Your search keyword '"Steinke D"' showing total 12 results

1. Improving the conservation of Mediterranean Chondrichthyans : the ELASMOMED DNA barcode reference library

Author

Alessandro Cau, Fabrizio Serena, Rita Cannas, Omar Kada, Marco Arculeo, Germana Garofalo, Fabio Fiorentino, Sabrina Lo Brutto, Leanne Bonnici, Farid Hemida, Daniel Golani, Alice Ferrari, Fausto Tinti, Marco Stagioni, Robert Hanner, Letizia Sion, Cecilia Mancusi, Silvia Messinetti, Charis Charilaou, Alessia Cariani, Ilaria Guarniero, Maria Cristina Follesa, Patrick J. Schembri, Angelo Tursi, Juan José Bonello, Pierluigi Carbonara, Najib El Ouamari, Gabriel Morey, Dirk Steinke, Nedo Vrgoč, Cariani, Alessia, Messinetti, Silvia, Ferrari, Alice, Arculeo, Marco, Bonello, Juan J., Bonnici, Leanne, Cannas, Rita, Carbonara, Pierluigi, Cau, Alessandro, Charilaou, Chari, El Ouamari, Najib, Fiorentino, Fabio, Follesa, Maria Cristina, Garofalo, Germana, Golani, Daniel, Guarniero, Ilaria, Hanner, Robert, Hemida, Farid, Kada, Omar, Lo Brutto, Sabrina, Mancusi, Cecilia, Morey, Gabriel, Schembri, Patrick J., Serena, Fabrizio, Sion, Letizia, Stagioni, Marco, Tursi, Angelo, Vrgoc, Nedo, Steinke, Dirk, Tinti, Fausto, Cariani, A, Messinetti S, Ferrari, A, Arculeo, M, Bonello, JJ, Bonnici, L, Cannas, R, Carbonara, P, Cau, A, Charilaou,C, El Ouamari, N, Fiorentino, F, Follesa, MC, Garofalo, G, Golani, D, Guarniero, I, Hanner, R, Hemida, F, Kada, O, Lo Brutto, S, Mancusi, C, Morey, G, Schembri, PJ, Serena, F, Sion, L, Stagioni, M, Tursi, A, Vrgoc, N, Steinke, D, and Tinti, F

Subjects

0106 biological sciences, Heredity, Molecular biology, Speciation, Biodiversity, Settore BIO/05 - Zoologia, lcsh:Medicine, Juvenile, Evolutionary biology, Barcode, Biochemistry, 01 natural sciences, DNA barcoding, law.invention, law, DNA libraries, lcsh:Science, Chondrichthyes, Specimens Identification, Data Management, Molecular systematics, Multidisciplinary, Geography, Mediterranean Region, Ecology, Cryptic speciation, Fishes, Morphological stasi, Mitochondrial DNA, Nucleic acids, Genetic Mapping, Phylogeography, Biogeography, DNA Barcode Reference Library, DNA barcoding, Taxonomic, Vertebrates, DNA data banks, Research Article, Computer and Information Sciences, Conservation of Natural Resources, Evolutionary Processes, Evolutionary systematics, Barcoding, Chondrichthyans, Conservation, Mediterranean Sea, mtDNA, Cartilaginous fish, Conservation, Biology, Phylogeographic structure, 010603 evolutionary biology, Molecular taxonomy, Species Specificity, Endemic Species, Genetics, Mediterranean Sea, Animals, DNA Barcoding, Taxonomic, 14. Life underwater, Endemism, Taxonomy, Population Biology, 010604 marine biology & hydrobiology, lcsh:R, Ecology and Environmental Sciences, Organisms, Biology and Life Sciences, DNA, Research and analysis methods, Molecular biology techniques, Taxon, Haplotypes, Threatened species, Earth Sciences, Sharks, Conservation status, lcsh:Q, Population Genetics, Marine biodiversity conservation, Elasmobranchii

