Relevant bibliographies by topics / Fish Taxonomy

Academic literature on the topic 'Fish Taxonomy'

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Published: 6 September 2023

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Journal articles on the topic "Fish Taxonomy"

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Sánchez-Hernández, Javier. "Taxonomy-based differences in feeding guilds of fish." Current Zoology 66, no. 1 (April 2, 2019): 51–56. http://dx.doi.org/10.1093/cz/zoz015.

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Abstract It has been taken for granted that feeding guilds and behavior in animals are linked to the taxonomic relatedness of species, but empirical evidence supporting such relationship is virtually missing. To examine the importance of taxonomy on trophic ecology, I here present the first well-resolved dietary taxonomy analysis based on feeding guilds (predation, herbivory, and filtering) among families and genera within the fish order Perciformes. Taxonomic relatedness in feeding did not vary with ecosystem dimension (marine vs. freshwater). Although predation dominates among Perciformes fishes, this study shows that in most cases taxonomic units (family or genus) are composed by species with several feeding guilds. Related species are more similar in feeding compared with species that are taxonomically more distant, demonstrating that there is a greater variation of feeding guilds within families than genera. Thus, there is no consistency in feeding guilds between family- and genus-level taxonomy. This study provides empirical support for the notion that genera are more informative than families, underlining that family-level taxonomy should be avoided to infer feeding habits of fish species at finer taxonomic resolution. Thus, the choice of taxonomic resolution (family or genus level) in ecological studies is key to avoid information loss and misleading results. I conclude that high-rank taxonomic units (i.e., above the generic level) are not appropriate to test research hypotheses about the feeding of fish.
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Vavalidis, Zogaris, Economou, Kallimanis, and Bobori. "Changes in Fish Taxonomy Affect Freshwater Biogeographical Regionalisations: Insights from Greece." Water 11, no. 9 (August 21, 2019): 1743. http://dx.doi.org/10.3390/w11091743.

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Freshwater fishes are key indicators for delineating biogeographical maps worldwide. However, controversy in regional-scale ichthyogeographic boundaries still persists, especially in areas of high species endemicity, such as in Greece. One problem concerns the taxonomy of the fishes because there have been extensive changes, mainly due to an increased splitting of species in recent years in Europe. Here, we explore why ichthyogeographic boundary disagreements and uncertainties in region-scale biogeographical units persist. We compare cluster analyses of river basin fish fauna in Greece using two taxonomic datasets: the older fish taxonomy (from 1991) and the current taxonomy that now follows the phylogenetic species concept (PSC), which has become widely established in Europe after 2007. Cluster analyses using the older fish taxonomy depicts only two major biogeographical regional divisions, while the current taxonomy defines four major regional divisions in mainland Greece. Interestingly, some older maps from the pre-PSC taxonomy era also similarly show four ichthyogeographic divisions in Greece and we can assume that the older biogeographical work did not solely use numerical taxonomy but followed an expert-guided synthesis; the older regional definitions have persisted quite well despite radical changes in Europe’s fish taxonomy. Through the prism of biodiversity conservation planning, we hope this review may help identify ways to help standardize policy-relevant biogeographical mapping.
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Ali, Najib M., Haris A. Khan, Amy Y.-Hui Then, Chong Ving Ching, Manas Gaur, and Sarinder Kaur Dhillon. "Fish Ontology framework for taxonomy-based fish recognition." PeerJ 5 (September 15, 2017): e3811. http://dx.doi.org/10.7717/peerj.3811.

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Life science ontologies play an important role in Semantic Web. Given the diversity in fish species and the associated wealth of information, it is imperative to develop an ontology capable of linking and integrating this information in an automated fashion. As such, we introduce the Fish Ontology (FO), an automated classification architecture of existing fish taxa which provides taxonomic information on unknown fish based on metadata restrictions. It is designed to support knowledge discovery, provide semantic annotation of fish and fisheries resources, data integration, and information retrieval. Automated classification for unknown specimens is a unique feature that currently does not appear to exist in other known ontologies. Examples of automated classification for major groups of fish are demonstrated, showing the inferred information by introducing several restrictions at the species or specimen level. The current version of FO has 1,830 classes, includes widely used fisheries terminology, and models major aspects of fish taxonomy, grouping, and character. With more than 30,000 known fish species globally, the FO will be an indispensable tool for fish scientists and other interested users.
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Austin, Brian. "Taxonomy of bacterial fish pathogens." Veterinary Research 42, no. 1 (2011): 20. http://dx.doi.org/10.1186/1297-9716-42-20.

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Hoffman, Joel Christopher, Christy Meredith, Erik Pilgrim, Anett Trebitz, Chelsea Hatzenbuhler, John Russell Kelly, Gregory Peterson, Julie Lietz, Sara Okum, and John Martinson. "Comparison of larval fish detections using morphology-based taxonomy versus high-throughput sequencing for invasive species early detection." Canadian Journal of Fisheries and Aquatic Sciences 78, no. 6 (June 2021): 752–64. http://dx.doi.org/10.1139/cjfas-2020-0224.

