Relevant bibliographies by topics / New taxon names

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Academic literature on the topic 'New taxon names'

Author: Grafiati
Published: 4 June 2025
Last updated: 1 August 2025

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Journal articles on the topic "New taxon names"

1

CROSBY, TREVOR K. "Honoured by taxon name—Robin John Tillyard." Zootaxa 2414, no. 1 (2010): 67. http://dx.doi.org/10.11646/zootaxa.2414.1.6.

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The New Zealand bee fly genus Tillyardomyia Tonnoir, 1927 (Diptera: Bombyliidae) is one of 12 currently recognised valid generic names honouring Dr Robin John Tillyard F.R.S. (1881–1937) for his research on living and fossil insects. According to Tonnoir (1927) Tillyard was the discoverer of the family Bombyliidae in New Zealand and so Tillyardomyia was named after him even though he did not contribute any specimens of the type series for the single uncommon species of this genus, T. gracilis Tonnoir, 1927. In addition to this and the other 11 patronymic generic names, there are numerous speci
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2

KLUGE, Nikita Julievich. "Circumscriptional names of higher taxa in Hexapoda." Bionomina 1, no. 1 (2010): 15–55. http://dx.doi.org/10.11646/bionomina.1.1.3.

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Testing non-typified names by applying rules of circumscriptional nomenclature shows that in most cases the traditional usage can be supported. However, the original circumscription of several widely used non-typified names does not fit the taxa they are applied to. Here I discuss names historically applied to the taxa whose correct circumscriptional names should be Hexapoda, Amyocerata, Triplura, Dermatoptera, Saltatoria, Spectra, Pandictyoptera, Palaeoblattariae, Neoblattariae, Parametabola, Parasita, Arthroidignatha, Plantisuga, Metabola, Birostrata, Rhaphidioptera, Meganeuroptera, Eleutera
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3

Rubén, Pino Pérez, and José Pino Pérez Juan. "Nombres de taxon nuevos en Cormophyta de Baltasar Merino." Boletín Biga 18 (June 29, 2020): 5–104. https://doi.org/10.5281/zenodo.3911200.

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Baltasar Merino was a relevant researcher in the study of the flora of Galicia. After reviewing all his work, we have compiled a list of 713 new taxon names, proposed and published by Merino. He proposed names in 64 different families of Cormophyta, distributed in 13 taxonomic categories, which include 2 genera, 1 subgenus, 1 section, 67 species, 3 subspecies, 394 varieties, 24 sub-varieties, 188 forms, 1 subform, 3 races, 5 lusus , 22 nothospecies and 2 nothoforms.
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4

Pyle, Richard, Nicolas Bailly, and David Remsen. "Modeling Taxon Concepts: A new approach to an old problem." Biodiversity Information Science and Standards 6 (August 24, 2022): e93927. https://doi.org/10.3897/biss.6.93927.

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Although the biodiversity informatics community has recognized and understood the complexity of modeling information about scientific names and associated taxonomic concepts for more than three decades, many of the original questions and problems remain unresolved today. Because most biodiversity data is anchored to scientific names, and these names are governed by Codes of nomenclature, most effort and progress has focused on data structures centered around scientific names, rather than taxonomic concepts. But, as has been well documented in biodiversity data standards communities (e.g., Bere
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5

Penev, Lyubomir, Mariya Dimitrova, Georgi Zhelezov, and Teodor Georgiev. "The OpenBiodiv Knowledge Graph Rebuilt: A semantic hub on top of the ARPHA-published content and the Biodiversity Literature Repository." Biodiversity Information Science and Standards 6 (August 23, 2022): e91357. https://doi.org/10.3897/biss.6.91357.

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OpenBiodiv is a complex ecosystem of tools and services for RDF conversion of XML narratives of biodiversity articles including Darwin Core data into Linked Open Data (LOD), running on top of a graph database. OpenBiodiv provides four main types of services:Searching named entities (e.g., taxon names, taxon concepts, treatments, specimens, occurrences, gene sequences, bibliographic information, institutions, persons) in context, within and between articles.Answering questions based on the presence of certain named entities within specific article sections (e.g., titles, abstracts, introduction
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6

Pleijel, F., and G. W. Rouse. "Ceci n'est pas une pipe: names, clades and phylogenetic nomenclature." Journal of Zoological Systematics and Evolutionary Research 41, no. 3 (2003): 162–74. https://doi.org/10.5281/zenodo.13435367.

