Hidden diversity in European bees: Andrena amieti sp. n., a new Alpine bee species related to Andrena bicolor (Fabricius, 1775) (Hymenoptera, Apoidea, Andrenidae)

We revise the Alpine bee taxa related to Andrenabicolor (Fabricius, 1775), including A.montana Warncke, 1973 and A.allosa Warncke, 1975, the status of which has remained contentious. Phylogenetic analyses of one mitochondrial gene and one nuclear gene, as well as morphological examination reveal the presence of four Alpine species in this complex, one of which is new to science, A.amietisp. n. This new species is widely distributed in the Alps from southern France throughout Switzerland, northern Italy and southern Germany to Austria; a single record is known from the Apennines. The type locality is located within the Unesco World Heritage site “Swiss Alps Jungfrau-Aletsch”. Two widely divergent mitochondrial lineages are found in sympatry in A.amietisp. n.; the status of these lineages, which together form a paraphyletic unit from which A.allosa arose, is briefly discussed. We show that A.allosa, A.amietisp. n. and A.montana are polylectic but that each species exhibits a distinct spectrum of pollen hosts: the univoltine A.allosa shows affinities for pollen of the early-blooming Alpine plant genus Crocus. A.amietisp. n. is bivoltine and, as in A.bicolor, the summer generation exhibits a distinct preference for Campanulaceae, while the spring generation is widely polylectic. A.montana has a single generation in the summer and forages on a diversity of flowers such as Campanulaceae, Cistaceae and Caryophyllaceae. An identification key is presented for central European members of the subgenus Euandrena Hedicke, 1932. Lastly, the new Alpine species appears to represent the tip of the iceberg of substantial cryptic diversity in southern European Andrena (Euandrena): A.croatica Friese, 1887 is resurrected from synonymy with A.bicolor and treated as a valid species (stat. rev.), A.pileata Warncke, 1875, described as a subspecies of A.allosa, is elevated to species rank (stat. n.), and three additional unclear taxa are briefly described.

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Four new species and further records of Dorvilleidae (Annelida, Polychaeta) from deep-sea organic substrata, NE Atlantic

European Journal of Taxonomy ◽

10.5852/ejt.2021.736.1251 ◽

2021 ◽

Vol 736 ◽

pp. 44-81

Author(s):

Ascensão Ravara ◽

Helena Wiklund ◽

Marina R. Cunha

Keyword(s):

New Species ◽

Dna Sequences ◽

Phylogenetic Analyses ◽

Mitochondrial Gene ◽

Nuclear Gene ◽

Original Description ◽

Ne Atlantic ◽

Morphological Examination ◽

Bathymetric Distribution ◽

Molecular Phylogenetic

Eight species of Ophryotrocha and one of Parougia were identified from organic substrata (wood and alfalfa) sampled at the Gulf of Cadiz and Western Iberian Margin (NE Atlantic). Morphological examination and molecular phylogenetic analyses, based on the nuclear gene H3 and the mitochondrial gene 16S, indicate the presence of four species new to science: Ophryotrocha chemecoli sp. nov., O. nunezi sp. nov., O. geoffreadi sp. nov. and Parougia ougi sp. nov. The geographic and/or bathymetric distribution is extended for four previously known species: O. cantabrica, O. hartmanni, O. mammillata and O. scutellus. Another species may also have its distribution extended, pending the molecular confirmation of its identity: O. lipscombae. Full descriptions and figures are given for all the new species and, when justified, also for the previously known ones. The original description of O. scutellus is amended. New DNA sequences are given for eight of the nine species studied here. The ecology and geographic distribution of the reported species is discussed.

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Species relationships in the dasyurid marsupial genus Pseudantechinus (Marsupialia : Dasyuridae): a re-examination of the taxonomic status of Pseudantechinus roryi

Australian Journal of Zoology ◽

10.1071/zo17059 ◽

2017 ◽

Vol 65 (4) ◽

pp. 240 ◽

Cited By ~ 2

Author(s):

L. S. Umbrello ◽

P. A. Woolley ◽

M. Westerman

Keyword(s):