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When first introduced, invasive species typically evade detection; DNA barcoding coupled with high-throughput sequencing (HTS) may be more sensitive and accurate than morphology-based taxonomy and thereby improve invasive (or rare) species detection. We quantified the relative error of species detection between morphology-based and HTS-based taxonomic identification of ichthyoplankton collections from the Port of Duluth, Minnesota, an aquatic non-native species introduction “hot-spot” in the Laurentian Great Lakes. We found HTS-based taxonomy identified 28 species and morphology-based taxonomy identified 30 species, of which 27 were common to both. Among samples, 76% of family-level taxonomic assignments agreed; however, only 42% of species assignments agreed. Most errors were attributed to morphology-based taxonomy, whereas HTS-based taxonomy error was low. For this study system, for most non-native fishes, the detection probability by randomized survey for larvae was similar to that by a survey that is optimized for non-native species early detection of juveniles and adults. We conclude that classifying taxonomic errors by comparing HTS results against morphology-based taxonomy is an important step toward incorporating HTS-based taxonomy into biodiversity surveys.
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Dey, Sudip, Shyama P. Biswas, Samujjwal Dey, and Shankar P. Bhattacharyya. "Scanning Electron Microscopy of Scales and its Taxonomic Application in the Fish Genus Channa." Microscopy and Microanalysis 20, no. 4 (May 28, 2014): 1188–97. http://dx.doi.org/10.1017/s1431927614001019.

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AbstractScanning electron microscopy (SEM) of scales in six species of the fish genus Channa revealed certain features relevant to taxonomic significance. The location of focus, inter-radial distance and width of circuli, inter-circular space, width of radii, shape and size of lepidonts, etc. were found to be different in different species. The importance of SEM of scales in poorly understood taxonomy and phylogeny of the fish genus Channa is discussed with the help of relevant literature. Further, the role of SEM of fish scales for taxonomic applications is discussed in detail.
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Walker, Peter J., Laurent Bigarré, Gael Kurath, Laurent Dacheux, and Laurane Pallandre. "Revised Taxonomy of Rhabdoviruses Infecting Fish and Marine Mammals." Animals 12, no. 11 (May 26, 2022): 1363. http://dx.doi.org/10.3390/ani12111363.

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The Rhabdoviridae is a large family of negative-sense (-) RNA viruses that includes important pathogens of ray-finned fish and marine mammals. As for all viruses, the taxonomic assignment of rhabdoviruses occurs through a process implemented by the International Committee on Taxonomy of Viruses (ICTV). A recent revision of taxonomy conducted in conjunction with the ICTV Rhabdoviridae Study Group has resulted in the establishment of three new subfamilies (Alpharhabdovirinae, Betarhabdovirinae, and Gammarhabdovirinae) within the Rhabdoviridae, as well as three new genera (Cetarhavirus, Siniperhavirus, and Scophrhavirus) and seven new species for viruses infecting fish or marine mammals. All rhabdovirus species have also now been named or renamed to comply with the binomial format adopted by the ICTV in 2021, comprising the genus name followed by a species epithet. Phylogenetic analyses of L protein (RNA-dependent RNA polymerase) sequences of (-) RNA viruses indicate that members of the genus Novirhabdovirus (subfamily Gammarhabdovirinae) do not cluster within the Rhabdoviridae, suggesting the need for a review of their current classification.
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Randhawa, Swarajpal S., and Ravindra Pawar. "Fish genomes: Sequencing trends, taxonomy and influence of taxonomy on genome attributes." Journal of Applied Ichthyology 37, no. 4 (May 28, 2021): 553–62. http://dx.doi.org/10.1111/jai.14227.

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Leo, Haniva Yunita. "Folk Taxonomy of Fish in Kaera Language." Bahasa: Jurnal Keilmuan Pendidikan Bahasa dan Sastra Indonesia 4, no. 2 (December 27, 2022): 127–41. http://dx.doi.org/10.26499/bahasa.v4i2.281.