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(Uploaded by Plazi for the Bat Literature Project) An introduction is provided to the literature and to issues relating to phylogenetic nomenclature and the PhyloCode, together with a critique of the current Linnaean system of nomenclature. The Linnaean nomenclature fixes taxon names with types, and associates the names with ranks (genus, family, etc.). In phylogenetic nomenclature, names are instead defined with reference to cladistic relationships, and the names are not associated with ranks. We argue that taxon names under the Linnaean system are unclear in meaning and provide unstable grou
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7

Pleijel, F., and G. W. Rouse. "Ceci n'est pas une pipe: names, clades and phylogenetic nomenclature." Journal of Zoological Systematics and Evolutionary Research 41, no. 3 (2003): 162–74. https://doi.org/10.5281/zenodo.13435367.

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Abstract:
(Uploaded by Plazi for the Bat Literature Project) An introduction is provided to the literature and to issues relating to phylogenetic nomenclature and the PhyloCode, together with a critique of the current Linnaean system of nomenclature. The Linnaean nomenclature fixes taxon names with types, and associates the names with ranks (genus, family, etc.). In phylogenetic nomenclature, names are instead defined with reference to cladistic relationships, and the names are not associated with ranks. We argue that taxon names under the Linnaean system are unclear in meaning and provide unstable grou
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8

Pleijel, F., and G. W. Rouse. "Ceci n'est pas une pipe: names, clades and phylogenetic nomenclature." Journal of Zoological Systematics and Evolutionary Research 41, no. 3 (2003): 162–74. https://doi.org/10.5281/zenodo.13435367.

Full text
Abstract:
(Uploaded by Plazi for the Bat Literature Project) An introduction is provided to the literature and to issues relating to phylogenetic nomenclature and the PhyloCode, together with a critique of the current Linnaean system of nomenclature. The Linnaean nomenclature fixes taxon names with types, and associates the names with ranks (genus, family, etc.). In phylogenetic nomenclature, names are instead defined with reference to cladistic relationships, and the names are not associated with ranks. We argue that taxon names under the Linnaean system are unclear in meaning and provide unstable grou
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9

Pleijel, F., and G. W. Rouse. "Ceci n'est pas une pipe: names, clades and phylogenetic nomenclature." Journal of Zoological Systematics and Evolutionary Research 41, no. 3 (2003): 162–74. https://doi.org/10.5281/zenodo.13435367.

Full text
Abstract:
(Uploaded by Plazi for the Bat Literature Project) An introduction is provided to the literature and to issues relating to phylogenetic nomenclature and the PhyloCode, together with a critique of the current Linnaean system of nomenclature. The Linnaean nomenclature fixes taxon names with types, and associates the names with ranks (genus, family, etc.). In phylogenetic nomenclature, names are instead defined with reference to cladistic relationships, and the names are not associated with ranks. We argue that taxon names under the Linnaean system are unclear in meaning and provide unstable grou
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10

Pleijel, F., and G. W. Rouse. "Ceci n'est pas une pipe: names, clades and phylogenetic nomenclature." Journal of Zoological Systematics and Evolutionary Research 41, no. 3 (2003): 162–74. https://doi.org/10.5281/zenodo.13435367.

Full text
Abstract:
(Uploaded by Plazi for the Bat Literature Project) An introduction is provided to the literature and to issues relating to phylogenetic nomenclature and the PhyloCode, together with a critique of the current Linnaean system of nomenclature. The Linnaean nomenclature fixes taxon names with types, and associates the names with ranks (genus, family, etc.). In phylogenetic nomenclature, names are instead defined with reference to cladistic relationships, and the names are not associated with ranks. We argue that taxon names under the Linnaean system are unclear in meaning and provide unstable grou
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Book chapters on the topic "New taxon names"

1

Koretsky, Irina A., and Peter Holec. "A Primitive Seal (Mammalia: Phocidae) from Early Middle Miocene of Central Paratethys." In Smithsonian Contributions to Paleobiology. Smithsonian Institution Press, 2002. http://dx.doi.org/10.5479/si.00810266.93.163.