Dna Sequences ◽

Isolation By Distance ◽

Phylogenetic Analyses ◽

Mitochondrial Gene ◽

Taxonomic Status ◽

Museum Collections ◽

Species Relationships ◽

Type Specimens ◽

Network Analyses ◽

The Status

The status of Pseudantechinus roryi relative to its congeners has been determined from DNA sequences obtained from both nuclear and mitochondrial gene loci. Although all other recognised species of Pseudantechinus form reciprocally monophyletic lineages in phylogenetic analyses, individuals identified in museum collections as Ps. roryi (including type specimens) were indistinguishable from those identified as Ps. macdonnellensis. Ps. roryi is thus considered to be a synonym of Ps. macdonnellensis. Neighbour-joining network analyses failed to reveal any clear biogeographic differences between populations of Ps. macdonnellensis other than some evidence of isolation by distance.

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A curious nematode, Diploscapteroides persicus n. sp. (Nematoda: Rhabditida: Rhabditomorpha), from Iran with a note on the status of the male genital papillae

Nematology ◽

10.1163/15685411-00002922 ◽

2015 ◽

Vol 17 (9) ◽

pp. 1045-1056 ◽

Cited By ~ 1

Author(s):

Razieh Ghaemi ◽

Ebrahim Pourjam ◽

Sergio Álvarez-Ortega ◽

Majid Pedram ◽

Mohammad Reza Atighi

Keyword(s):

New Species ◽

Phylogenetic Analyses ◽

Tail Length ◽

Molecular Data ◽

Rrna Genes ◽

Valid Species ◽

Female Tail ◽

The Status ◽

Species Being ◽

Male Genital

Diploscapteroides persicus n. sp. is described and illustrated based on morphological, morphometric and molecular data. The new species is mainly characterised by female body length of 469-673 μm, female tail length of 51-99 μm, shape of gubernaculum and spicules and arrangement of male genital papillae. Also, the arrangement of male genital papillae of the new species shows the presence of precloacal papillae, a feature that has not been previously described for the genus. The new species is comparable with all valid species of the genus, namely D. boettgeri, D. brevicauda, D. chitinolabiatus, D. coroniger, D. dacchensis and D. flexuosus, from which the morphological comparisons of the new species with aforementioned species are discussed. Phylogenetic analyses using partial sequences of SSU and LSU rRNA genes were performed for the new species, being the first representative of the genus to be phylogenetically studied using both Bayesian inference (BI) and maximum likelihood (ML) methods, and revealed that D. persicus n. sp. formed a clade with a species of Cephaloboides.

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European bumblebees (Hymenoptera: Bombini)- phylogenetic relationships inferred from DNA sequences

Insect Systematics & Evolution ◽

10.1163/187631202x00208 ◽

2002 ◽

Vol 33 (4) ◽

pp. 361-386 ◽

Cited By ~ 33

Author(s):

Vest Pedersen

Keyword(s):

Maximum Likelihood ◽

Dna Sequences ◽

Phylogenetic Trees ◽

Phylogenetic Analyses ◽

Mitochondrial Gene ◽

Elongation Factor ◽

Nuclear Gene ◽

The Other ◽

Elongation Factor 1Α ◽

Nucleotide Bias

AbstractThe phylogenetics of 40 taxa of European bumblebees were analysed based on PCR amplified and direct sequenced DNA from one region of the mitochondrial gene Cytochrome Oxidase I (1046 bp) and for 26 taxa from two regions in the nuclear gene Elongation Factor 1α (1056 bp). The sequences were aligned to the corresponding sequences in the honey bee. Phylogenetic analyses based on parsimony, as well as maximum likelihood, indicate that the bumblebees can be separated into several well-supported clades. Most of the terminal clades correspond very well with the clades known from former phylogenetic analyses based on morphology and recognized as the subgenera: Mendacibombus, Confusibombus, Psithyrus, Thoracobombus, Megabombus, Rhodobombus, Kallobombus, Alpinobombus, Subterraneobombus, Alpigenobombus, Pyrobombus, Bombus and Melanobombus. All the cuckoo bumblebees form a well-supported clade, the subgenus Psithyrus, within the true bumblebees. All the analyses place Kallobombus as the most basal taxon in contradiction to former analyses. The other deeper nodes of the phylogenetic trees, which are weakly supported, deviate significantly from former published trees - especially the trees based on mtCO-I. Presumably, the reasons are that multiple hits and the strong bias of the bases A and T blur the relationships in the deepest part of the trees. Analyses of the region in mtCO-I show a very strong A+T bias (A+T= 75%), which also indicate preferences in the use of codons with A or T in third positions. In closely related entities, there is only a weak transversion bias (A+T). In the studied regions in EF 1-α, no nucleotide bias is observed. The observed differences in bases between the investigated taxa are relatively small and the gene is too conserved to solve all the questions that the analyses of the deeper nodes using mtCO-I raise.

