHOR]

Published

2017

235. Climatic niche evolution is faster in sympatric than allopatric lineages of the butterfly genus Pyrgus.

Author

Pitteloud, Camille, Arrigo, Nils, Suchan, Tomasz, Mastretta-Yanes, Alicia, Vila, Roger, Dincă, Vlad, Hernández-Roldán, Juan, Brockmann, Ernst, Chittaro, Yannick, Kleckova, Irena, Fumagalli, Luca, Buerki, Sven, Pellissier, Loïc, and Alvarez, Nadir

Subjects

*PYRGUS, *BIOGEOGRAPHY, *ABIOTIC environment, *VICARIANCE, *ECOLOGICAL niche, *COMPETITION (Biology)

Abstract

Understanding how speciation relates to ecological divergence has long fascinated biologists. It is assumed that ecological divergence is essential to sym- patric speciation, as a mechanism to avoid competition and eventually lead to reproductive isolation,while divergence in allopatry is not necessarily associated with niche differentiation. The impact of the spatial context of divergence on the evolutionary rates of abiotic dimensions of the ecological niche has rarely been exploredforanentireclade.Here,wecomparethemagnitudeofclimaticniche shifts between sympatric versus allopatric divergence of lineages in butterflies. By combining next-generation sequencing, parametric biogeography and eco- logical niche analyses applied to a genus-wide phylogeny of Palaearctic Pyrgus butterflies, we compare evolutionary rates along eight climatic dimensions across sister lineages that diverged in large-scale sympatry versus allopatry. In ordertoexaminethepossibleeffectsofthespatialscaleatwhichsympatryis defined, we considered three sets of biogeographic assignments, ranging from narrow to broad definition. Our findings suggest higher rates of niche evolution along all climatic dimensions for sister lineages that diverge in sympatry, when using a narrowdelineation of biogeographic areas. This result contrastswith significantly lower rates of climatic niche evolution found in cases of allopatric speciation, despite the biogeographic regions defined here being characterized by significantly different climates. Higher rates in allopatry are retrieved when biogeographic areas are too widely defined--in such a case allopatric events may be recorded as sympatric. Our results reveal themacro-evolutionary significance of abiotic niche differentiation involved in speciation processes within biogeographic regions, and illustrate the importance of the spatial scale chosen to define areas when applying parametric biogeographic analyses. [ABSTRACT FROM AUTHOR]

Published

2017

236. Can butterflies cope with city life? Butterfly diversity in a young megacity in southern China1.

Author

Sing, Kong-Wah, Dong, Hui, Wang, Wen-Zhi, Wilson, John-James, and Dincă, Vlad

Subjects

*BUTTERFLIES, *MEGALOPOLIS, *PLANT diversity, *GENETIC barcoding, *ECOLOGICAL niche

Abstract

During 30 years of unprecedented urbanization, plant diversity in Shenzhen, a young megacity in southern China, has increased dramatically. Although strongly associated with plant diversity, butterfly diversity generally declines with urbanization, but this has not been investigated in Shenzhen. Considering the speed of urbanization in Shenzhen and the large number of city parks, we investigated butterfly diversity in Shenzhen parks. We measured butterfly species richness in four microhabitats (groves, hedges, flowerbeds, and unmanaged areas) across 10 parks and examined the relationship with three park variables: park age, park size, and distance from the central business district. Butterflies were identified based on wing morphology and DNA barcoding. We collected 1933 butterflies belonging to 74 species from six families; 20% of the species were considered rare. Butterfly species richness showed weak negative correlations with park age and distance from the central business district, but the positive correlation with park size was statistically significant ( p = 0.001). Among microhabitat types, highest species richness was recorded in unmanaged areas. Our findings are consistent with others in suggesting that to promote urban butterfly diversity it is necessary to make parks as large as possible and to set aside areas for limited management. In comparison to neighbouring cities, Shenzhen parks have high butterfly diversity. [ABSTRACT FROM AUTHOR]

Published

2016

237. Biogeography of western Mediterranean butterflies: combining turnover and nestedness components of faunal dissimilarity.