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This paper describes ethnosemantic system of fish classification in Kaera Language, a papuan language spoken in East Pantar, Alor Regency, East Nusa Tenggara, Indonesia. The aims of this study are to document vernacular names of fish in Kaera Language, to classify them using folk taxonomy proposed by Berlin (1992), and to describe the fish naming system in Kaera community. The data were collected by employing quasi-experimental method, resulting in 63 terms of fish in Kaera language. The data were then transcribed and classified based on their taxa in folk taxonomy (Berlin, 1992). The result of data analysis showed that fish in Kaera Language are classified into four levels of taxonomy hierarchy namely unique beginner, life form, generic and specific. While regarding folk nomenclature, Kaera community name the fish by their appearance, habitat, and imagination, reflecting their cultural perspective that is influenced by nature around them. AbstrakMakalah ini mendeskripsikan sistem pengklasifikasian ikan secara etnosemantik dalam bahasa Kaera, bahasa yang termasuk rumpun bahasa papua, dituturkan oleh masyarakat Pantar Timur, Kabupaten Alor, Provinsi Nusa Tenggara Timur. Tujuan penulisan makalah ini adalah untuk mendokumentasikan nama-nama ikan dalam bahasa Kaera, mengklasifikasikannya berdasarkan taksonomi daerah yang diusulkan oleh Berlin (1992), dan mendeskripsikan sistem penamaannya dalam masyarakat Kaera. Data dalam kajian ini dikumpulkan menggunakan metode kuasi-eksperimen, menghasilkan 63 istilah ikan dalam bahasa Kaera. Data yang terkumpul kemudian ditranskripsi dan diklasifikasikan berdasarkan taksa dalam taksonomi rakyat (Berlin, 1992). Hasil kajian ini menunjukkan bahwa ikan dalam bahasa Kaera diklasifikasikan ke dalam empat level hirarki taksonomi, yakni unique beginner, life form, generic, dan specific. Sementara itu, berkaitan dengan nomenklatur, masyarakat Kaera menamai ikan berdasarkan tampilan, habitat, dan imajinari, merefleksikan perspektif budaya masyarakat Kaera yang dipengaruhi oleh alam di sekitar mereka.
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Bezerra-Neto, Eloi, Mariana Oliveira, Marcos Mereles, José Santos, José Longo, Fabio Rosa, Júlio Militão, José Milton Barbosa, and Raniere Sousa. "ATLAS DE OTÓLITOS DE PEIXES CAPTURADOS NA BACIA DO RIO VERDE, ESTADO DO MATO GROSSO DO SUL, BRASIL." ACTA OF FISHERIES AND AQUATIC RESSOURCES 10, no. 2 (2022): 27–39. http://dx.doi.org/10.46732/actafish.2022.10.2.27-39.

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The use of photos and descriptions of fish otoliths is a useful tool for studies that include: systematics, taxonomy, identification of fish in the contents of stomachs and classification of the trophic chain. In this study. we characterized the morphology of the otoliths in nine species of fish, distributed in five families and two orders from the Verde River in the Upper Paraná Basin. An atlas was prepared depicting, by species, photography of the front and rear perspectives of each pair of sagittae otoliths. This visual atlas will help in later works that address ecology and, especially, in the distinction of species, thus contributing as an instrument to be applied to the taxonomic identification of species and fish populations.
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Dissertations / Theses on the topic "Fish Taxonomy"

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Brownell, Lindsay Kirlin. "One fish, two fish, lungfish, youfish : embracing traditional taxonomy in a molecular world." Thesis, Massachusetts Institute of Technology, 2014. http://hdl.handle.net/1721.1/92629.

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Thesis: S.M. in Science Writing, Massachusetts Institute of Technology, Department of Humanities, Graduate Program in Science Writing, 2014.
Cataloged from PDF version of thesis.
Includes bibliographical references (pages 23-24).
In today's increasingly digitized, data-driven world, the "old ways" of doing things, especially science, are quickly abandoned in favor of newer, ostensibly better methods. One such discipline is the ancient study of taxonomy, the discovery and organization of life on Earth. New techniques like DNA sequencing are allowing taxonomists to gain insight into the tangled web of relationships between species (among the Acanthomorph fish, for example). But is the newest, shiniest toy always the best? Are we in danger of losing vital information about the world if we abandon the thousands of years of cumulative human knowledge to gather dust in basements? This thesis explores the current crossroads at which taxonomy finds itself, and offers a solution to preserve the past while diving headlong into the future.
by Lindsay Kirlin Brownell.
S.M. in Science Writing
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Teng, Fei. "A Content-Based Image Retrieval System for Fish Taxonomy." ScholarWorks@UNO, 2006. http://scholarworks.uno.edu/td/377.

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It is estimated that less than ten percent of the world's species have been discovered and described. The main reason for the slow pace of new species description is that the science of taxonomy, as traditionally practiced, can be very laborious: taxonomists have to manually gather and analyze data from large numbers of specimens and identify the smallest subset of external body characters that uniquely diagnoses the new species as distinct from all its known relatives. The pace of data gathering and analysis can be greatly increased by the information technology. In this paper, we propose a content-based image retrieval system for taxonomic research. The system can identify representative body shape characters of known species based on digitized landmarks and provide statistical clues for assisting taxonomists to identify new species or subspecies. The experiments on a taxonomic problem involving species of suckers in the genera Carpiodes demonstrate promising results.
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Abban, Edward Kofi. "Taxonomy and biochemical genetics of some African freshwater fish species." Thesis, Swansea University, 1988. https://cronfa.swan.ac.uk/Record/cronfa43062.

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Richards, Gareth Ronald. "Taxonomy, morphology and host-parasite interactions of Gyrodactylus of poeciliid fish." Thesis, University of Liverpool, 1995. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.262582.

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Evans, F. J. (Fiona Jocelyn). "Taxonomy, palaeoecology and palaeobiogeography of some palaeozoic fish of Southern Gondwana." Thesis, Stellenbosch : Stellenbosch University, 2005. http://hdl.handle.net/10019.1/50460.

