Addenda and Corrigenda to the Catalogue of Palaearctic Coleoptera, volumes 7 and 8 (Curculionoidea)
Additions, corrections, comments and nomenclatural novelties for the volumes 7 and 8 of the Catalogue of Palaearctic Coleoptera are provided. For the exact authorship of these check the text. One new species is described: Mecinus tavaresi Caldara & Fogato, sp. nov. from Portugal and Spain. New synonymies are: Compsapoderus (Compsapoderus) erythropterus (Gmelin, 1790) = Attelabus intermedius Hellwig, 1795, syn. nov.; Paroplapoderus (Erycapoderus) angulipennis (Kolbe, 1886) = Paroplapoderus (Erycapoderus) angulipennis shaanxinsis Legalov, 2004, syn. nov.
Aim To infer colonization and speciation history for a closely related complex of nine species within the enigmatic Canary Island Laparocerus weevil radiation of 128 species. Using molecular dating and the spatial and temporal context that islands provide, we evaluate the possible explanations of incomplete lineage sorting and gene flow for the origin of shared genetic variation among species from different islands. Location Canary Islands (Gran Canaria, Tenerife, La Palma and El Hierro). Methods We collected a total of 173 specimens from 37 sites distributed across the four islands. Phylogenetic analyses of mitochondrial (COII) and nuclear (ITS2) sequence data and molecular dating techniques were used to infer the origin of the group in the archipelago and their history of colonization and differentiation. Results Gran Canaria appeared to be the geographical origin of the complex. An unexpected result was that mtDNA revealed each of the single species on La Palma and El Hierro to be the product of more than one colonization event from more than one source island. In both cases nuclear ITS2 data revealed these multiple colonizations to have been followed by admixture. Main conclusions The two gene trees present very different topologies, with a rather simple colonization history required to explain the pattern of nuclear gene relationships, while the mtDNA gene tree implicates a much more complex history of colonization. Explanations of incomplete lineage sorting are ruled out and a history of colonization and speciation for the L. tessellatus complex involving genetic admixture is inferred
Mitochondrial DNA phylogenetic analysis of the genusLaparocerus(Coleoptera, Curculionidae, Entiminae). I. The Madeiran clade
Laparocerus are plant‐chewing flightless weevils distributed on oceanic islands in Macaronesia, with a single species in Morocco. The genus has a complicated taxonomic history with several subgenera described. To assist in a taxonomical revision of the group, a molecular study was undertaken. In this first contribution, the species from the Azores and Madeira archipelagos are studied together with representatives of subgenera from the Canary Islands and the single known continental species (46 OTUs). Phylogenetic analyses are based on sequence data from mitochondrial cytochrome oxidase II (COII) and the ribosomal 16S ribosomal RNA (16S rRNA) genes (combined data set 1023 bp), with additional data from the nuclear elongation factor 1α (EF‐1α) for some selected species. Maximum likelihood (ML) and Bayesian analyses show that all Madeiran species are monophyletic and form a monophyletic group with the Afro‐Canarian samples. Species of the genus Lichenophagus appear within the Madeiran and Canarian Laparocerus clades, but separated in accordance with their respective island origin. Thus, Lichenophagus is here restricted to Madeiran species and proposed as subgenus (status novo) of Laparocerus. Conversely, the Laparocerus subgenus Drouetius from the Azores is revealed to be a separate and distant outgroup, in agreement with its morphological distinctiveness, deserving an independent genus status. Internal relationships within the Madeiran clade are discussed and compared with morphologically defined species groups. The Madeiran monotypic subgenus Cyphoscelis is not supported by the genetic data and synonymized (nov. syn.) with Laparocerus. Subgenera Laparocerus and Atlantis prove to be polyphyletic. Consequently a restriction to monophyletic and morphologically congruent clades is proposed. A cryptic species vicariant of Laparocerus morio was detected and recognized as L. chaoensis, status novo. Other cases of discrepancy between the genetic results and the traditional taxonomy are discussed in detail in the light of mitochondrial introgression, incomplete lineage sorting or poor taxonomy hypotheses.
Phylogenetic analysis of the genus Laparocerus, with comments on colonisation and diversification in Macaronesia (Coleoptera, Curculionidae, Entiminae)
The flightless Entiminae weevil genus Laparocerus is the species-richest genus, with 237 species and subspecies, inhabiting Macaronesia (Madeira archipelago, Selvagens, Canary Islands) and the continental ‘Macaronesian enclave’ in Morocco (one single polytypic species). This is the second contribution to gain insight of the genus and assist in its systematic revision with a mitochondrial phylogenetic analysis. It centres on the Canarian clade, adding the 12S rRNA gene to the combined set of COII and 16S rRNA used in our first contribution on the Madeiran clade (here re-analysed). The nuclear 28S rRNA was also used to produce an additional 4-gene tree to check coherency with the 3-gene tree.A total of 225 taxa (95%) has been sequenced, mostly one individual per taxa. Plausible explanations for incoherent data (mitochondrial introgressions, admixture, incomplete lineage sorting, etc.) are discussed for each of the monophyletic subclades that are coincident with established subgenera, or are restructured or newly described. The overall mean genetic divergence (p-distance) among species is 8.2%; the mean divergence within groups (subgenera) ranks from 2.9 to 7.0% (average 4.6%), and between groups, from 5.4% to 12.0% (average 9.2%). A trustful radiation event within a young island (1.72 Ma) was used to calibrate and produce a chronogram using the software RelTime.These results confirm the monophyly of both the Madeiran (36 species and subspecies) and the Canarian (196 species and subspecies) clades, which originated ca. 11.2 Ma ago, and started to radiate in their respective archipelagos ca. 8.5 and 7.7 Ma ago. The Madeiran clade seems to have begun in Porto Santo, and from there it jumped to the Desertas and to Madeira, with additional radiations. The Canarian clade shows a sequential star-shape radiation process generating subclades with a clear shift from East to West in coherence with the decreasing age of the islands. Laparocerus garretai from the Selvagens belongs to a Canarian subclade, and Laparocerus susicus from Morocco does not represent the ancestral continental lineage, but a back-colonisation from the Canaries to Africa. Dispersal processes, colonisation patterns, and ecological remarks are amply discussed. Diversification has been adaptive as well as non-adaptive, and the role of ’geological turbulence’ is highlighted as one of the principal drivers of intra-island allopatric speciation.Based on the phylogenetic results, morphological features and distribution, five new monophyletic subgenera are described: Aridotrox subg. n., Belicarius subg. n., Bencomius subg. n., Canariotrox subg. n., and Purpuranius subg. n., totalling twenty subgenera in Laparocerus.