Abstract

Cartilaginous fish are particularly vulnerable to anthropogenic stressors and environmental change because of their K-selected reproductive strategy. Accurate data from scientific surveys and landings are essential to assess conservation status and to develop robust protection and management plans. Currently available data are often incomplete or incorrect as a result of inaccurate species identifications, due to a high level of morphological stasis, especially among closely related taxa. Moreover, several diagnostic characters clearly visible in adult specimens are less evident in juveniles. Here we present results generated by the ELASMOMED Consortium, a regional network aiming to sample and DNA-barcode the Mediterranean Chondrichthyans with the ultimate goal to provide a comprehensive DNA barcode reference library. This library will support and improve the molecular taxonomy of this group and the effectiveness of management and conservation measures. We successfully barcoded 882 individuals belonging to 42 species (17 sharks, 24 batoids and one chimaera), including four endemic and several threatened ones. Morphological misidentifications were found across most orders, further confirming the need for a comprehensive DNA barcoding library as a valuable tool for the reliable identification of specimens in support of taxonomist who are reviewing current identification keys. Despite low intraspecific variation among their barcode sequences and reduced samples size, five species showed preliminary evidence of phylogeographic structure. Overall, the ELASMOMED initiative further emphasizes the key role accurate DNA barcoding libraries play in establishing reliable diagnostic species specific features in otherwise taxonomically problematic groups for biodiversity management and conservation actions., peer-reviewed

Published

2017

2. When too much isn't enough: Does current food production meet global nutritional needs?

Author

Kc KB, Dias GM, Veeramani A, Swanton CJ, Fraser D, Steinke D, Lee E, Wittman H, Farber JM, Dunfield K, McCann K, Anand M, Campbell M, Rooney N, Raine NE, Acker RV, Hanner R, Pascoal S, Sharif S, Benton TG, and Fraser EDG

Subjects

Agriculture methods, Conservation of Natural Resources, Greenhouse Gases adverse effects, Humans, Sustainable Development, Agriculture statistics & numerical data, Crops, Agricultural supply & distribution, Feeding Behavior physiology, Food Supply statistics & numerical data, Nutritional Requirements physiology, Population Growth

Abstract

Sustainably feeding the next generation is often described as one of the most pressing "grand challenges" facing the 21st century. Generally, scholars propose addressing this problem by increasing agricultural production, investing in technology to boost yields, changing diets, or reducing food waste. In this paper, we explore whether global food production is nutritionally balanced by comparing the diet that nutritionists recommend versus global agricultural production statistics. Results show that the global agricultural system currently overproduces grains, fats, and sugars while production of fruits and vegetables and protein is not sufficient to meet the nutritional needs of the current population. Correcting this imbalance could reduce the amount of arable land used by agriculture by 51 million ha globally but would increase total land used for agriculture by 407 million ha and increase greenhouse gas emissions. For a growing population, our calculations suggest that the only way to eat a nutritionally balanced diet, save land and reduce greenhouse gas emissions is to consume and produce more fruits and vegetables as well as transition to diets higher in plant-based protein. Such a move will help protect habitats and help meet the Sustainable Development Goals., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

3. The School Malaise Trap Program: Coupling educational outreach with scientific discovery.

Author

Steinke D, Breton V, Berzitis E, and Hebert PDN

Subjects

Adolescent, Animals, Canada, Child, DNA Barcoding, Taxonomic veterinary, Genomics trends, Humans, Insecta classification, Insecta growth & development, Insecta physiology, Teaching trends, Workforce, Biodiversity, Community-Institutional Relations trends, Genomics education, Insecta genetics, Schools trends

Abstract

The School Malaise Trap Program (SMTP) provides a technologically sophisticated and scientifically relevant educational experience that exposes students to the diversity of life, enhancing their understanding of biodiversity while promoting environmental stewardship. Since 2013, the SMTP has allowed 15,000 students at 350 primary and secondary schools to explore insect diversity in Canadian schoolyards. Students at each school collected hundreds of insects for an analysis of DNA sequence variation that enabled their rapid identification to a species. Through this hands-on approach, they participated in a learning exercise that conveys a real sense of scientific discovery. As well, the students contributed valuable data to the largest biodiversity genomics initiative ever undertaken: the International Barcode of Life project. To date, the SMTP has sequenced over 80,000 insect specimens, which includes representatives of 7,990 different species, nearly a tenth of the Canadian fauna. Both surprisingly and importantly, the collections generated the first DNA barcode records for 1,288 Canadian species.