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Thesis (PhD)--University of Stellenbosch, 2005.
ENGLISH ABSTRACT: The fossiliferous Waaipoort Formation (Witteberg Group, Cape Supergroup), Ganikobis Formation (Dwyka Group, Karoo Supergroup) and Whitehill Formation (Ecca Group, Karoo Supergroup) span a protracted period interrupted by a +-45Ma glacial event. This Late Carboniferous glacial event resulted in a prolonged hiatus in sedimentation as well as significant erosion in many southern continents of Gondwana. This study demonstrates how the glacial episode affected faunal composition and changes in palaeoecology in southern Gondwana across this time period. The Waaipoort shows the highest overall faunal diversity with relatively high palaeoniscoid diversity within Ganikobis and Whitehill Formations. This study is unique in correlating Early Carboniferous - Early Permian fish fauna of South Africa and Namibia specifically, as well as other parts of southern Gondwana, and includes maps of possible fish migration routes. This study attempts to refine the body of disjointed knowledge on the taxonomy and distribution of the fish fauna surrounding this period in southern Gondwana. Three new Waaipoort taxa are recognised, and several reassigned. Earlier work on Late Carboniferous fish from Southern Africa has been updated herein to incorporate recent collections. This has allowed the recognition of up to 15 new palaeonoscoid taxa, some of which are endemic to this region. Several new taxa are recognised within the Whitehill Formation fish fauna and a new lectotype for Palaeoniscum. capensis is presented. Detailed taphonomic and sedimentological studies (with 6 lithologs) of fossil localities visited in this broad-based study verify the correlation, and impart information often lost or ignored in pure palaeontological studies on the palaeoecology or palaeoenvironment of the fauna. Systematic relationships discussed here also serve to strengthen the palaeobiogeographical correlations between the Gondwanan continents.
AFRIKAANSE OPSOMMING: Die fossie1draende Waaipoort Formasie (Witteberg Groep, Kaap Supergroep), Ganikobis Formasie (Dwyka Groep, Karoo Supergroep) en Whitehill Formasie (Ecca Groep, Karoo Supergroep) strek oor 'n uitgebreide tydvak wat 'n periode van vergletsering van ongeveer 45 miljoen jaar insluit. Hierdie Laat Karboon ystyd het sedimentasieprosesse lank onderbreek en beduidende erosie in baie van die suidelike kontinente van Gondwana veroorsaak. Die huidige studie toon hoe die vergletsering die faunistiese samestelling en veranderings in die paleo-ekologie van suidelike Gondwana beinvloed het. In totaal toon die Waaipoort die grootste faunistiese diversiteit, terwyl 'n relatief hoe diversiteit ook onder die Palaeoniscoidei van die Ganikobis en Whitehill Formasies voorkom. Hierdie studie is uniek insoverre dit spesifiek data oor die Vroee Karboon - Vroee Perm visfauna van Suid-Afrika en Namibie, asook ander gebiede van suidelike Gondwana korrelleer en kaarte van moontlike migrasieroetes insluit. Die navorsing poog om die groot hoeveelheid losstaande inligting oor die taksonomie en verspreiding van die visfauna in suidelike Gondwana te verwerk en te verfyn. Drie nuwe taksa is uit die Waaipoort geidentifiseer en 'n verdere aantal is geherklassifiseer. Vroeer navorsing oor die Laat Karboon-visse van Suider-Afrika is bygewerk in die lig van resente versamelings. Dit het die herkenning van tot 15 nuwe taksa onder die Palaeoniscoidei, waarvan sommige endemies aan hierdie streek is, moontlik gemaak. 'n Aantal nuwe taksa word onder die visfauna van die Whitehill Formasie aangeteken, saam met 'n nuwe lektotipe van Palaeoniscum capensis. Gedetailleerde tafonomiese en sedimentologiese analises van die vindplekke wat tydens hierdie studie ondersoek is en wat 6 vertikale profiele insluit, ondersteun hierdie korrelasie. Sodoende stel dit inligting beskikbaar wat dikwels gedurende suiwer paleontologiese studies oor die paleo-ekologie of paleo-omgewing van die fauna verlore sou gaan of geignoreer sou word. Die sistematiese verwantskappe wat hier bespreek word dien ook om die paleobiogeografiese ooreenkomste tussen die Gondwana-kontinente te versterk.
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Horton, Tammy. "Genus Ceratothoa in wild and farmed fish : taxonomy, ecology and pathology." Thesis, University of Reading, 2001. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.391353.

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Fitzcharles, Elaine M. "Genetic diversity of Antarctic fish." Thesis, University of St Andrews, 2015. http://hdl.handle.net/10023/6860.