Author

Dapporto, Leonardo, Fattorini, Simone, Vodă, Raluca, Dincă, Vlad, Vila, Roger, and Fernández ‐ Palacios, José María

Subjects

*BUTTERFLIES, *GEOGRAPHICAL distribution of insects, *INSECT diversity, *COLONIZATION (Ecology)

Abstract

Aim Unpartitioned dissimilarity indices such as the Sørensen index (βsor) tend to categorize areas according to species number. The use of turnover indices, such as the Simpson index (βsimp), may lead to the loss of important information represented by the nestedness component (βnest). Recent studies have suggested the importance of integrating nestedness and turnover information. We evaluated this proposition by comparing biogeographical patterns obtained by unpartitioned (βsor) and partitioned indices (βsimp and βnest) on presence data of western Mediterranean butterflies. Location Western Mediterranean. Methods We assessed the regionalization of 81 mainland and island faunas according to partitioned and unpartitioned dissimilarity by using cluster analyses with the unweighted pair-group method using arithmetic averages ( UPGMA) combined with non-metric multidimensional scaling ( NMDS). We also carried out dissimilarity interpolation for βsor, βsimp, βnest and the βnest/βsor ratio, to identify geographical patterns of variation in faunal dissimilarity. Results When the unpartitioned βsor index was used, the clustering of sites allowed a clear distinction between insular and mainland species assemblages. Most islands were grouped together, irrespective of their mainland source, because of the dominant effect of their shared low richness. βsimp was the most effective index for clustering islands with their respective mainland source. βsimp clustered mainland sites into broader regions than clusters obtained using βsor. A comparison of regionalization and interpolation provided complementary information and revealed that, in different regions, the patterns highlighted by βsor could largely be determined either by nestedness or turnover. Main conclusions Partitioned and unpartitioned indices convey complementary information, and are able to reveal the influence of historical and ecological processes in structuring species assemblages. When the effect of nestedness is strong, the exclusive use of turnover indices can generate geographically coherent groupings, but can also result in the loss of important information. Indeed, various factors, such as colonization-extinction events, climatic parameters and the peninsular effect, may determine dissimilarity patterns expressed by the nestedness component. [ABSTRACT FROM AUTHOR]

Published

2014

238. A unified framework for diversity gradients: the adaptive trait continuum.

Author

Carnicer, Jofre, Stefanescu, Constantí, Vila, Roger, Dincă, Vlad, Font, Xavier, and Peñuelas, Josep

Subjects

*BIODIVERSITY, *BIOLOGICAL adaptation, *BIOLOGICAL variation, *SPECIES diversity, *BIOLOGICAL evolution, *MULTIVARIATE analysis, *DATA analysis

Abstract

ABSTRACT Aim Adaptive trait continua are axes of covariation observed in multivariate trait data for a given taxonomic group. These continua quantify and summarize life-history variation at the inter-specific level in multi-specific assemblages. Here we examine whether trait continua can provide a useful framework to link life-history variation with demographic and evolutionary processes in species richness gradients. Taking an altitudinal species richness gradient for Mediterranean butterflies as a study case, we examined a suite of traits (larval diet breadth, adult phenology, dispersal capacity and wing length) and species-specific habitat measures (temperature and aridity breadth). We tested whether traits and species-specific habitat measures tend to co-vary, whether they are phylogenetically conserved, and whether they are able to explain species distributions and spatial genetic variation in a large number of butterfly assemblages. Location Catalonia, Spain. Methods We formulated predictions associated with species richness gradients and adaptive trait continua. We applied principal components analyses (PCAs), structural equation modelling and phylogenetic generalized least squares models. Results We found that traits and species-specific habitat measures covaried along a main PCA axis, ranging from multivoltine trophic generalists with high dispersal capacity to univoltine (i.e. one generation per year), trophic specialist species with low dispersal capacity. This trait continuum was closely associated with the observed distributions along the altitudinal gradient and predicted inter-specific differences in patterns of spatial genetic variability ( FST and genetic distances), population responses to the impacts of global change and local turnover dynamics. Main conclusions The adaptive trait continuum of Mediterranean butterflies provides an integrative and mechanistic framework to: (1) analyse geographical gradients in species richness, (2) explain inter-specific differences in population abundances, spatial distributions and demographic trends, (3) explain inter-specific differences in patterns of genetic variation ( FST and genetic distances), and (4) study specialist-generalist life-history transitions frequently involved in butterfly diversification processes. [ABSTRACT FROM AUTHOR]

Published

2013

239. Phylogenetic island disequilibrium: evidence for ongoing long-term population dynamics in two Mediterranean butterflies.

