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Taxonomic diversity of European Cottus : with description of eight new species (Teleostei: Cottidae)
(2005)
The taxonomy of European species of Coitus (Cottidae) is revised. Results of molecular studies are summarised and the variability of morphological characters is reviewed. Molecular and morphological data support the recognition of 15 diagnosable species in Europe. A neotype is designated for C. gobio; the type locality is in the lower Elbe drainage. Coitus gobio, C. hispaniolensis, C. koshewnikowi, C. microstomus, C. petiti, and C. poecilopus are re-diagnosed. Eight new species are described. Three of them are restricted to France: C. aturi to the Adam drainage, C. duranii to the upper Dordogne, upper Lot and upper Loire drainages, and C. rondeleti to the Herault drainage. Two new species are described from the Atlantic and North Sea basins: C. perifretum from Great Britain, and the ScheIdt, Rhine, Seine, lower Loire and lower Garonne drainages, and C. rhenanus from the Meuse and lower and middle Rhine drainages. Coitus scatul'igo is described from a single spring in northeastern Italy. In the Danube drainage, C. mctae front the upper Save and C. transsilvaniae from the upper Arges are distinguished from the widespread C. gobio. Lectotypes are designated for C. ferrugineus and C. pellegrini. Coitus kosllewnikowi Gratzianow, 1907 is declared nomel1 protectum and C. gobio microcephalus Kessler, 1868 is declared nomen oblitum. The original spelling of C. milvensis is discussed.
Paleogeographical, morphological, ecological, physiological, linguistic, archaeological and historical evidence is used to explain the origin and history of the domestication of the wild common carp. The closest wild ancestor of the common carp originated in the drainages of the Black, Caspian andAral seas and dispersed west as far as the Danube River and east into Siberia. The common carp today is represented by the uncertain east Asian subspecies Cyprinus carpio haematopterus and by the European Cyprinus carpio carpio. There is some reason to think that Romans were the first to culture carp collected from the Danube, and that the tradition of the "piscinae dulces" was continued in monasteries throughout the Middle Ages. We have much better documentation of carp culture in ponds of lay and clerical landowners in western Europe after the 11 th century. Distribution of the common carp west of the Danube's piedmont zone was clearly brought about by humans, as was its introduction throughout the continents. Some domestication in China may have occurred independently of similar activities in Europe, but most of the modern-day activities with the common carp in far east Asia are restricted to the domesticated common carp imported from Europe, or at best to hybrids of local and imported strains. The xanthic (red) common carp seem to have first appeared in early cultures of Europe, China and Japan but reached their fame through recent artificial selection of multicolored aberrants in Niigata Prefecture of Japan. In monetary value, production of the colored carp - the Japanese "nishikigoi" - now exceeds the production of carp as human food. As "swimming flowers" nishikigoi delight modem people as much as the taste of carp may have delighted the Romans and medieval folks at the beginning of carp domestication. The common carp is not only the most important domesticated fish but contributes over I million metric tons to world aquaculture. The surviving wild forms of the common carp are threatened or close to the fate of the aurochs, the ancestor of cattle, which became extinct in 1627.
This list of microscopic features for hardwood identification is the successor to the "Standard List of Characters Suitable For Computerized Hardwood Identification" published in 1981 (IAWA Bulletin n.s. 2: 99-145) with an explanation of the coding procedure by R.B. Miller. The 1981 publication greatly stimulated international exchange of information and experience on characters suitable for hardwood identification, and inspired considerable debate on the most desirable coding procedures and identification programs. Therefore, at the IA W A meeting during the XIV International Botanical Congress in Berlin, July 1987, it was decided to revise the 1981 standard list. Because of the continuing developments in computer technology and programming, it was agreed to limit the scope of the new list to definitions, explanatory commentary, and illustrations of wood anatomical descriptors, rather than concentrate on coding procedures. A new Committee was appointed by the IA W A Council to work towards the new list, and thanks to a substantial grant from the USDA Competitive Research Grants - Wood Utilization Program (Grant No. 88-33541-4081), a workshop was held by the Committee from October 2-7, 1988, in the Department of Wood & Paper Science, North Carolina State University, Raleigh, NC, USA, under the joint auspices of IA WA and IUFRO Division S. A preliminary list was prepared during the workshop. IA W A members were invited to comment on this list, and these comments helped with the final preparation of the new list. The list presented here was agreed to after review of subsequent drafts and extensive internal consultation between committee members. Although this list has 163 anatomical and 58 miscellaneous features, it is not a complete list encompassing all the structural patterns that one can encounter in hardwoods. Instead it is intended to be a concise list of features useful for identification purposes. Also, the numbers assigned to each feature in the present list are not meant to be codes for a computer program, but are intended to serve for easy reference, and to help translate data from one program/database to another. Wood and wood cells are biological elements, formed in trees, shrubs, and climbers to fulfill a physiological or mechanical function. Although there is more discrete diversity in wood structure than in many other plant parts, there is also much continuous variation, and any attempt to classify this diversity into well-defined features has an artificial element. Yet we are confident that in the feature list presented here ambiguity of descriptors has been limited to a minimum, and we hope that all present and future colleagues engaged in wood identification and descriptive wood anatomy will find this list a valuable guide and reference.