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Correct species identification is fundamental to all areas of biology, but particularly the policy related areas of conservation and fisheries management. To enable guidelines to be developed for environmental management and conservation, such identifications need links to studies of the evolutionary history, biological factors and environmental influences driving species divergence and population dynamics for the target species. This study concerns two genera of gadiform fish, Muraenolepis and Macrourus, found in southern temperate and Antarctic waters, with a single species, Macrourus berglax, present in the North Atlantic. With similar distribution patterns to toothfish species, Dissostichus eleginoides and D. mawsoni, they are a major food source and by-catch of the toothfish fishery. Both are slow growing and long lived, with different evolutionary histories, life expectancies and strategies for reproduction. For both genera, the accuracy of morphological keys, number of described species and their distribution is under debate. This study has identified specimens to species level using both morphological and genetic techniques, redefining the range for morphological features and taxonomic keys. For Muraenolepis, this has clarified confusion over Mu. marmoratus and Mu. microps being a single species, confirmed some mis-identification from sexual dimorphism and provided genetic evidence for the recently described species Mu. evseenkoi. For Macrourus, this work has identified a new species, now named Ma. caml, and found that Ma. holotrachys and Ma. berglax are genetically identical, raising the question of bipolar distribution or recent divergence. The low level of genetic variation within both species suggests a recent evolution and expansion into Antarctic waters. Similar geographic species limits imply common processes influencing divergence, with the oceanographic fronts as potential barriers. Further investigation of niche overlap and fine scale population structure are required to fully understand the processes driving speciation and provide the underlying data required for fisheries management.
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Hutchings, Kenneth. "Taxonomy, biology and management of South African sciaenid fish of the genus Umbrina." Doctoral thesis, University of Cape Town, 2005. http://hdl.handle.net/11427/6704.

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This research was initiated in 2001 with the overall objective of providing scientific information relevant to the sustainable management of South African Umbrina species. Previously there was confusion over the identity and distribution of Umbrina species in South African waters and very little was known of their life histories, population dynamics and stock status. Morphological comparison of a large number of South African Umbrina (n = 369) with specimens from the type locality (Canary Islands) confirmed the identity of South African U canariensis Valenciennes, 1843, and allowed for an expanded description of the species. However, differences between specimens of U ronchus Valenciennes, 1843 and those of the second South African species, lead to the resurrection of U robinson; Gilchrist and Thompson 1908, as a valid name for this species. Spatial analysis of South African specimens collected with a variety of gear revealed U robinsoni to be a shallow water species found from the surf-zone to 40 m depth that is targeted by recreational shore anglers and spear fishers, whilst U canariensis occurs predominantly from 40-100m depth and is predominately landed as a by-catch in the inshore trawl fishery. Although both species occur throughout the South African eastern seaboard, U canariensis is most common west of the Kei River, where the continental shelf is wider.
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Bertaco, Vinicius de Araújo. "Taxonomy and phylogeny of the neotropical fish genus Hemibrycon Günther, 1864 (Ostariophysi: Characiformes: Characidae)." Pontifícia Universidade Católica do Rio Grande do Sul, 2008. http://hdl.handle.net/10923/5371.

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The species of the genus Hemibrycon Günther (1864) are reviewed and redescribed based on their type series and additional specimens. Hemibrycon is hypothesized to be monophyletic and related to Clade A genera sensu Malabarba & Weitzman (2003) based on the analysis of 123 characters including 45 taxa. A total of 21 species are recognized in Hemibrycon, including five new species. Hemibrycon n. sp. 1 from the upper río Ucayali drainage, Peru; Hemibrycon n. sp. 2 from small rivers of the Caribbean Sea coastal drainages of Colombia; Hemibrycon n. sp. 3 and Hemibrycon n. sp. 4 from the middle río Magdalena basin, Colombia, and Hemibrycon n. sp. 5 from the upper río Madre de Dios, Peru. These species are distinguished among themselves mainly in the color pattern and number of branched anal-fin rays, lateral line scales, and maxillary teeth. The known geographical distribution of the genus is enlarged reaching the lower rio Tocantins basin, Brazil, with the occurrence of H. surinamensis in this area, the first record of the species for that country. The taxonomic status of Bryconamericus decurrens and Hemibrycon orcesi is discussed. New synonymies are proposed for some species of Hemibrycon: H. coxeyi is a junior synonym of H. polyodon, H. carrilloi is a junior synonym of H. dariensis, and H. guppyi is a junior synonym of H. taeniurus. An identification key to the examined species of Hemibrycon is provided.
As espécies do gênero Hemibrycon Günther (1864) são revisadas e redescritas com base na análise do material tipo e exemplares adicionais. Hemibrycon é considerado monofilético e relacionado ao Clado A sensu Malabarba & Weitzman (2003) com base na análise de 123 caracteres e 45 táxons. No total, 21 espécies de Hemibrycon são reconhecidas, incluindo cinco novas espécies. Hemibrycon n. sp. 1 da bacia superior do río Ucayali, Peru; Hemibrycon n. sp. 2 de pequenos rios de drenagens costeiras do Mar do Caribe, Colômbia; Hemibrycon n. sp. 3 e Hemibrycon n. sp. 4 da porção média da bacia do río Magdalena, Colômbia, e Hemibrycon n. sp. 5 da bacia superior do río Madre de Dios, Peru. Estas espécies distinguem-se, principalmente, pelo padrão de colorido e número de raios ramificados da nadadeira anal, de escamas da linha lateral e de dentes no maxilar. A área de distribuição do gênero é ampliada para a bacia do baixo rio Tocantins, Brasil, com a ocorrência de H. surinamensis nessa bacia, sendo o primeiro registro da espécie para este país. A posição taxonômica de Bryconamericus decurrens e Hemibrycon orcesi é discutida. Novos sinônimos são propostos para algumas espécies de Hemibrycon: H. coxeyi é sinônimo júnior de H. polyodon, H. carrilloi é sinônimo júnior de H. dariensis e H. guppyi é sinônimo júnior de H. taeniurus. É fornecida uma chave de identificação para as espécies examinadas de Hemibrycon.
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Bertaco, Vinicius de Ara?jo. "Taxonomy and phylogeny of the neotropical fish genus Hemibrycon G?nther, 1864 (Ostariophysi: Characiformes: Characidae)." Pontif?cia Universidade Cat?lica do Rio Grande do Sul, 2008. http://tede2.pucrs.br/tede2/handle/tede/149.