Author

Dapporto, Leonardo, Schmitt, Thomas, Vila, Roger, Scalercio, Stefano, Biermann, Heinrich, Dincă, Vlad, Gayubo, Severiano F., González, José A., Lo Cascio, Pietro, and Dennis, Roger L. H.

Subjects

*POSTURAL balance, *BUTTERFLIES, *MORPHOMETRICS, *GENITALIA, *SPECIES hybridization, *PHYSIOLOGY

Abstract

Our aims were to verify the existence of phylogenetic disequilibrium between butterfly lineages at the subcontinental scale for islands and the nearest mainland and to test the capacity of islands for hosting ancestral populations of butterflies and the significance of such relict populations. The western Mediterranean continental area of Europe and North Africa together with several large and small islands (Balearics, Tuscan Archipelago, Aeolian Archipelago, Capri, Sardinia, Sicily, Corsica). Using geometric morphometrics, the shape of male genitalia was analysed in two common butterflies ( Pyronia cecilia and Pyronia tithonus), whose spatial heterogeneity in the Mediterranean region has recently been described. Observed patterns in genital shapes were compared with shapes predicted for islands and fossil islands to assess the contribution of historical and current events in accounting for the transition from a refugial model to an equilibrium model. Measurements were taken for 473 specimens in 90 insular and mainland sites. The shape of the genitalia of populations of most islands differed substantially from that predicted by the equilibrium hypothesis while closely fitting the refugial hypothesis. The comparison between different models strongly suggests that islands maintain ancestral lineages similar to those living in Spain ( P. cecilia) and France ( P. tithonus). A high correlation between observed and predicted patterns on islands and fossil islands occurs during the first steps of modelled introgressive hybridization while the following steps exposed a successively lower fit, suggesting that the process from a refugial to an equilibrium situation is highly skewed towards an earlier non-equilibrium. The observed non-equilibrium pattern supports the refugial hypothesis, suggesting that an ancestral lineage was originally distributed from Spain to Italy, and also occupied offshore islands. This lineage, replaced in Italy, has persisted on the islands owing to their isolation. A comparison of the distribution patterns for genetic and morphometric markers in several species indicates that the situation highlighted for Pyronia may represent a common biogeographic feature for many Mediterranean butterflies. [ABSTRACT FROM AUTHOR]

Published

2011

240. The genetic legacy of the Quaternary ice ages for West Palearctic butterflies.

Author

Dapporto L, Menchetti M, Dincă V, Talavera G, Garcia-Berro A, D'Ercole J, Hebert PD, and Vila R

Subjects

Animals, Europe, Genetic Variation, Phylogeny, Electron Transport Complex IV genetics, Phylogeography, Butterflies genetics

Abstract

The interplay between geographic barriers and climatic oscillations over the past 2.6 million years structured genetic variation at the continental scale. The genetic legacy of the Quaternary ice ages (GLQ) hypothesis outlines this phenomenon for Europe, but a comprehensive data-driven assessment is lacking. Using innovative genetic landscape methods, we model the GLQ in the West Palearctic based on 31,653 Cytochrome c oxidase subunit 1 (COI) sequences from 494 butterfly species and three functional traits. Seven distinct bioregions with varying levels of genetic endemicity emerge, revealing a latitudinal gradient in variation that confirms the "southern richness, northern purity" hypothesis. Through shift from case studies to a comparative approach, we objectively identify the main glacial refugia, colonization routes, and barriers to dispersal. Our findings offer a quantitative model of the GLQ across Europe, North Africa, and neighboring Asia, with broader applicability to other taxa and potentially scalable to encompass life on Earth.