Published

2017

4. Improving the Conservation of Mediterranean Chondrichthyans: The ELASMOMED DNA Barcode Reference Library.

Author

Cariani A, Messinetti S, Ferrari A, Arculeo M, Bonello JJ, Bonnici L, Cannas R, Carbonara P, Cau A, Charilaou C, El Ouamari N, Fiorentino F, Follesa MC, Garofalo G, Golani D, Guarniero I, Hanner R, Hemida F, Kada O, Lo Brutto S, Mancusi C, Morey G, Schembri PJ, Serena F, Sion L, Stagioni M, Tursi A, Vrgoc N, Steinke D, and Tinti F

Subjects

Animals, Fishes classification, Mediterranean Region, Species Specificity, Conservation of Natural Resources, DNA Barcoding, Taxonomic, Fishes genetics

Abstract

Cartilaginous fish are particularly vulnerable to anthropogenic stressors and environmental change because of their K-selected reproductive strategy. Accurate data from scientific surveys and landings are essential to assess conservation status and to develop robust protection and management plans. Currently available data are often incomplete or incorrect as a result of inaccurate species identifications, due to a high level of morphological stasis, especially among closely related taxa. Moreover, several diagnostic characters clearly visible in adult specimens are less evident in juveniles. Here we present results generated by the ELASMOMED Consortium, a regional network aiming to sample and DNA-barcode the Mediterranean Chondrichthyans with the ultimate goal to provide a comprehensive DNA barcode reference library. This library will support and improve the molecular taxonomy of this group and the effectiveness of management and conservation measures. We successfully barcoded 882 individuals belonging to 42 species (17 sharks, 24 batoids and one chimaera), including four endemic and several threatened ones. Morphological misidentifications were found across most orders, further confirming the need for a comprehensive DNA barcoding library as a valuable tool for the reliable identification of specimens in support of taxonomist who are reviewing current identification keys. Despite low intraspecific variation among their barcode sequences and reduced samples size, five species showed preliminary evidence of phylogeographic structure. Overall, the ELASMOMED initiative further emphasizes the key role accurate DNA barcoding libraries play in establishing reliable diagnostic species specific features in otherwise taxonomically problematic groups for biodiversity management and conservation actions., Competing Interests: The authors have declared that no competing interests exist.

Published

2017

5. The Application of DNA Barcodes for the Identification of Marine Crustaceans from the North Sea and Adjacent Regions.

Author

Raupach MJ, Barco A, Steinke D, Beermann J, Laakmann S, Mohrbeck I, Neumann H, Kihara TC, Pointner K, Radulovici A, Segelken-Voigt A, Wesse C, and Knebelsberger T

Subjects

Animals, Crustacea classification, DNA Primers genetics, DNA, Mitochondrial chemistry, Genetic Variation, Models, Genetic, Molecular Sequence Data, Phylogeny, Polymerase Chain Reaction, Reproducibility of Results, Sequence Analysis, DNA, Species Specificity, Crustacea genetics, DNA Barcoding, Taxonomic methods, DNA, Mitochondrial genetics, Electron Transport Complex IV genetics

Abstract

During the last years DNA barcoding has become a popular method of choice for molecular specimen identification. Here we present a comprehensive DNA barcode library of various crustacean taxa found in the North Sea, one of the most extensively studied marine regions of the world. Our data set includes 1,332 barcodes covering 205 species, including taxa of the Amphipoda, Copepoda, Decapoda, Isopoda, Thecostraca, and others. This dataset represents the most extensive DNA barcode library of the Crustacea in terms of species number to date. By using the Barcode of Life Data Systems (BOLD), unique BINs were identified for 198 (96.6%) of the analyzed species. Six species were characterized by two BINs (2.9%), and three BINs were found for the amphipod species Gammarus salinus Spooner, 1947 (0.4%). Intraspecific distances with values higher than 2.2% were revealed for 13 species (6.3%). Exceptionally high distances of up to 14.87% between two distinct but monophyletic clusters were found for the parasitic copepod Caligus elongatus Nordmann, 1832, supporting the results of previous studies that indicated the existence of an overlooked sea louse species. In contrast to these high distances, haplotype-sharing was observed for two decapod spider crab species, Macropodia parva Van Noort & Adema, 1985 and Macropodia rostrata (Linnaeus, 1761), underlining the need for a taxonomic revision of both species. Summarizing the results, our study confirms the application of DNA barcodes as highly effective identification system for the analyzed marine crustaceans of the North Sea and represents an important milestone for modern biodiversity assessment studies using barcode sequences.

Published

2015

6. Calibrating snakehead diversity with DNA barcodes: expanding taxonomic coverage to enable identification of potential and established invasive species.