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As esp?cies do g?nero Hemibrycon G?nther (1864) s?o revisadas e redescritas com base na an?lise do material tipo e exemplares adicionais. Hemibrycon ? considerado monofil?tico e relacionado ao Clado A sensu Malabarba & Weitzman (2003) com base na an?lise de 123 caracteres e 45 t?xons. No total, 21 esp?cies de Hemibrycon s?o reconhecidas, incluindo cinco novas esp?cies. Hemibrycon n. sp. 1 da bacia superior do r?o Ucayali, Peru; Hemibrycon n. sp. 2 de pequenos rios de drenagens costeiras do Mar do Caribe, Col?mbia; Hemibrycon n. sp. 3 e Hemibrycon n. sp. 4 da por??o m?dia da bacia do r?o Magdalena, Col?mbia, e Hemibrycon n. sp. 5 da bacia superior do r?o Madre de Dios, Peru. Estas esp?cies distinguem-se, principalmente, pelo padr?o de colorido e n?mero de raios ramificados da nadadeira anal, de escamas da linha lateral e de dentes no maxilar. A ?rea de distribui??o do g?nero ? ampliada para a bacia do baixo rio Tocantins, Brasil, com a ocorr?ncia de H. surinamensis nessa bacia, sendo o primeiro registro da esp?cie para este pa?s. A posi??o taxon?mica de Bryconamericus decurrens e Hemibrycon orcesi ? discutida. Novos sin?nimos s?o propostos para algumas esp?cies de Hemibrycon: H. coxeyi ? sin?nimo j?nior de H. polyodon, H. carrilloi ? sin?nimo j?nior de H. dariensis e H. guppyi ? sin?nimo j?nior de H. taeniurus. ? fornecida uma chave de identifica??o para as esp?cies examinadas de Hemibrycon.
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Books on the topic "Fish Taxonomy"

1

Gomon, Janet R. Taxonomy and distribution of the stomioid fish genus Eustomias (Melanostomiidae), II: Biradiostomias, new subgenus. City of Washington: Smithsonian Institution Press, 1985.

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Rachmatika, Ike. A First look at the fish species of the middle Mndanau: Taxonomy, ecology, vulnerability and importance. Bogor: Center for International Forestry Research, 2005.

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Fisheries Society of the British Isles. Symposium. Biochemical genetics and taxonomy of fish: The Fisheries Society ofthe British Isles Symposium, held at the Queen's University of Belfast, Northern Ireland 22-26 July 1991. London: Academic Press, 1991.

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Walsh, Stephen J. Guidelines for quality assurance and quality control of fish taxonomic data collected as part of the National Water-Quality Assessment Program. Raleigh, N.C: U.S. Dept. of the Interior, U.S. Geological Survey, 1998.

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Walsh, S. J. Guidelines for quality assurance and quality control of fish taxonomic data collected as part of the National Water-Quality Assessment Program. Raleigh, N.C: U.S. Dept. of the Interior, U.S. Geological Survey, 1998.

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Walsh, S. J. Guidelines for quality assurance and quality control of fish taxonomic data collected as part of the National Water-Quality Assessment Program. Raleigh, N.C: U.S. Dept. of the Interior, U.S. Geological Survey, 1998.

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Jennings, G. H. The fishes of the Indian Ocean: The 1998 classified taxonomic checklist : a classified taxonomic checklist of over 1,850 species currently recorded on the Calypso icthyological database of marine & estuarine fish from the Northern, Central and Western Indian Ocean, excluding Australasia, Arabia and the Red Sea. London: Calypso, 1997.

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Jayaram, K. C. Fundamentals of Fish Taxonomy. Narendra Publishing House, 2002.

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Kreir, Julius. Taxonomy, Kinetoplastids, and Flagellates of Fish. Elsevier Science & Technology Books, 2012.

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Borgen, Ulf J., and Hans A. Nakrem. Morphology, Phylogeny and Taxonomy of Osteolepiform Fish. Wiley & Sons, Limited, John, 2016.

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Book chapters on the topic "Fish Taxonomy"

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Lillywhite, Kirt, and Dah-Jye Lee. "Automated Fish Taxonomy Using Evolution-COnstructed Features." In Advances in Visual Computing, 541–50. Berlin, Heidelberg: Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-24028-7_50.