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Molecular phylogenetic analyses and morphological variation point to taxonomic problems among four genera of parasitoid doryctine wasps (Hymenoptera : Braconidae)

Invertebrate Systematics ◽

10.1071/is14064 ◽

2015 ◽

Vol 29 (6) ◽

pp. 591 ◽

Cited By ~ 4

Author(s):

Marco Gebiola ◽

Antonio P. Garonna ◽

Umberto Bernardo ◽

Sergey A. Belokobylskij

Keyword(s):

Phylogenetic Analyses ◽

Morphological Characters ◽

Molecular Data ◽

Molecular Evidence ◽

A Posteriori ◽

Morphological Examination ◽

Ongoing Effort ◽

The Status ◽

Molecular Phylogenetic

Doryctinae (Hymenoptera : Braconidae) is a large and diverse subfamily of parasitic wasps that has received much attention recently, with new species and genera described and phylogenies based on morphological and/or molecular data that have improved higher-level classification and species delimitation. However, the status of several genera is still unresolved, if not controversial. Here we focus on two related groups of such genera, Dendrosoter Wesmael–Caenopachys Foerster and Ecphylus Foerster–Sycosoter Picard & Lichtenstein. We integrated morphological and molecular (COI and 28S–D2 genes) evidence to highlight, by phylogenetic analyses (maximum likelihood and Bayesian) and a posteriori morphological examination, previously overlooked variation, which is here illustrated and discussed. Monophyly of Dendrosoter and Caenopachys and the presence of synapomorphic morphological characters support synonymy of Caenopachys under Dendrosoter. Low genetic differentiation and high variability for putatively diagnostic morphological characters found in both C. hartigii (Ratzeburg) and C. caenopachoides (Ruschka) supports synonymy of D. caenopachoides under D. hartigii, syn. nov. Morphological and molecular evidence together also indicate independent generic status for Sycosoter, stat. rev., which is here resurrected. This work represents a further advancement in the framework of the ongoing effort to improve systematics and classification of the subfamily Doryctinae.

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Phylogeography of the New Zealand whelks Cominella maculosa and C. virgata

10.26686/wgtn.17064731.v1 ◽

2021 ◽

Author(s):

◽

Kerry Walton

Keyword(s):

New Zealand ◽

Dna Sequences ◽

High Frequency ◽

Phylogenetic Analyses ◽

Mitochondrial Gene ◽

Nuclear Gene ◽

Disjunct Distribution ◽

Phylogeographic Structure ◽

Interglacial Period ◽

Cook Strait

<p>Cominella maculosa and C. virgata are common rocky shore whelk species from New Zealand. This study used DNA sequences from the mitochondrial gene cytochrome c oxidase subunit 1 (CO1) to expand an earlier unpublished dataset and examine the phylogeographic structure of both species in the Cook Strait region, of C. maculosa in the Chatham Islands, and of C. virgata in the northern North Island. Both species are found to have a considerable degree of phylogeographic structure, concordant with that reported by an earlier study and for other species with direct development. South Island sites sampled for C. maculosa had several private haplotypes and a high frequency haplotype that is shared with populations from the southern North Island. Together, these formed a ‘southern haplogroup’. Low diversity in ‘southern’ populations may reflect founder effects that would have occurred as part of a southward range expansion during the onset of the present interglacial period. The Chatham Islands samples had two haplotypes that formed a separate sub-group to the ‘southern haplogroup’, suggesting Chatham Islands populations are moderately isolated from those on mainland New Zealand but may have been founded from ‘southern’ populations relatively recently. The high frequency haplotype present in South Island samples of C. virgata is absent in Wellington samples but widespread in those from the north-eastern North Island. South Island populations may have been founded from the Hauraki Gulf through human-mediated translocation events. Phylogenetic analyses with a focus on C. virgata were conducted using the mitochondrial genes CO1 and 16SrRNA, and the nuclear gene 18S rRNA, to expand an earlier published dataset. The purported northern subspecies C. virgata brookesi does not form a monophyletic lineage and voucher specimens fluidly intergrade with the nominal subspecies, with which it is synonymised. A lectotype is designated for Buccinum lineolatum Quoy & Gaimard, 1833, for which Cominella virgata is a replacement name. Potential causes of the disjunct distribution patterns of C. virgata and other mollusc taxa are discussed with particular reference to the formation and timing of marine straits through the Auckland Isthmus and Cook Strait.</p>

