New concepts and methods for phylogenetic taxonomy and nomenclature in zoology, exemplified by a new ranked cladonomy of recent amphibians (Lissamphibia): corrigenda and addenda

Just after the publication of our paper (Dubois et al. 2021), we discovered that, in Table 1, pages 443 and 444 are identical, and the actual page 443 is missing. We here provide this page, and we took this opportunity to correct a few other errors in this paper. We provide below corrections only in the case of misspellings or other errors that may induce misunderstandings of our text, not for pure format problems (concerning punctuation, parentheses, italics, bold and capital letters), which do not impede understanding of our text.

New concepts and methods for phylogenetic taxonomy and nomenclature in zoology, exemplified by a new ranked cladonomy of recent amphibians (Lissamphibia)

Although currently most taxonomists claim to adhere to the concept of ‘phylogenetic taxonomy’, in fact most of the zoological classifications currently published are only in part ‘phylogenetic’ but include also phenetic or gradist approaches, in their arbitrary choices of the nodes formally recognised as taxa and in their attribution of ranks to these taxa. We here propose a new approach to ‘phylogenetic taxonomy and nomenclature’, exemplified by a phylogenetic classification or cladonomy of the extant amphibians (subclass Lissamphibia of the class Amphibia) derived from a supermatrix-based phylogenetic analysis using 4060 amphibian species, i.e. about half of the 8235 species recognised on 31 October 2020. These taxa were represented by a mean of 3029 bp (range: 197–13849 bp) of DNA sequence data from a mean of 4 genes (range: 1‒15). The cladistic tree thus generated was transferred into a classification according to a new taxonomic and nomenclatural methodology presented here, which allows a bijective or isomorphic relationship between the phylogenetic hypothesis and the classification through a rigorous use of suprageneric ranks, in which their hierarchy mirrors the structure of the tree. Our methodology differs from all previous ones in several particulars: [1] whereas the current International Code of Zoological Nomenclature uses only three ‘groups of names’ (species, genus and family), we recognise four nominal-series (species, genus, family and class); [2] we strictly follow the Code for the establishment of the valid nomen (scientific name) of taxa in the three lower nominal-series (however, in a few situations, we suggest improvements to the current Rules of the Code); [3] we provide precise and unambiguous Criteria for the assignment of suprageneric nomina to either the family- or the class-series, excluding nomina proposed expressly under unranked or pseudoranked nomenclatural systems; [4] in the class-series, for which the Code provides only incomplete Rules concerning availability, we provide precise, complete and unambiguous Criteria for the nomenclatural availability, taxonomic allocation and nomenclatural validity and correctness of nomina; [5] we stress the fact that nomenclatural ranks do not have biological definitions or meanings and that they should never be used in an ‘absolute’ way (e.g., to express degrees of genetic or phenetic divergence between taxa or hypothesised ages of cladogeneses) but in a ‘relative’ way: two taxa which are considered phylogenetically as sister-taxa should always be attributed to the same nomenclatural rank, but taxa bearing the same rank in different ‘clades’ are by no means ‘equivalent’, as the number of ranks depends largely on the number of terminal taxa (species) and on the degree of phylogenetic resolution of the tree; [6] because of this lack of ‘equivalence’, some arbitrary criteria are necessary to fix a starting point for assigning a given suprageneric rank to some taxa, from which the ranks of all other taxa will automatically derive through a simple implementation of the hierarchy of ranks: for this purpose we chose the rank family and we propose a ‘Ten Criteria Procedure’ allowing to fix the position of this rank in any zoological classification. As a result of the implementation of this set of Criteria, we obtained a new ranked classification of extant lissamphibians using 25 suprageneric ranks below the rank class (11 class-series and 14 family-series ranks), and including 34 class-series and 573 family-series taxa, and where the 575 genera we recognise are referred to 69 families and 87 subfamilies. We provide new nomina and diagnoses for 10 class-series taxa, 171 family-series taxa, 14 genus-series taxa and 1 species. As many new species of amphibians are permanently described, this classification and its nomenclature will certainly have to change many times in the future but, using the clear, explicit, complete, automatic and unambiguous methodology presented here, these changes will be easy to implement, and will not depend on subjective and arbitrary choices as it has too often been the case in the last decades. We suggest that applying this methodology in other zoological groups would improve considerably the homogeneity, clarity and usefulness of zoological taxonomy and nomenclature.

Using ITS-rDNA and matK gene nucleotide sequences for identification ginseng species in Panax in Phu Xai Lai Leng, Ky Son, Nghe An

DNA barcoding is a useful tool for species identification using standardized genomic DNA fragments. We used DNA barcodes (ITS-rDNA and matK gene) to explore Panax (32 samples collected from Phu Xai Lai Leng mountain and 19 samples collected from medicinal nursery of TH), and to investigate the phylogenetic taxonomy of Panax. In this study, the PCR success rate for ITS-rDNA and matK region was 100%. The success rate of bidirectional sequencing of PCR product was 100% of ITS-rDNA and matK region with length of 616 bp, 1433 bp, respectively. All 32 samples (Panax TB) of Phu Xai Lai Leng have a close relationship with P. stipuleanatus (MLBS = 99%, BPP = 100%). All 19 samples (Panax TH) of medicinal nursery have a close relationship with P. notoginseng (MLBS = 100%, BPP = 100%). Interspecific genetic distances within and among Panax species was varied from 0.2% to 7.9%, average (4%) (ITS-rDNA gene) and 0.1 to 2.9%, average (1.2%) (matK gene). The genetic relationship of species/gender belonging to the Panax genus showed that they have the same evolutionary origin and discovered that new distributed of P. stipuleanatus in Phu Xai Lai Leng mountain in Vietnam.