Published

2024

241. More hidden diversity in a cryptic species complex: a new subspecies of Leptideasinapis (Lepidoptera, Pieridae) from Northern Iran.

Author

Nazari V, Lukhtanov VA, Naderi A, Fric ZF, Dincă V, and Vila R

Abstract

A new subspecies of Leptideasinapis from Northern Iran, discovered by means of DNA barcoding, is described as Leptideasinapistabarestana ssp. nov. The new subspecies is allopatric with respect to other populations of L.sinapis and is genetically distinct, appearing as a well-supported sister clade to all other populations in COI-based phylogenetic reconstructions. Details on karyotype, genitalia, ecology and behaviour for the new subspecies are given and a biogeographical speciation scenario is proposed., (Vazrick Nazari, Vladimir A. Lukhtanov, Alireza Naderi, Zdenek Faltýnek Fric, Vlad Dincă, Roger Vila.)

Published

2023

242. Genomics Reveal Admixture and Unexpected Patterns of Diversity in a Parapatric Pair of Butterflies.

Author

Tahami MS, Dincă V, Lee KM, Vila R, Joshi M, Heikkilä M, Dapporto L, Schmid S, Huemer P, and Mutanen M

Subjects

Animals, Balkan Peninsula, Butterflies anatomy & histology, Butterflies genetics, Evolution, Molecular, Gene Flow, Genetic Speciation, Mitochondria genetics, Phylogeny, Sequence Analysis, DNA, Sympatry, Butterflies classification, Cell Nucleus genetics, DNA, Mitochondrial genetics, Genomics methods

Abstract

We studied the evolutionary relationship of two widely distributed parapatric butterfly species, Melitaea athalia and Melitaea celadussa , using the ddRAD sequencing approach, as well as genital morphology and mtDNA data. M. athalia was retrieved as paraphyletic with respect to M. celadussa . Several cases of mito-nuclear discordance and morpho-genetic mismatch were found in the contact zone. A strongly diverged and marginally sympatric clade of M. athalia from the Balkans was revealed. An in-depth analysis of genomic structure detected high levels of admixture between M. athalia and M. celadussa at the contact zone, though not reaching the Balkan clade. The demographic modelling of populations supported the intermediate genetic make-up of European M. athalia populations with regards to M. celadussa and the Balkan clade. However, the dissimilarity matrix of genotype data (PCoA) suggested the Balkan lineage having a genetic component that is unrelated to the athalia - celadussa group. Although narrowly sympatric, almost no signs of gene flow were found between the main M. athalia group and the Balkan clade. We propose two possible scenarios on the historical evolution of our model taxa and the role of the last glacial maximum in shaping their current distribution. Finally, we discuss the complexities regarding the taxonomic delimitation of parapatric taxa.

Published

2021

243. A DNA barcode library for the butterflies of North America.

Author

D'Ercole J, Dincă V, Opler PA, Kondla N, Schmidt C, Phillips JD, Robbins R, Burns JM, Miller SE, Grishin N, Zakharov EV, DeWaard JR, Ratnasingham S, and Hebert PDN

Abstract

Although the butterflies of North America have received considerable taxonomic attention, overlooked species and instances of hybridization continue to be revealed. The present study assembles a DNA barcode reference library for this fauna to identify groups whose patterns of sequence variation suggest the need for further taxonomic study. Based on 14,626 records from 814 species, DNA barcodes were obtained for 96% of the fauna. The maximum intraspecific distance averaged 1/4 the minimum distance to the nearest neighbor, producing a barcode gap in 76% of the species. Most species (80%) were monophyletic, the others were para- or polyphyletic. Although 15% of currently recognized species shared barcodes, the incidence of such taxa was far higher in regions exposed to Pleistocene glaciations than in those that were ice-free. Nearly 10% of species displayed high intraspecific variation (>2.5%), suggesting the need for further investigation to assess potential cryptic diversity. Aside from aiding the identification of all life stages of North American butterflies, the reference library has provided new perspectives on the incidence of both cryptic and potentially over-split species, setting the stage for future studies that can further explore the evolutionary dynamics of this group., Competing Interests: The authors declare there are no competing interests., (©2021 D’Ercole et al.)