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A review of Euryoryzomys legatus (Rodentia, Sigmodontinae): morphological redescription, cytogenetics, and molecular phylogeny

PeerJ ◽

10.7717/peerj.9884 ◽

2020 ◽

Vol 8 ◽

pp. e9884

Author(s):

Mariana D. Guilardi ◽

Pablo Jayat ◽

Marcelo Weksler ◽

James L. Patton ◽

Pablo Edmundo Ortiz ◽

...

Keyword(s):

Phylogenetic Analyses ◽

Phylogenetic Reconstruction ◽

Chromosome Complement ◽

Integrated Approach ◽

Morphological Characters ◽

Valid Species ◽

Data Types ◽

Comparative Cytogenetics ◽

Morphometric Characters ◽

The Status

The taxonomic history of Euryoryzomys legatus has been complex and controversial, being either included in the synonymy of other oryzomyine species or considered as a valid species, as in the most recent review of the genus. Previous phylogenetic analyses segregated E. legatus from E. russatus, its putative senior synonym, but recovered it nested within E. nitidus. A general lack of authoritative evaluation of morphological attributes, details of the chromosome complement, or other data types has hampered the ability to choose among alternative taxonomic hypotheses, and thus reach a general consensus for the status of the taxon. Herein we revisit the status of E. legatus using an integrated approach that includes: (1) a morphological review, especially centered on specimens from northwestern Argentina not examined previously, (2) comparative cytogenetics, and (3) phylogenetic reconstruction, using mitochondrial genes. Euryoryzomys legatus is morphologically and phylogenetically distinct from all other species-level taxa in the genus, but its 2n=80, FN=86 karyotype is shared with E. emmonsae, E. nitidus, and E. russatus. Several morphological and morphometric characters distinguish E. legatus from other species of Euryoryzomys, and we provide an amended diagnosis for the species. Morphological characters useful in distinguishing E. legatus from E. nitidus, its sister taxon following molecular analyses, include: larger overall size, dorsal fur with a strong yellowish brown to orange brown tinge, flanks and cheeks with an orange lateral line, ventral color grayish-white with pure white hairs present only on the chin, presence of a thin blackish eye-ring, tail bicolored, presence of an alisphenoid strut and a well-developed temporal and lambdoid crests in the skull, and a labial cingulum on M3. Molecular phylogenetic analyses recovered E. legatus as a monophyletic group with high support nested within a paraphyletic E. nitidus; genetic distances segregated members of both species, except for an exemplar of E. nitidus. Our integrated analyses reinforce E. legatus as a full species, but highlight that E. macconnelli, E. emmonsae, and E. nitidus each may be a species complex and worthy of systematic attention. Finally, we also evaluated the chromosome evolution of the genus within a phylogenetic context.

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Phylogeography of the New Zealand whelks Cominella maculosa and C. virgata

10.26686/wgtn.17064731 ◽

2021 ◽

Author(s):

◽

Kerry Walton

Keyword(s):

New Zealand ◽

Dna Sequences ◽

High Frequency ◽

Phylogenetic Analyses ◽

Mitochondrial Gene ◽

Nuclear Gene ◽

Disjunct Distribution ◽

Phylogeographic Structure ◽

Interglacial Period ◽

Cook Strait

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A new amphibious species of the genus Scolopendra Linnaeus, 1758 (Scolopendromorpha, Scolopendridae) from the Ryukyu Archipelago and Taiwan

Zootaxa ◽

10.11646/zootaxa.4952.3.3 ◽

2021 ◽

Vol 4952 (3) ◽

pp. 465-494

Author(s):