Aim How non‐dispersive taxa colonize islands is generalized as being by wind, or rafting, with the implicit assumption that such events involve one (wind) or a few (rafting) individuals. However, because of the evolutionary time‐scale for colonization events, the fit of individual species to a conceptual model of wind or rafting is difficult to assess. Here, we describe an alternative testable geological model for inter‐island colonization that can result in larger effective founding population sizes than traditionally accepted colonization mechanisms. We then test for the fit of genetic data to this model using weevils from the Laparocerus tessellatus species complex. Location Canary Islands. Methods Using a combination of geological data for the Canary Islands, and mtDNA data from a weevil radiation within the Canary Islands, we test three species‐level predictions for mega‐landslides as drivers of oceanic rafting between islands and subsequent speciation: (1) colonization should involve multiple female lineages, (2) founding lineages should have a common geographical origin, consistent with a mega‐landslide event, and (3) colonization direction should be consistent with ocean currents. Results Both individual‐level and population‐level analyses support a mega‐landslide event as the driver of colonization from the island of Tenerife to La Palma. At least four female lineages colonized La Palma from Tenerife, with the geographical range of ancestral sequences to these four lineages describing the limits of the La Orotava mega‐landslide in Tenerife. Main conclusions In the context of island biogeographical theory, mega‐landslides may be an important driver of colonization, and subsequent lineage diversification. They provide a framework for hypothesis testing using genetic data from species, or closely related species, with ranges that encompass landslides and potential areas of colonization.
A. Machado. 2011. Los Laparocerus Schoenherr, 1834 de las Canarias orientales, islas Salvajes y Marruecos (Coleoptera, Curculionidae, Entiminae). Graellsia, 67(2): 205-241.Esta contribución al conocimiento del género Laparocerus Schoenherr, 1834 está dedicada a las Canarias orientales, islas Salvajes y Marruecos. Se redescribe Laparocerus rasus Wollaston, 1864 y se le asignan dos nuevas subespecies localizadas en Fuerteventura: L. rasus betancor n. spp. y L. rasus jandiensis n. ssp. De esta misma isla se describen varias especies nuevas: L. maxorata n. sp., L. colonnellii n. sp., L. calvus, n. sp., L. xericola n. sp., L. fraterculus n. sp. y L. longipennis n. sp.; de la isla de Lanzarote L. curvipes famara n. ssp., y de las islas Salvajes L. garretai albosquamosus n. spp. Se redescribe la única especie confirmada de Marruecos, Laparocerus susicus (Escalera, 1914), a la que se adscriben L. susicus montanus n. spp., del interior, y L. susicus inexpectatus nom. nov.), de la región costera de Tiznit. Para la especie marroquí se plantea la hipótesis de una retrocolonización a partir de las islas Canarias, a la vez que se comentan algunas citas dudosas y ejemplares cuya atribución específica queda pendiente de resolver. Se aportan claves en español e inglés para separar los Laparocerus conocidos de este ámbito geográfico.Palabras clave: Taxonomía; nuevos taxones; Laparocerus; Homonimia; Curculionidae; Entiminae; Macaronesia; Marruecos; Salvajes; islas Canarias; Lanzarote; Fuerteventura; retrocolonización. This contribution to the knowledge of the genus Laparocerus Schoenherr, 1834 in Macaronesia concerns species from the Eastern Canaries, Salvage Islands and Morocco. Laparocerus rasus Wollaston, 1864 is redescribed and two new subspecies localised in Fuerteventura are ascribed to it: L. rasus betancor n. spp. and L. rasus jandiensis n. ssp. Several new species are described from that same island: L. maxorata n. sp., L. colonnellii n. sp., L. calvus n. sp., L. xericola n. sp., L. fraterculus n. sp., and L. longipennis n. sp.; from the island of Lanzarote L. curvipes famara n. ssp., and from the Selvage Islands L. garretai albosquamosus n. spp. The only confirmed species form Morocco, Laparocerus susicus (Escalera, 1914), is redescribed and L. susicus montanus n. spp., from the interior, and L. susicus inexpectatus nov. nom., from the coastal region of Tiznit are assigned LOS LAPAROCERUS SCHOENHERR, 1834 DE LAS CANARIAS ORIENTALES, ISLAS SALVAJES Y MARRUECOS (COLEOPTERA, CURCULIONIDAE, ENTIMINAE)to it. A retro-colonization from the Canary Islands to the continent is hypothesized for this Moroccan species. Doubtful records and unresolved species are commented on, and keys in Spanish and English for identifying all Laparocerus inhabiting this geographical context are provided.
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