Published

2021

244. High resolution DNA barcode library for European butterflies reveals continental patterns of mitochondrial genetic diversity.

Author

Dincă V, Dapporto L, Somervuo P, Vodă R, Cuvelier S, Gascoigne-Pees M, Huemer P, Mutanen M, Hebert PDN, and Vila R

Subjects

Animals, Butterflies classification, Europe, Haplotypes, Species Specificity, Butterflies genetics, DNA Barcoding, Taxonomic, DNA, Mitochondrial genetics, Gene Library, Genetic Variation

Abstract

The study of global biodiversity will greatly benefit from access to comprehensive DNA barcode libraries at continental scale, but such datasets are still very rare. Here, we assemble the first high-resolution reference library for European butterflies that provides 97% taxon coverage (459 species) and 22,306 COI sequences. We estimate that we captured 62% of the total haplotype diversity and show that most species possess a few very common haplotypes and many rare ones. Specimens in the dataset have an average 95.3% probability of being correctly identified. Mitochondrial diversity displayed elevated haplotype richness in southern European refugia, establishing the generality of this key biogeographic pattern for an entire taxonomic group. Fifteen percent of the species are involved in barcode sharing, but two thirds of these cases may reflect the need for further taxonomic research. This dataset provides a unique resource for conservation and for studying evolutionary processes, cryptic species, phylogeography, and ecology.

Published

2021

245. Incomplete Sterility of Chromosomal Hybrids: Implications for Karyotype Evolution and Homoploid Hybrid Speciation.

Author

Lukhtanov VA, Dincă V, Friberg M, Vila R, and Wiklund C

Abstract

Heterozygotes for major chromosomal rearrangements such as fusions and fissions are expected to display a high level of sterility due to problems during meiosis. However, some species, especially plants and animals with holocentric chromosomes, are known to tolerate chromosomal heterozygosity even for multiple rearrangements. Here, we studied male meiotic chromosome behavior in four hybrid generations (F1-F4) between two chromosomal races of the Wood White butterfly Leptidea sinapis differentiated by at least 24 chromosomal fusions/fissions. Previous work showed that these hybrids were fertile, although their fertility was reduced as compared to crosses within chromosomal races. We demonstrate that (i) F1 hybrids are highly heterozygous with nearly all chromosomes participating in the formation of trivalents at the first meiotic division, and (ii) that from F1 to F4 the number of trivalents decreases and the number of bivalents increases. We argue that the observed process of chromosome sorting would, if continued, result in a new homozygous chromosomal race, i.e., in a new karyotype with intermediate chromosome number and, possibly, in a new incipient homoploid hybrid species. We also discuss the segregational model of karyotype evolution and the chromosomal model of homoploid hybrid speciation., (Copyright © 2020 Lukhtanov, Dincă, Friberg, Vila and Wiklund.)

Published

2020

246. The conundrum of species delimitation: a genomic perspective on a mitogenetically super-variable butterfly.

Author

Dincă V, Lee KM, Vila R, and Mutanen M

Subjects

Africa, Northern, Animals, Biological Evolution, Europe, Gene Flow, Kazakhstan, Restriction Mapping, Butterflies genetics, DNA, Mitochondrial analysis, Genetic Speciation, Genome, Insect, Phylogeny, Polymorphism, Single Nucleotide

Abstract

The Palaearctic butterfly Melitaea didyma stands out as one of the most striking cases of intraspecific genetic differentiation detected in Lepidoptera: 11 partially sympatric mitochondrial lineages have been reported, displaying levels of divergence of up to 7.4%. To better understand the evolutionary processes underlying the diversity observed in mtDNA, we compared mtDNA and genome-wide SNP data using double-digest restriction site-associated DNA sequencing (ddRADseq) results from 93 specimens of M. didyma ranging from Morocco to eastern Kazakhstan. We found that, between ddRADseq and mtDNA results, there is a match only in populations that probably remained allopatric for long periods of time. Other mtDNA lineages may have resulted from introgression events and were probably affected by Wolbachia infection. The five main ddRADseq clades supported by STRUCTURE were parapatric or allopatric and showed high pairwise F ST values, but some were also estimated to display various levels of gene flow. Melitaea didyma represents one of the first cases of deep mtDNA splits among European butterflies assessed by a genome-wide DNA analysis and reveals that the interpretation of patterns remains challenging even when a high amount of genomic data is available. These findings actualize the ongoing debate of species delimitation in allopatry, an issue probably of relevance to a significant proportion of global biodiversity.

