An official website of the United States government
Abstract The ‘tooth-tailed’ scorpions of the buthid genus Odontobuthus comprises six species with an allopatric or parapatric pattern of distribution in the Middle East, but the diversity of Odontobuthus in Iran appears to be underestimated, with the limits of several species remaining unclear. In the present contribution, an integrative approach to the systematics of Odontobuthus was applied, to determine the taxonomic validity and phylogenetic relationships among its species. Statistical analyses of five meristic characters, 38 morphometric characters and 21 morphometric ratios, combined with molecular phylogenetic analyses of DNA sequences from the mitochondrial cytochrome c oxidase subunit I (COI) gene, were conducted. All previously described species of Odontobuthus were found to be well supported, and new morphological diagnoses are here presented. Additionally, three new species: Odontobuthus baluchicus sp. nov. from the Makkoran Mountains, Odontobuthus chabaharensis sp. nov. from the coast of the Gulf of Oman (Sistan and Baluchistan Provinces) and Odontobuthus kermanus sp. nov. from Kerman Province, are described, raising the total number of Odontobuthus species to nine, six of which are endemic or subendemic to the Iranian Plateau. A distribution map and identification key to the species of Odontobuthus are also provided.
more »
« less
Phylogenetic position of the Amazonian nurse frog Allobates gasconi (Morales 2002) revealed by topotypical data
Taxonomic uncertainty at the species level compromises our knowledge of biodiversity, conservation, and systematics. The impact of such uncertainty is heightened in megadiverse regions such as Amazonia due to high levels of cryptic diversity. We used integrative taxonomy based on newly collected topotypical specimens to redescribe the Amazonian nurse frog Allobates gasconi and infer its phylogenetic relationships. This species was described in 2002 based solely on morphology, but several characters crucial for the reliable diagnosis of species in Allobates were not considered. Our results show that A. gasconi sensu stricto is not a member of the A. caeruleodactylus clade as previously claimed, but is a member of the A. trilineatus clade. Allobates gasconi is readily distinguished from congeners by a combination of morphological and bio- acoustic characters; a revised diagnosis is provided. The type series of A. gasconi comprises more than one species, and we exclude a paratype from lower Juruá River. The species is restricted geographically to flooded environments in the middle and upper Juruá River in Brazil and in the Ucayali River in Peru. The initial misidentification, subsequent absence of topotypic molecular and acoustic data, and the poor preservation condition of the type series have contributed to taxonomic confusion since A. gasconi was first described. The descriptions of other species of Allobates published more than two decades ago were based mainly on gross morphology, and we recommend integrative taxonomic revisions to elucidate their systematics.
more »
« less
- Award ID(s):
- 2122620
- PAR ID:
- 10630029
- Publisher / Repository:
- Springer Nature
- Date Published:
- Journal Name:
- Organisms Diversity & Evolution
- Volume:
- 24
- ISSN:
- 1439-6092
- Page Range / eLocation ID:
- 99 to 118
- Subject(s) / Keyword(s):
- Bioacoustics Integrative taxonomy Juruá River Morphology Tadpoles Várzea
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
More Like this
-
-
The echinoid genus Tetrapygus was initially described by L. Agassiz (1841) based on a single species, Tetrapygus niger Molina, 1782. Since the extensive work conducted by Mortensen (1935), Tetrapygus has received limited taxonomic attention over the past century. Recent discoveries of new fossil species of Arbacia Gray, 1835 from the upper Pliocene of northern Chile revealed striking morphological similarities between the two distinct Arbaciidae genera Arbacia and Tetrapygus. These findings compelled new investigations to evaluate the taxonomic status of these genera. Based on molecular mitochondrial (COI), nuclear (28S), and morphological evidence, Tetrapygus niger is here recovered as the sister species to Arbacia dufresnii, both species forming a clade within the phylogeny of South American species of Arbacia. Consequently, the diagnosis and description of Tetrapygus niger are here revised, and the species is reattributed to Arbacia, as previously proposed by A. Agassiz in Agassiz & Desor (1846) under the species name Arbacia nigra. An emended diagnosis of Arbacia is also proposed in light of these new findings.more » « less
-