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Matsuura, Keiichi. "Capacity Building for Fish Taxonomy in Southeast Asia." In The Biodiversity Observation Network in the Asia-Pacific Region, 459–68. Tokyo: Springer Japan, 2012. http://dx.doi.org/10.1007/978-4-431-54032-8_31.

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Sachithanandam, V., and P. M. Mohan. "A Review on DNA Barcoding on Fish Taxonomy in India." In DNA Barcoding and Molecular Phylogeny, 153–75. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-50075-7_10.

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Sachithanandam, V., and P. M. Mohan. "A Review on DNA Barcoding on Fish Taxonomy in India." In DNA Barcoding and Molecular Phylogeny, 259–80. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-90680-5_16.

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Argyriou, Thodoris. "The Fossil Record of Ray-Finned Fishes (Actinopterygii) in Greece." In Fossil Vertebrates of Greece Vol. 1, 91–142. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-68398-6_4.

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AbstractThe nowadays hyper-diverse clade of Actinopterygii (ray-finned bony fishes) is characterized by a long evolutionary history and an extremely rich global fossil record. This work builds upon 170 years of research on the fossil record of this clade in Greece. The taxonomy and spatiotemporal distribution of the ray-finned fish record of Greece are critically revisited and placed in an updated systematic and stratigraphic framework, while some new fossil data and interpretations are also provided. Greece hosts diverse ray-finned fish assemblages, which range in age from Lower Jurassic to Quaternary. Most known assemblages are of Miocene–Pliocene age and of marine affinities. A minimum of 32 families, followed by at least 34 genera and 22 species, have been recognized in Greece. From originally two named genera and seven species, only two fossil species, established on Greek material, are accepted as valid. Additional taxonomic diversity is anticipated, pending detailed investigations. From a taxonomic perspective, previous knowledge lies on preliminary or authoritative assessments of fossils, with many decades-old treatments needing revision. Little is known about Mesozoic–early Cenozoic occurrences or freshwater assemblages. Given the proven potential of the Greek fossil record, this chapter stresses the need for additional exploration and the establishment of permanent, curated collections of fossil fishes in Greek institutions. Directions for future research are discussed.
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Rojas, Pablo, Sergio A. Castro, Irma Vila, Evelyn Habit, and Fabián M. Jaksic. "Taxonomic Homogenization of the Freshwater Fish Fauna in Chile: Analyzing the Ichthyogeographic Provinces." In Biological Invasions in the South American Anthropocene, 301–19. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-56379-0_13.

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Resende, Tales Carvalho, and Avenir Geradine Meikengang. "Regional cooperation for the conservation of biodiversity in the Congo Basin forests: Feedback on actions carried out in the TRIDOM-TNS landscapes." In Managing Transnational UNESCO World Heritage sites in Africa, 135–45. Cham: Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-030-80910-2_12.

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AbstractBiodiversity does not adhere to political boundaries. Globally, more than 50% of all terrestrial species have a range that crosses an international border. This includes more than 50% of all mammals, 25% of all amphibians and almost 70% of all birds. Of the threatened species, over 20% had a transboundary range (Mason et al., 2020). Covering a total area of more than 1.5 million km2 in six Central African countries (Cameroon, Gabon, Equatorial Guinea, Central African Republic, Republic of Congo and Democratic Republic of Congo), the so-called Congo Basin forests are the second largest tropical forest in the world after the Amazon Basin. They form the most diverse assemblage of plants and animals in Africa, and are home to some 10,000 species of plants, 1,000 birds, 700 fish and 400 mammals, including many iconic species such as forest elephants, lowland gorillas and chimpanzees. Currently, almost 15% of the total forest area of the Congo Basin has protected area status. The management of these protected areas is now based on a new paradigm: the landscape conservation approach. Twelve landscapes have been identified as priorities in the Congo Basin because of their relative taxonomic importance, overall integrity, and the resilience of the ecological processes they represent. Among these landscapes, the TRIDOM (Trinational Dja-Odzala-Minkébé) (Cameroon, Congo and Gabon) and TNS (Trinational Sangha) (Cameroon, Congo and Central African Republic) stand out as hosting the majority of the last remaining forest elephants, lowland gorillas and chimpanzees in Central Africa. The presence of four of the eight natural World Heritage sites in the Congo Basin forests testifies to the exceptional importance of these two contiguous transboundary landscapes. This article will review the evolution of regional cooperation for the conservation of biodiversity in the Congo Basin forests by providing feedback on actions carried out in the TRIDOM and TNS landscapes.
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"Cutthroat Trout: Evolutionary Biology and Taxonomy." In Cutthroat Trout: Evolutionary Biology and Taxonomy, edited by Paul K. Link and Ernest R. Keeley. American Fisheries Society, 2018. http://dx.doi.org/10.47886/9781934874509.ch3.