Published

2019

247. Versatility of multivalent orientation, inverted meiosis, and rescued fitness in holocentric chromosomal hybrids.

Author

Lukhtanov VA, Dincă V, Friberg M, Šíchová J, Olofsson M, Vila R, Marec F, and Wiklund C

Subjects

Animals, Chromosomes, Insect genetics, Chromosomes, Insect metabolism, Butterflies genetics, Butterflies metabolism, Chimera genetics, Chimera metabolism, Chromatids genetics, Chromatids metabolism, Metaphase physiology

Abstract

Chromosomal rearrangements (e.g., fusions/fissions) have the potential to drive speciation. However, their accumulation in a population is generally viewed as unlikely, because chromosomal heterozygosity should lead to meiotic problems and aneuploid gametes. Canonical meiosis involves segregation of homologous chromosomes in meiosis I and sister chromatid segregation during meiosis II. In organisms with holocentric chromosomes, which are characterized by kinetic activity distributed along almost the entire chromosome length, this order may be inverted depending on their metaphase I orientation. Here we analyzed the evolutionary role of this intrinsic versatility of holocentric chromosomes, which is not available to monocentric ones, by studying F 1 to F 4 hybrids between two chromosomal races of the Wood White butterfly ( Leptidea sinapis ), separated by at least 24 chromosomal fusions/fissions. We found that these chromosomal rearrangements resulted in multiple meiotic multivalents, and, contrary to the theoretical prediction, the hybrids displayed relatively high reproductive fitness (42% of that of the control lines) and regular behavior of meiotic chromosomes. In the hybrids, we also discovered inverted meiosis, in which the first and critical stage of chromosome number reduction was replaced by the less risky stage of sister chromatid separation. We hypothesize that the ability to invert the order of the main meiotic events facilitates proper chromosome segregation and hence rescues fertility and viability in chromosomal hybrids, potentially promoting dynamic karyotype evolution and chromosomal speciation., Competing Interests: The authors declare no conflict of interest.

Published

2018

248. Use of genetic, climatic, and microbiological data to inform reintroduction of a regionally extinct butterfly.

Author

Dincă V, Bálint Z, Vodă R, Dapporto L, Hebert PDN, and Vila R

Subjects

Animals, Conservation of Natural Resources, DNA, Mitochondrial, France, Genetic Variation, Haplotypes, Phylogeny, Butterflies

Abstract

Species reintroductions are increasingly used as means of mitigating biodiversity loss. Besides habitat quality at the site targeted for reintroduction, the choice of source population can be critical for success. The butterfly Melanargia russiae (Esper´s marbled white) was extirpated from Hungary over 100 years ago, and a reintroduction program has recently been approved. We used museum specimens of this butterfly, mitochondrial DNA data (mtDNA), endosymbiont screening, and climatic-similarity analyses to determine which extant populations should be used for its reintroduction. The species displayed 2 main mtDNA lineages across its range: 1 restricted to Iberia and southern France (Iberian lineage) and another found throughout the rest of its range (Eurasian lineage). These 2 lineages possessed highly divergent wsp alleles of the bacterial endosymbiont Wolbachia. The century-old Hungarian specimens represented an endemic haplotype belonging to the Eurasian lineage, differing by one mutation from the Balkan and eastern European populations. The Hungarian populations of M. russiae occurred in areas with a colder and drier climate relative to most sites with extant known populations. Our results suggest the populations used for reintroduction to Hungary should belong to the Eurasian lineage, preferably from eastern Ukraine (genetically close and living in areas with the highest climatic similarity). Materials stored in museum collections can provide unique opportunities to document historical genetic diversity and help direct conservation., (© 2018 Society for Conservation Biology.)