Author

Serrao NR, Steinke D, and Hanner RH

Subjects

Animals, Calibration, Haplotypes, Phenotype, Phylogeny, Reference Standards, Species Specificity, DNA Barcoding, Taxonomic, Fishes classification, Fishes genetics, Genetic Variation, Introduced Species

Abstract

Detecting and documenting the occurrence of invasive species outside their native range requires tools to support their identification. This can be challenging for taxa with diverse life stages and/or problematic or unresolved morphological taxonomies. DNA barcoding provides a potent method for identifying invasive species, as it allows for species identification at all life stages, including fragmentary remains. It also provides an efficient interim taxonomic framework for quantifying cryptic genetic diversity by parsing barcode sequences into discontinuous haplogroup clusters (typical of reproductively isolated species) and labelling them with unique alphanumeric identifiers. Snakehead fishes are a diverse group of opportunistic predators endemic to Asia and Africa that may potentially pose significant threats as aquatic invasive species. At least three snakehead species (Channa argus, C. maculata, and C. marulius) are thought to have entered North America through the aquarium and live-food fish markets, and have established populations, yet their origins remain unclear. The objectives of this study were to assemble a library of DNA barcode sequences derived from expert identified reference specimens in order to determine the identity and aid invasion pathway analysis of the non-indigenous species found in North America using DNA barcodes. Sequences were obtained from 121 tissue samples representing 25 species and combined with public records from GenBank for a total of 36 putative species, which then partitioned into 49 discrete haplogroups. Multiple divergent clusters were observed within C. gachua, C. marulius, C. punctata and C. striata suggesting the potential presence of cryptic species diversity within these lineages. Our findings demonstrate that DNA barcoding is a valuable tool for species identification in challenging and under-studied taxonomic groups such as snakeheads, and provides a useful framework for inferring invasion pathway analysis.

Published

2014

7. First molecular evidence for underestimated biodiversity of Rhachotropis (Crustacea, Amphipoda), with description of a new species.

Author

Lörz AN, Linse K, Smith PJ, and Steinke D

Subjects

Amphipoda classification, Animals, Biodiversity, Crustacea classification, Electron Transport Complex IV genetics, Evolution, Molecular, Female, Geography, Microscopy, Electron, Scanning methods, Models, Anatomic, Models, Genetic, New Zealand, Oceans and Seas, Phylogeny, Sequence Analysis, DNA, Species Specificity, Amphipoda genetics, Crustacea genetics

Abstract

The crustacean genus Rhachotropis has a worldwide distribution and amongst the largest bathymetric range known from any amphipod genus. DNA barcoding of new material from around New Zealand and the Ross Sea indicated depth-related biogeographic patterns. New Zealand Rhachotropis do not form a monophyletic clade. Species from bathyal depths on the Chatham Rise, east of New Zealand, show lower sequence divergence to bathyal species from California and the Arctic than to abyssal New Zealand species. Species sampled in the Kermadec Trench, north of New Zealand below 5000 m, seem to be more closely related to Ross Sea abyssal species than to the New Zealand shelf species. The worldwide geographic and bathymetric distribution for all Rhachotropis species is presented here. Depth may have a greater influence on phylogeny than geographic distance.Molecular and morphological investigations of Rhachotropis specimens from the Chatham Rise, New Zealand revealed a species new to science which is described in detail, including scanning electron microscopy. This increases the number of described species of Rhachotropis to 60 worldwide.

Published

2012

8. A ranking system for reference libraries of DNA barcodes: application to marine fish species from Portugal.

Author

Costa FO, Landi M, Martins R, Costa MH, Costa ME, Carneiro M, Alves MJ, Steinke D, and Carvalho GR

Subjects

Animals, Aquatic Organisms classification, DNA Barcoding, Taxonomic methods, DNA, Mitochondrial classification, Electron Transport Complex IV classification, Fishes classification, Gene Library, Phylogeny, Phylogeography, Portugal, Aquatic Organisms genetics, DNA Barcoding, Taxonomic standards, DNA, Mitochondrial genetics, Electron Transport Complex IV genetics, Fishes genetics