Isolation and identification of halophilic and halotolerant bacteria from the sediments of the Qeshm Island mangrove forest

Due to specific environmental and ecological conditions, mangrove forests are known as marine transitional zones between sea and land, and, as such, they host organisms with high ecological plasticity. The mangrove forests of Qeshm Island (Iran) are relatively pristine habitats and represent an ideal target for investigating patterns of either aquatic or benthic biodiversity. To provide insights on microbial diversity in this area, nineteen halophilic and halotolerant bacteria were isolated from the sediments in 2017 during low tide. The extracted bacterial strains were studied morphologically by streaking, initial observation of colonies and bacterial staining, and characterized using a battery of biochemical tests including KOH, MR, VP, urease, TSI, S/I/M, Mac, LIA, ODC, ADH, oxidase, catalase, and tryptophan deaminase. The optimum growth of halophilic bacteria was observed in salt concentrations from 5 to 20% NaCl, whereas the extreme halophilic Gram-positive strain grew in salt concentration of up to 30% NaCl. Molecular analyses were also carried out on four halophilic strains and one extreme halophilic gram-positive bacteria. Phylogenetic taxonomy analysis, after 16S rDNA gene Sanger sequencing, revealed that the halophilic bacteria were closely related to the strain types of the genus Bacillus including Bacillus licheniformis, Bacillus velezensis, Bacillus Paralicheniformis and Bacillus sp. with 99% bootstrap value. The extreme halophilic strain was associated to strains of Planococcus plakortidis with 100% bootstrap value.

Diversity, Co-occurrence and Implications of Fungal Communities in Wastewater Treatment Plants

Three wastewater treatment plants (WWTPs) located in Gauteng province in South Africa were investigated to determine the diversity, co-occurrence and implications of their fungal communities using illumina sequencing platform and network analysis. Phylogenetic taxonomy revealed that members of the fungal communities were assigned to 6 phyla and 361 genera. Basidiomycota and Ascomycota were the most abundant phyla, dominated by the genera Naumovozyma, Pseudotomentella, Derxomyces, Ophiocordyceps, Pulchromyces and Paecilomyces. Phylogenetic analysis revealed the existence of fungal OTUs related to class lineages such as Agaricomycetes, Eurotiomycetes and Sordariomycetes indicating new fungal diversity in WWTPs. Dominant and rare fungal genera that can potentially be used in bioremediation such as Trichoderma, Acremonium, Talaromyces, Paecilomyces, cladophialophora and Saccharomyces were detected. Conversely, genera whose members are known to be pathogenic to human and plant such as Olpidium, Paecilomyces, Aspergillus, Rhodotorula, Penicillium, Candida, Synchytrium, Phyllosticta and Mucor were also detected in all WWTPs. Phylotype analysis confirmed that some fungal phylotypes were highly similar to the reported fungal pathogens of concern. Co-occurrence network analysis revealed that the fungal genera such as Minimedusa, Glomus, Circinella, Coltricia, Caloplaca, Phylosticta, Peziza, Candida, and Hydnobolites were the major networking hub in the WWTPs. The overall results in this study highlighted that WWTPs represent a potential source of beneficial fungi for bioremediation of pollutants in the ecosystem and the need to consider human and plant fungal pathogens during safety evaluation of treated wastewater for reuse.

Genotype Diversity of Newcastle Disease Virus in Nigeria: Disease Control Challenges and Future Outlook

Newcastle disease (ND) is one of the most important avian diseases with considerable threat to the productivity of poultry all over the world. The disease is associated with severe respiratory, gastrointestinal, and neurological lesions in chicken leading to high mortality and several other production related losses. The aetiology of the disease is an avian paramyxovirus type-1 or Newcastle disease virus (NDV), whose isolates are serologically grouped into a single serotype but genetically classified into a total of 19 genotypes, owing to the continuous emergence and evolution of the virus. In Nigeria, molecular characterization of NDV is generally very scanty and majorly focuses on the amplification of the partial F gene for genotype assignment. However, with the introduction of the most objective NDV genotyping criteria which utilize complete fusion protein coding sequences in phylogenetic taxonomy, the enormous genetic diversity of the virus in Nigeria became very conspicuous. In this review, we examine the current ecological distribution of various NDV genotypes in Nigeria based on the available complete fusion protein nucleotide sequences (1662 bp) in the NCBI database. We then discuss the challenges of ND control as a result of the wide genetic distance between the currently circulating NDV isolates and the commonest vaccines used to combat the disease in the country. Finally, we suggest future directions in the war against the economically devastating ND in Nigeria.

A phylogenetic taxonomy of the Cyrtodactylus peguensis group (Reptilia: Squamata: Gekkonidae) with descriptions of two new species from Myanmar

A phylogenetic taxonomy of species in the Cyrtodactylus peguensis group from the Ayeyarwady Basin of Myanmar is constructed based on color pattern, morphology, and molecular systematic analyses using the mitochondrial gene NADH dehydrogenase subunit 2. Newly collected samples from the type locality of C. peguensis and other localities indicate that this clade is endemic to central Myanmar and contains at least seven species, four of which are undescribed. Three species, including C. peguensis occur in the low hills of the Bago Yoma Range within the central portion of the Ayeyarwady Basin. Two of these, C. myintkyawthurai sp. nov. from the northern and central Bago Yoma and C. meersi sp. nov. which is syntopic with C. peguensis in the southern Bago Yoma are described herein. As more lowland hilly areas bordering, and within the Ayeyarwady Basin are surveyed, more new species of this group are likely to be discovered. These discoveries continue the recent surge of descriptions of new species of Cyrtodactylus that are being discovered in Myanmar.