Published

2018

249. Towards a Sedimentology of Information Infrastructures: a Geological Approach for Understanding the City.

Author

Niculescu-Dincă V

Abstract

Drawing primarily on ethnographic research performed in a city in Romania, this paper provides a thick description of police practices and information systems in that municipality. It shows various ways in which technologies mediate policing practitioners' perceptions, decisions and actions. Bringing some additional material from a case in the Dutch police in which they build risk profiles predicated on real-time data from a sensor network, the paper highlights new phenomena with ethical implications emerging at the intersection of information infrastructures and policing practices. In particular, it shows a solidifying effect of technologically mediated suspicion, a sedimentation process in technological infrastructures and the formation of pockets of prejudice in the layers of software code. To adequately account for these phenomena and others, the paper provides a set of arguments and conditions for a sedimentology of infrastructures. At the same time, it offers the first steps in a larger research project that would adapt and test the limits of a geological vocabulary and approach to understand smart urban environments.

Published

2018

250. Species-Level Para- and Polyphyly in DNA Barcode Gene Trees: Strong Operational Bias in European Lepidoptera.

Author

Mutanen M, Kivelä SM, Vos RA, Doorenweerd C, Ratnasingham S, Hausmann A, Huemer P, Dincă V, van Nieukerken EJ, Lopez-Vaamonde C, Vila R, Aarvik L, Decaëns T, Efetov KA, Hebert PD, Johnsen A, Karsholt O, Pentinsaari M, Rougerie R, Segerer A, Tarmann G, Zahiri R, and Godfray HC

Subjects

Animals, Bias, DNA Barcoding, Taxonomic, DNA, Mitochondrial, Genes, Mitochondrial, Classification methods, Lepidoptera classification, Lepidoptera genetics, Phylogeny

Abstract

The proliferation of DNA data is revolutionizing all fields of systematic research. DNA barcode sequences, now available for millions of specimens and several hundred thousand species, are increasingly used in algorithmic species delimitations. This is complicated by occasional incongruences between species and gene genealogies, as indicated by situations where conspecific individuals do not form a monophyletic cluster in a gene tree. In two previous reviews, non-monophyly has been reported as being common in mitochondrial DNA gene trees. We developed a novel web service "Monophylizer" to detect non-monophyly in phylogenetic trees and used it to ascertain the incidence of species non-monophyly in COI (a.k.a. cox1) barcode sequence data from 4977 species and 41,583 specimens of European Lepidoptera, the largest data set of DNA barcodes analyzed from this regard. Particular attention was paid to accurate species identification to ensure data integrity. We investigated the effects of tree-building method, sampling effort, and other methodological issues, all of which can influence estimates of non-monophyly. We found a 12% incidence of non-monophyly, a value significantly lower than that observed in previous studies. Neighbor joining (NJ) and maximum likelihood (ML) methods yielded almost equal numbers of non-monophyletic species, but 24.1% of these cases of non-monophyly were only found by one of these methods. Non-monophyletic species tend to show either low genetic distances to their nearest neighbors or exceptionally high levels of intraspecific variability. Cases of polyphyly in COI trees arising as a result of deep intraspecific divergence are negligible, as the detected cases reflected misidentifications or methodological errors. Taking into consideration variation in sampling effort, we estimate that the true incidence of non-monophyly is ∼23%, but with operational factors still being included. Within the operational factors, we separately assessed the frequency of taxonomic limitations (presence of overlooked cryptic and oversplit species) and identification uncertainties. We observed that operational factors are potentially present in more than half (58.6%) of the detected cases of non-monophyly. Furthermore, we observed that in about 20% of non-monophyletic species and entangled species, the lineages involved are either allopatric or parapatric-conditions where species delimitation is inherently subjective and particularly dependent on the species concept that has been adopted. These observations suggest that species-level non-monophyly in COI gene trees is less common than previously supposed, with many cases reflecting misidentifications, the subjectivity of species delimitation or other operational factors., (© The Author(s) 2016. Published by Oxford University Press, on behalf of the Society of Systematic Biologists.)

Published

2016