Bond, Jason (Ed.)Abstract Morphology has long been used to classify and identify living organisms. However, taxonomic descriptions are often limited to qualitative descriptions of size and shape, making identification difficult due to the subjective language used to describe complex shapes. Additionally, for some taxa, there are few reliable qualitative characters available for delimitation that have yet to be tested objectively in a phylogenetic context. Solifugae is one such example. The order, Solifugae, is recognized from the other arachnid orders by the possession of large, powerful jaws or chelicerae. Male cheliceral morphology is the leading diagnostic character system in solifuge systematics and is the basis for much of solifuge current taxonomy. Female chelicerae, on the other hand, are reportedly deeply conserved and much of the species identification is based on female operculum morphology. To elucidate patterns of chelicerae and opercula trait evolution within the solifuge family, Eremobatidae, we used a 2-dimenstional morphological analysis using an Elliptical Fourier approach for closed outlines, in addition to an analysis of traditionally used measures in a phylogenetic context. Using ancestral state reconstruction and ultra-conserved elements, we assessed the taxonomic utility of female cheliceral and opercular morphology, and we evaluated which male morphological characters reflect shared, derived ancestry. Investigation into ubiquitously used character sets, in addition to newly proposed characters herein, illustrates the complex evolution of traits with high levels of convergence. Our results provide taxonomic insight into future, higher level taxonomic revisions of Eremobatidae.more » « less
-
null (Ed.)The fungus-growing ant Mycetomoellerius (previously Trachymyrmex ) zeteki (Weber 1940) has been the focus of a wide range of studies examining symbiotic partners, garden pathogens, mating frequencies, and genomics. This is in part due to the ease of collecting colonies from creek embankments and its high abundance in the Panama Canal region. The original description was based on samples collected on Barro Colorado Island (BCI), Panama. However, most subsequent studies have sampled populations on the mainland 15 km southeast of BCI. Herein we show that two sibling ant species live in sympatry on the mainland: Mycetomoellerius mikromelanos Cardenas, Schultz, & Adams and M . zeteki . This distinction was originally based on behavioral differences of workers in the field and on queen morphology ( M . mikromelanos workers and queens are smaller and black while those of M. zeteki are larger and red). Authors frequently refer to either species as “ M . cf. zeteki ,” indicating uncertainty about identity. We used an integrative taxonomic approach to resolve this, examining worker behavior, chemical profiles of worker volatiles, molecular markers, and morphology of all castes. For the latter, we used conventional taxonomic indicators from nine measurements, six extrapolated indices, and morphological characters. We document a new observation of a Diapriinae (Hymenoptera: Diapriidae) parasitoid wasp parasitizing M . zeteki . Finally, we discuss the importance of vouchering in dependable, accessible museum collections and provide a table of previously published papers to clarify the usage of the name T . zeteki . We found that most reports of M . zeteki or M . cf. zeteki —including a genome—actually refer to the new species M . mikromelanos .more » « less
-
Abstract Ranges of tardigrade intraspecific and interspecific variability are not precisely defined, both in terms of morphology and genetics, rendering descriptions of new taxa a cumbersome task. This contribution enhances the morphological and molecular dataset available for the heterotardigrade genusViridiscusby supplying new information on Southern Nearctic populations ofV.perviridis,V.viridianus, and a new species from Tennessee. We demonstrate that, putting aside already well-documented cases of significant variability in chaetotaxy, the dorsal plate sculpturing and other useful diagnostic characters, such as morphology of clavae and pedal platelets, may also be more phenotypically plastic characters at the species level than previously assumed. As a result of our integrative analyses,V.viridianusis redescribed,V.celatussp. nov. described, andV.clavispinosusdesignated asnomeninquirendum, and its junior synonymy with regard toV.viridianussuggested. Morphs of threeViridiscusspecies (V.perviridis,V.viridianus, andV.viridissimus) are depicted, and the implications for general echiniscid taxonomy are drawn. We emphasise that taxonomic conclusions reached solely through morphological or molecular analyses lead to a distorted view on tardigrade α-diversity.more » « less
- Free Publicly Accessible Full Text
-
Accepted Manuscript1.0
- Journal Article:
- https://doi.org/10.1007/s13127-023-00630-x