SHO TSUKAMOTO ◽

SHIMPEI F. HIRUTA ◽

KATSUYUKI EGUCHI ◽

JHIH-RONG LIAO ◽

SATOSHI SHIMANO

Keyword(s):

Phylogenetic Analyses ◽

Rrna Genes ◽

Valid Species ◽

28S Rrna ◽

Ryukyu Archipelago ◽

Morphological Examination ◽

Mitochondrial Coi ◽

Molecular Phylogenetic ◽

East And Southeast Asia ◽

18S Rrna Genes

In Japan and Taiwan, five valid species of the genus Scolopendra Linnaeus, 1758 have been described: S. morsitans Linnaeus, 1758, S. subspinipes Leach, 1816, S. mutilans Koch, 1878, S. japonica Koch, 1878, and S. multidens Newport, 1844. Recently, an undetermined species was found in the Ryukyu Archipelago and Taiwan. Using molecular phylogenetic analyses with mitochondrial COI and 16S rRNA and nuclear 28S rRNA and 18S rRNA genes as well as conventional morphological examination, we successfully discriminated this sixth species as an independent lineage from S. subspinipes, S. mutilans, and other named congeners from East and Southeast Asia. Therefore, the species was described as S. alcyona Tsukamoto & Shimano, sp. nov. Several situational evidences suggest that this species prefers streamside environments and exhibits amphibious behavior.

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Rejection of the monotypic status of Peromyscus furvus (Rodentia: Cricetidae), with consequences for its species group

Therya ◽

10.12933/therya-21-1122 ◽

2021 ◽

Vol 12 (2) ◽

pp. 347-367

Author(s):

Alejandro Cruz-Gómez ◽

A. Alondra Castro Campillo ◽

Zamira A. Ávila-Valle ◽

Livia León-Paniagua ◽

Marcia Ramírez-Sánchez ◽

...

Keyword(s):

Phylogenetic Analyses ◽

Mitochondrial Gene ◽

Species Group ◽

Probabilistic Methods ◽

Valid Species ◽

Single Type ◽

Morphometric Characters ◽

Size And Shape ◽

Skull Size ◽

Haplotype Networks

Previous studies using Cytochrome-b or ND3-ND4 mitochondrial gene have yielded intriguing evidence about the phylogenetic relationships among populations of Peromyscus furvus; however, those studies each based on phylogenies for a single type of genes, yielded conflicting topologies. In addition, analyses with traditional morphometrics have revealed differences in skull size among certain populations of the species. Therefore, in order to reassess the systematic and taxonomic status of P. furvus, we incorporated a suite of genetic and morphometric characters and employed cladistic analyses. Herein, we present results mostly derived from our genetic analyses (results from the phylogenetic examination of skull size and shape will appear later). Phylogenetic analyses were conducted using four mitochondrial genes (Cytb and ND3-ND4L-ND4) with the respective data analyzed separately or combined, followed by an analysis with genetic and morphometric data (size and shape characters). Most phylogenetic constructions were made with parsimonious methods, but probabilistic methods also were used in the analyses with the genes separated by type. Similar topologies were recovered from all analyses of the Cytb gene and from all parsimony analyses of the NADH genes; however, conflicting topologies were obtained with the probabilistic methods for the NADH genes. Additionally, to better understand the genetic variation in each type of gene, analyses for genetic divergence were conducted within and among genetic groups and haplotype networks were constructed. All the topologies obtained using genetic data questioned the monotypic status of P. furvus, as two additional clades were identified that seemingly correspond to unrecognized entities. The first of these, P. latirostris, occurs in the northern region and could be considered as either a species or subspecies. An unknown Peromyscus species nova that occurs to the south is considered as a valid species. Further, P. furvus s. s. becomes a polytypic species by recognizing at least two subspecies (P. f. angustirostris and P. f. furvus). Phylogenetic analyses also rejected membership of P. melanocarpus and P. ochraventer within the furvus species group. Instead, P. melanocarpus showed a greater affinity to P. mexicanus totontepecus, whereas, P. ochraventer either joined to the clade containing P. melanocarpus and P. m. tototepecus or to Megadontomys cryophilus in a sister clade. Finally, Osgoodomys banderanus (subgenus Haplomylomys) always remained basally positioned and segregated from all members of the subgenus Peromyscus.

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