Professor HANDRCHIN hat ein reiches Material gesammelt, das zum Teil aus Java, Buitenzorg, zum grösseren Teil jedoch aus den kleinen Sundainseln Bali, Soembawa, Flores und Timor, sowie vom australischen Festlande und zwar aus dessen Northern Territory, hauptsächlich dem Flussgebiet des Adelaideriver stammt. Während Java und die westlichen der genannten kleinen Inseln eine orientalische Fauna zeigen, beherbergen Flores und Timor sowie natürlich das australische Festland ausgesprochen australische Formen. Die bis jetzt kaum erforschte Fauna dieser Gebiete bot allerlei Neues.
Diese Arbeit beschreibt die verschiedenen Celltypen (ungefähr dreizig), die in die Larve von Alcyonidium ployoum (Hassall) sind, und zeigt ihre Verschiedenheit und ihren specifischen Merkmale, hesonders wegen der elektronischcn Mikroskopie. Die ektodermischen Zellstoffe sind viel mehr verschieden, als die Arbeiten den alten Autoren es zu glauben lasscn. Aborale und pericoronale Zellstoffe, deren einige von Warzen und mancherlei Wimper bedeckt sind, sind beschreibt. Ein besonderer Zellstoff, der die Einmündung des Saugnapfs beschränkt, ist im Kleine gelernt. Ein Ring von infracoronalen und sehr besonderen Wimperzellen, die nachher den grössten Teil der Anfang des ersten Polypid geben werden, hat sehr genau geanalisiert. Speziale palleale und des Saugnapfs Zellstoffekörnchen werden nachher die Kutukula der Ancestrula zu geben. Der verwickelte Bau der Musultnlareinpflanzungzellen ihre ektodermale Natur, der desmosomiale Anblick der Einfüngungen der Muskularfasern sind entdecken. Die mesodermalen Zellstoffe sind sehr verändert, und kann man die Verwandlung einer Typus von mesenchymalen Zell in einen anderen Typus folgen, in Beziehung auf dem Alter der Larve, Die Verteilung und der Bau der verschieden Muskeln sind geanalisiert, und mit den der anderen bekannten Ectoproctlarven vergleichen. Eine kritische Studium der mancherleien Kategorien von mesenchymalen Zellen ist bezüglich auf die histologischen Beschreibungen früherer Autoren gemacht. Die morulären Zellen, die bis nun allein bei die tätigen Alcyonidium´s Zoecien kurz beschreibt waren, sind hier einzeln gelernt, Ein Haupteingebrachte unserer Erforschung bewilligt den Bau des neuroempfindlichkeiten Ganze dieser Larve. Empfindungszellen stellen in der Mitte der Kappe, und sind in Verbindung, wegen synaptischen Vereinigungen, mit einem Dorsalganglion wo ein von einem mesodermalen zusammenhängenden Muff beschtzer Nerv anfangt. Axonen gehen unter dem Nerv fort, folgen den ganzen larva´s peripherie in der untercoronalen Gegend, und bezüglich mehreren Synapsen verbinden sie mit den allen regsamen Wimperstoffe der Larve. Es gibt kein nervöse Zellkörper neben deIn birniformingen Organ (der nun uns «complexe ectodernlique ventro-anterieur» vorziehen nennen); da bermerckt man nur ein Axonenhalftern. Mit den Gesamtheit der vereinigten Urkunden kannt man ein genau Kenntnis der Larva von Alcyonidium haben. Diese Kenntnis war die nötige Vorbedingung für das Studiaum der Vorfälle von der Verwandlung und Polypids´ Ancestrularbildung unternehmen. Dieses Studium wird logisch für uns diese Arbeit folgen.
Se presenta una base de datos taxonómica y distribucional de los moluscos marinos, telTestres y dulceacuícolas de Chile continental e insular. Se ha descrito para Chile un total de 1.288 especies, incluidas en 236 familias. Estas especies representan alrededor del 1,8% de la fauna mundial conocida de moluscos recientes (en total unas 70.000 especies). Los gmpos más diversificados son Gastropoda (882 especies) y Bivalvia (233 especies). Del total, 1.070 son marinas, 132 terrestres y 83 de ambientes dulceacuiolas. Del total de especies, 13 son introducidas (terrestres: Milax gagates, Demceras laeve, D. reticulatum, Limax (Lehmannia) valentianus, L. (Limax)flavus, L. (L.) maximus, Oxychilus (Oxychilus) cellarius, O. (Ortizius) alliarius and Helix (Cryptomphalus) aspersa: marinas: Crassostrea gigas, Pecten mllximus, Haliotis rufescens y H. mimus) y 49 poseen importancia económica. Aun cuando las primeras referencias sobre moluscos chilenos datan de comienzos del siglo XVIII, se los conoce principalmente a través de los resultados de las expediciones oceanográficas de fines del siglo XIX y principios de éste.