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A well-preserved skull from the early middle Miocene (approximately 15 Ma) at Devinska Nova Ves (formerly Neudorf an der March), Slovakia, herein named <i>Devinophoca claytoni</i>, new genus and new species, is morphologically the closest common ancestor of all true seals. It shows a mixture of subfamilial characters. Features shared with Phocinae are the number of incisors and the lack of a strongly pronounced mastoid process. Characters similar to Monachinae are the shape of maxillae and the ratio between frontal and maxillary contacts of nasal bones. Characters shared with Cysto
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2

Benayad, Sarah, Stéphanie Soulet, and Taivini Teai. "Phytochemical Study and Biological Activities of Endemic Species of Vaccinium From French Polynesia." In Edible Berries - New Insights [Working Title]. IntechOpen, 2023. http://dx.doi.org/10.5772/intechopen.1001582.

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French Polynesia is a natural laboratory with over 53% of endemism in its vascular terrestrial flora. The flora remains little studied from a phytochemical point of view. In order to overcome this lack of knowledge, we were interested in endemic taxon from specie Vaccinium cereum, also named as “opu-opu”. Four varieties of V. cereum are present in French Polynesia: var. adenandrum (Decne) F.Br, var. cereum (L.f.) G. Forst, var. pubiflorum Skottsb and var. raiateense M.L. Grant. All four showed comparable antioxidant and antiradical activities and inhibitory activity against α-glucosidase. Leav
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3

Tocheri, Matthew, E. Grace Veatch, Jatmiko, E. Wahyu Saptomo, and Thomas Sutikna. "Homo floresiensis." In The Oxford Handbook of Early Southeast Asia. Oxford University Press, 2022. http://dx.doi.org/10.1093/oxfordhb/9780199355358.013.2.

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Abstract Homo floresiensis—the holotype of which stood ~106 cm tall, weighed ~27.5 kg, and had a brain ~426 cm3—is the taxonomic name given to hominin remains discovered in Late Pleistocene deposits at Liang Bua, a limestone cave on the Indonesian island of Flores. This species, and the skeletal and cultural remains attributed to it, has been the source of considerable scientific and public interest as well as intense debate since its discovery was first announced. A major implication of the discovery of this extinct taxon is that modern humans (Homo sapiens) once shared this planet with Neand
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4

Holman, J. Alan. "Extinction Patterns in the Herpetofauna of the Pleistocene of Britain and Europe." In Pleistocene Amphibians and Reptiles in Britain and Europe. Oxford University Press, 1998. http://dx.doi.org/10.1093/oso/9780195112320.003.0012.

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As we have seen in Chapter 4, many invalid European Pleistocene amphibian and reptile species were named on the basis of insufficient and inadequately described fossils (e.g., Estes, 1981, 1983; Rage, 1984c; Sanchiz, in press). Some of these forms have been synonymized with modern species, but others are in taxonomic limbo because of the international rules of zoological nomenclature. We now turn to a consideration of the few European Pleistocene fossil herpetological species that have been recognized as valid in recent years. These taxa fit into three catagories: (1) an extinct Pliocene anura
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5

Harrison, Roger G., Paul W. Todd, Scott R. Rudge, and Demetri P. Petrides. "Introduction to Bioproducts and Bioseparations." In Bioseparations Science and Engineering. Oxford University Press, 2015. http://dx.doi.org/10.1093/oso/9780195391817.003.0004.

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Bioproducts—chemical substances or combinations of chemical substances that are made by living things—range from methanol to whole cells. They are derived by extraction from whole plants and animals or by synthesis in bioreactors containing cells or enzymes. Bioproducts are sold for their chemical activity: methanol for solvent activity, ethanol for its neurological activity or as a fuel, penicillin for its antibacterial activity, taxol for its anticancer activity, streptokinase (an enzyme) for its blood clot dissolving activity, hexose isomerase for its sugar-converting activity, and whole Ba
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