Abstract

Background: The increasing availability of reference libraries of DNA barcodes (RLDB) offers the opportunity to the screen the level of consistency in DNA barcode data among libraries, in order to detect possible disagreements generated from taxonomic uncertainty or operational shortcomings. We propose a ranking system to attribute a confidence level to species identifications associated with DNA barcode records from a RLDB. Here we apply the proposed ranking system to a newly generated RLDB for marine fish of Portugal., Methodology/principal Findings: Specimens (n = 659) representing 102 marine fish species were collected along the continental shelf of Portugal, morphologically identified and archived in a museum collection. Samples were sequenced at the barcode region of the cytochrome oxidase subunit I gene (COI-5P). Resultant DNA barcodes had average intra-specific and inter-specific Kimura-2-parameter distances (0.32% and 8.84%, respectively) within the range usually observed for marine fishes. All specimens were ranked in five different levels (A-E), according to the reliability of the match between their species identification and the respective diagnostic DNA barcodes. Grades A to E were attributed upon submission of individual specimen sequences to BOLD-IDS and inspection of the clustering pattern in the NJ tree generated. Overall, our study resulted in 73.5% of unambiguous species IDs (grade A), 7.8% taxonomically congruent barcode clusters within our dataset, but awaiting external confirmation (grade B), and 18.7% of species identifications with lower levels of reliability (grades C/E)., Conclusion/significance: We highlight the importance of implementing a system to rank barcode records in RLDB, in order to flag taxa in need of taxonomic revision, or reduce ambiguities of discordant data. With increasing DNA barcode records publicly available, this cross-validation system would provide a metric of relative accuracy of barcodes, while enabling the continuous revision and annotation required in taxonomic work.

Published

2012

9. Wolbachia and DNA barcoding insects: patterns, potential, and problems.

Author

Smith MA, Bertrand C, Crosby K, Eveleigh ES, Fernandez-Triana J, Fisher BL, Gibbs J, Hajibabaei M, Hallwachs W, Hind K, Hrcek J, Huang DW, Janda M, Janzen DH, Li Y, Miller SE, Packer L, Quicke D, Ratnasingham S, Rodriguez J, Rougerie R, Shaw MR, Sheffield C, Stahlhut JK, Steinke D, Whitfield J, Wood M, and Zhou X

Subjects

Animals, DNA, Mitochondrial genetics, Insecta classification, Phylogeny, DNA Barcoding, Taxonomic methods, Insecta genetics, Insecta microbiology, Wolbachia genetics

Abstract

Wolbachia is a genus of bacterial endosymbionts that impacts the breeding systems of their hosts. Wolbachia can confuse the patterns of mitochondrial variation, including DNA barcodes, because it influences the pathways through which mitochondria are inherited. We examined the extent to which these endosymbionts are detected in routine DNA barcoding, assessed their impact upon the insect sequence divergence and identification accuracy, and considered the variation present in Wolbachia COI. Using both standard PCR assays (Wolbachia surface coding protein--wsp), and bacterial COI fragments we found evidence of Wolbachia in insect total genomic extracts created for DNA barcoding library construction. When >2 million insect COI trace files were examined on the Barcode of Life Datasystem (BOLD) Wolbachia COI was present in 0.16% of the cases. It is possible to generate Wolbachia COI using standard insect primers; however, that amplicon was never confused with the COI of the host. Wolbachia alleles recovered were predominantly Supergroup A and were broadly distributed geographically and phylogenetically. We conclude that the presence of the Wolbachia DNA in total genomic extracts made from insects is unlikely to compromise the accuracy of the DNA barcode library; in fact, the ability to query this DNA library (the database and the extracts) for endosymbionts is one of the ancillary benefits of such a large scale endeavor--which we provide several examples. It is our conclusion that regular assays for Wolbachia presence and type can, and should, be adopted by large scale insect barcoding initiatives. While COI is one of the five multi-locus sequence typing (MLST) genes used for categorizing Wolbachia, there is limited overlap with the eukaryotic DNA barcode region.

Published

2012

10. Poles apart: the "bipolar" pteropod species Limacina helicina is genetically distinct between the Arctic and Antarctic oceans.

Author

Hunt B, Strugnell J, Bednarsek N, Linse K, Nelson RJ, Pakhomov E, Seibel B, Steinke D, and Würzberg L

Subjects

Animals, Antarctic Regions, Arctic Regions, Bayes Theorem, Calcium Carbonate chemistry, DNA Primers genetics, Ecosystem, Oceans and Seas, Phylogeny, Species Specificity, Electron Transport Complex IV genetics, Gastropoda classification, Gastropoda physiology

