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Michael Gudo 《Theorie in den Biowissenschaften》2002,121(1):101-137
Summary The critical theory of evolution was developed by a group of scientists working together with Wolfgang F. Gutmann at the Senckenberg-Research-Institute
in Frankfurt am Main. Gutmann worked at Senckenberg for 37 years. In this time he presented 247 contributions which are distributed
over 47 periodicals and books. The ideas that were developed by Gutmann and his colleagues were innovative and pathbreaking
for morphology and evolutionary biology. The large number of his morphological publications is indicative of the wide field
that was opened up by the concepts of constructional morphology. As some of his colleagues have suggested, constructional
morphology as an engineering approach to the study of organisms (i. e., engineering morphology) may replace the traditional
concepts of morphology and anatomy and provides the observational base for the historical reconstruction of evolutionary pathways.
Constructional morphology as a quasi-engineering approach can be the morphological pendant to the contemporary molecular approaches
to biology, as it can provide the necessary morphological basis for the interpretation of the results of molecular studies
in the light of evolution. 相似文献
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Michael L. Zettler 《Aquatic Ecology》1997,31(2):233-258
A bibliography is given for the genus Marenzelleria. All together, 236 publications were found dealing with M. viridis, M. wireni and M. jonesi and their synonyms. The contents of the publications are briefly reviewed in tabular form identifying the nomenclature used, the geographical distribution and the topic of the paper in each case. 相似文献
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William R. Buck 《Brittonia》2001,53(1):41-57
Rupert Barneby had 263 publications (two of which were published with two volumes each) during his career (including 56 book
reviews), and additionally published new taxa and combinations in 16 publications by B. A. Krukoff, S. L. Welsh, and A. Lourteig.
In total, these publications amount to 7676 pages. Each entry was examined, was dated as accurately as possible, and was annotated
with any new nomenclauture presented in the publication. Barneby published 4 new subtribes within the legumes, 9 new genera
of legumes (one based on a new combination) and 6 new genera of Menispermaceae, 621 new species (including 6 new nothospecies),
16 new subspecies, 355 new varieties, and 1 new form. Additionally, he published 238 new infrageneric taxa (subgenera, sections,
or subsections). he made numerous new combinations (including nomina nova) at the infrageneric level (169), the species level
(582), the subspecific level (27), and the varietal level (533), as well as a single combination at the form level. 相似文献
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P. B. McKenna 《New Zealand journal of zoology.》2013,40(4):277-290
Abstract A two‐part referenced checklist is provided, including a total of 171 parasites (136 nematodes, 27 cestodes, 7 trematodes, 1 acanthocephalan) from 32 hosts. 相似文献
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This paper presents the first complete and updated list of all 3597 species of beetles (Insecta: Coleoptera) belonging to 92 familiesfound and published in Lithuania until 2011, with comments also provided on the main systematic and nomenclatural changes since the last monographic treatment in two volumes (Pileckis and Monsevičius 1995, 1997). The introductory section provides a general overview of the main features of the territory of Lithuania, the origins and formation of the beetle fauna and their conservation, the faunistic investigations in Lithuania to date revealing the most important stages of the faunistic research process with reference to the most prominent scientists, an overview of their work, and their contribution to Lithuanian coleopteran faunal research.Species recorded in Lithuania by some authors without reliable evidence and requiring further confirmation with new data are presented in a separate list, consisting of 183 species. For the first time, analysis of errors in works of Lithuanian authors concerning data on coleopteran fauna has been conducted and these errors have been corrected. All available published and Internet sources on beetles found in Lithuania have been considered in the current study. Over 630 literature sources on species composition of beetles, their distribution in Lithuania and neighbouring countries, and taxonomic revisions and changes are reviewed and cited. An alphabetical list of these literature sources is presented. After revision of public beetle collections in Lithuania, the authors propose to remove 43 species from the beetle species list of the country on the grounds, that they have been wrongly identified or published by mistake. For reasons of clarity, 19 previously noted but later excluded species are included in the current checklist with comments. Based on faunal data from neighbouring countries, species expected to occur in Lithuania are matnioned. In total 1390 species are attributed to this category and data on their distribution in neighbouring countries is presented. Completion of this study provides evidence that the Lithuanian coleopteran fauna has yet to be completely investigated and it is estimated that approximately 28 % of beetle species remain undiscovered in Lithuania. More than 85% of beetle species expected for Lithuania have been found in the following families: Cerylonidae, Geotrupidae, Haliplidae, Kateridae, Lycidae, Lucanidae, Mycetophagidae, Scarabaeidae and Silphidae. In families with few species such as Alexiidae, Boridae, Byturidae, Dascilidae, Drilidae, Eucinetidae, Lampyridae, Lymexilidae, Megalopodidae, Nemonychidae, Nosodendridae, Noteridae, Orsodacnidae, Pyrochroidae, Pythidae, Psephenidae, Rhysodidae, Sphaeritidae, Sphaeriusidae, Sphindidae, Stenotrahelidae and Trogidae, all possible species have already been discovered. However in some beetle families such as Aderidae, Bothrideridae, Eucnemidae, Laemoploeidae, Mordellidae, Ptiliidae, Scraptidae and Throscidae less than 50% of all possible species are known. At present the beetle species recorded in Lithuania belong to 92 families, with species from 9 other families such as Agyrtidae, Biphylidae, Deradontidae, Mycteridae, Ochodaeidae, Phleophilidae, Phloeostichidae, Prostomidae, Trachypachidae are expected to be found.A bibliography and a index of subfamily and genus levels are provided. The information published in the monograph will serve to further faunistic and distribution research of beetles and will help to avoid confusion in the identificatation of coleopteran fauna of Lithuania. 相似文献
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Hiroshi Fukuda 《Molluscan research.》2017,37(4):268-281
Based on the examination of old literature, the names of two species of Batillus Schumacher, 1817, a subgenus of Turbo Linnaeus, 1758, are revised. Turbo cornutus [Lightfoot], 1786 should be restricted to the species endemic to southern China and Taiwan. Turbo chinensis Ozawa & Tomida, 1995 is the junior synonym of T. cornutus. The species of Japan and Korea has long been misidentified with T. cornutus. Turbo japonicus Reeve, 1848 has been used for two very different species: one from Mauritius and another from Japan, with the species from Mauritius being valid, and a member of the subgenus Marmarostoma Swainson, 1840, while the Japanese/Korean species, lacking an available name, is provided with a new replacement name, T. sazae nom. nov.
http://www.zoobank.org/urn:lsid:zoobank.org:pub:7E99BA4B-CEB5-4510-BC5E-7852232926B8 相似文献
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William T. Stearn 《Plant Systematics and Evolution》1989,167(1-2):23-34
S. F. Gray's Natural Arrangement of British Plants (2 vols., November 1821) was for many years deliberately and unjustly neglected by British botanists on account of its idiosyncrasies, anti-Linnaean character, unorthodox nomenclature, narrow generic concepts and contemporary hostility to the supposed authorR. A. Salisbury, but is nevertheless nomenclaturally important, particularly for cryptogamic groups. This paper surveys its history, authorship, date of publication and nomenclature.Dedicated to the memory of JohnS. L. Gilmour. 相似文献
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