Abstract

The shelled pteropod (sea butterfly) Limacina helicina is currently recognised as a species complex comprising two sub-species and at least five "forma". However, at the species level it is considered to be bipolar, occurring in both the Arctic and Antarctic oceans. Due to its aragonite shell and polar distribution L. helicina is particularly vulnerable to ocean acidification. As a key indicator of the acidification process, and a major component of polar ecosystems, L. helicina has become a focus for acidification research. New observations that taxonomic groups may respond quite differently to acidification prompted us to reassess the taxonomic status of this important species. We found a 33.56% (+/-0.09) difference in cytochrome c oxidase subunit I (COI) gene sequences between L. helicina collected from the Arctic and Antarctic oceans. This degree of separation is sufficient for ordinal level taxonomic separation in other organisms and provides strong evidence for the Arctic and Antarctic populations of L. helicina differing at least at the species level. Recent research has highlighted substantial physiological differences between the poles for another supposedly bipolar pteropod species, Clione limacina. Given the large genetic divergence between Arctic and Antarctic L. helicina populations shown here, similarly large physiological differences may exist between the poles for the L. helicina species group. Therefore, in addition to indicating that L. helicina is in fact not bipolar, our study demonstrates the need for acidification research to take into account the possibility that the L. helicina species group may not respond in the same way to ocean acidification in Arctic and Antarctic ecosystems.

Published

2010

11. Barcoding nemo: DNA-based identifications for the ornamental fish trade.

Author

Steinke D, Zemlak TS, and Hebert PD

Subjects

Animals, Electron Transport Complex IV genetics, Species Specificity, Electronic Data Processing, Fishes

Abstract

Background: Trade in ornamental fishes represents, by far, the largest route for the importation of exotic vertebrates. There is growing pressure to regulate this trade with the goal of ensuring that species are sustainably harvested and that their point of origin is accurately reported. One important element of such regulation involves easy access to specimen identifications, a task that is currently difficult for all but specialists because of the large number of species involved. The present study represents an important first step in making identifications more accessible by assembling a DNA barcode reference sequence library for nearly half of the ornamental fish species imported into North America., Methodology/principal Findings: Analysis of the cytochrome c oxidase subunit I (COI) gene from 391 species from 8 coral reef locations revealed that 98% of these species exhibit distinct barcode clusters, allowing their unambiguous identification. Most species showed little intra-specific variation (adjusted mean = 0.21%), but nine species included two or three lineages showing much more divergence (2.19-6.52%) and likely represent overlooked species complexes. By contrast, three genera contained a species pair or triad that lacked barcode divergence, cases that may reflect hybridization, young taxa or taxonomic over-splitting., Conclusions/significance: Although incomplete, this barcode library already provides a new species identification tool for the ornamental fish industry, opening a realm of applications linked to collection practices, regulatory control and conservation.

Published

2009

12. To be or not to be a flatworm: the acoel controversy.

Author

Egger B, Steinke D, Tarui H, De Mulder K, Arendt D, Borgonie G, Funayama N, Gschwentner R, Hartenstein V, Hobmayer B, Hooge M, Hrouda M, Ishida S, Kobayashi C, Kuales G, Nishimura O, Pfister D, Rieger R, Salvenmoser W, Smith J, Technau U, Tyler S, Agata K, Salzburger W, and Ladurner P

Subjects

Animals, Cell Movement, Cell Proliferation, Evolution, Molecular, Gene Expression, Helminth Proteins genetics, In Situ Hybridization, Models, Genetic, Platyhelminths cytology, Platyhelminths genetics, Stem Cells cytology, Stem Cells metabolism, Phylogeny, Platyhelminths classification

Abstract

Since first described, acoels were considered members of the flatworms (Platyhelminthes). However, no clear synapomorphies among the three large flatworm taxa -- the Catenulida, the Acoelomorpha and the Rhabditophora -- have been characterized to date. Molecular phylogenies, on the other hand, commonly positioned acoels separate from other flatworms. Accordingly, our own multi-locus phylogenetic analysis using 43 genes and 23 animal species places the acoel flatworm Isodiametra pulchra at the base of all Bilateria, distant from other flatworms. By contrast, novel data on the distribution and proliferation of stem cells and the specific mode of epidermal replacement constitute a strong synapomorphy for the Acoela plus the major group of flatworms, the Rhabditophora. The expression of a piwi-like gene not only in gonadal, but also in adult somatic stem cells is another unique feature among bilaterians. These two independent stem-cell-related characters put the Acoela into the Platyhelminthes-Lophotrochozoa clade and account for the most parsimonious evolutionary explanation of epidermal cell renewal in the Bilateria. Most available multigene analyses produce conflicting results regarding the position of the acoels in the tree of life. Given these phylogenomic conflicts and the contradiction of developmental and morphological data with phylogenomic results, the monophyly of the phylum Platyhelminthes and the position of the Acoela remain unresolved. By these data, both the inclusion of Acoela within Platyhelminthes, and their separation from flatworms as basal bilaterians are well-supported alternatives.

Published

2009