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<em>Abstract</em>.—In the past 17 million years (myr), the topography and drainage systems of the northwestern United States were drastically modified by the Yellowstone–Snake River Plain (YSRP) hotspot and associated east–west extension of the Basin and Range Province. These geologic changes influenced distribution and diversification of Cutthroat Trout <em>Oncorhynchus clarkii</em> and allowed connections between Snake River, Colorado River, and Great Basin fish populations beginning in the late Miocene. Studies of detrital zircon grains in Miocene to Holocene fluvial sands of the Snake River document the eastward migration of the regional drainage divide from central Idaho to northwestern Wyoming. This migration was concomitant with the southwest migration of the North American tectonic plate over the YSRP hotspot. In the late Miocene and Pliocene, since 10 million years before present (Ma), the Chalk Hills and Glenns Ferry lake systems formed on the western Snake River Plain and were hosts to diverse fish fauna. The modern Snake River formed after 3 Ma with the cutting of Hells Canyon and integration of the Snake and Columbia River drainage. In the Great Basin south of the Snake River watershed, Lake Lahontan has a history that goes back to the Miocene. Connections between the western Snake River Plain and the Great Basin were recurrent over the past 10 myr. In southeastern Idaho, the Bear River has had a complex drainage interaction with the Snake River and Bonneville watersheds. Lake Bonneville, in northern Utah, grew during Pleistocene glacial climate regimes. The modern Bear River connection to Lake Bonneville was initiated about 50,000 years before the present. The integration of the Green River with the Colorado River occurred in the late Miocene, developing after breaking of Eocene connections between the Green River and streams draining to the Atlantic Ocean. In sum, geological constraints are compatible with patterns of fish fossils and genetic linkages and identify mechanisms of colonization and isolation of fish populations that have resulted in regional diversification of Cutthroat Trout.
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"Salmon Species and Life Cycles." In Physiological Aspects of Imprinting and Homing Migration in Salmon, 1–19. IGI Global, 2020. http://dx.doi.org/10.4018/978-1-7998-2054-3.ch001.

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Salmon are very interesting fish with complicated life cycles. They are born and die in freshwater but can live in both freshwater and seawater and migrate between rivers and oceans. Salmon previously inhabited only cold-water regions of the Northern Hemisphere but have been transplanted to the Southern Hemisphere and are now distributed around the world, and these fish have an amazing ability to imprint and precisely home to their natal stream. This chapter describes the terminology and taxonomy of salmon and related species associated with their phylogenetic evolution, the salmon species found around the world, the life cycles of Pacific salmon with special reference to imprinting and homing migration, the migration of other important migratory fish species, and the impact of climate change on migratory fish.
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"Cutthroat Trout: Evolutionary Biology and Taxonomy." In Cutthroat Trout: Evolutionary Biology and Taxonomy, edited by Michael K. Young, Kevin S. McKelvey, Tara Jennings, Katie Carter, Richard Cronn, Ernest R. Keeley, Janet L. Loxterman, Kristine L. Pilgrim, and Michael K. Schwartz. American Fisheries Society, 2018. http://dx.doi.org/10.47886/9781934874509.ch11.

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<em>Abstract</em>.—Identifying units of conservation of aquatic species is fundamental to informed natural resources science and management. We used a combination of mitochondrial and nuclear molecular methods to identify potential units of conservation of Westslope Cutthroat Trout <em>Oncorhynchus clarkii lewisi</em>, a taxon native to montane river basins of the northwestern United States and southwestern Canada. Mitogenomic sequencing identified two major lineages composed of nine monophyletic clades, and a well-supported subclade within one of these, largely delineated by river basins. Analyses of microsatellites and single nucleotide polymorphisms corroborated most of these groupings, sometimes with less resolution but demonstrating more complex connections among clades. The mitochondrial and nuclear analyses revealed that Pleistocene glacial cycles profoundly influenced the distribution and divergence of Westslope Cutthroat Trout, that this taxon crossed the Continental Divide in two separate events, and that genetically pure but nonindigenous fish were widely distributed. Herein, we recognize nine geographically discrete, cytonuclear lineages largely circumscribed by major river basins as potential units of conservation: (1) John Day; (2) Coeur d’Alene; (3) St. Joe; (4) North Fork Clearwater; (5) Salmon; (6) Clearwater headwaters; (7) Clearwater–eastern Cascades; (8) neoboreal, consisting of most of the Columbia upstream from central Washington, the Fraser in British Columbia, and the South Saskatchewan in Alberta; and (9) Missouri.
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Conference papers on the topic "Fish Taxonomy"

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Chen, Yixin, Henry L. Bart, and Fei Teng. "A content-based image retrieval system for fish taxonomy." In the 7th ACM SIGMM international workshop. New York, New York, USA: ACM Press, 2005. http://dx.doi.org/10.1145/1101826.1101864.

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Chen, Huimin, Shuqing Huang, and Henry Bart. "Taxonomy in Fish Species Complexes: A Role for Multimedia Information." In 2006 IEEE Workshop on Multimedia Signal Processing. IEEE, 2006. http://dx.doi.org/10.1109/mmsp.2006.285354.

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Doolittle, Daniel, Eric Swanson, Craig Scherschel, Eugene Revelas, Kathryn Rovang, and Stephen Varnell. "Integrated and Adaptable Approach to Mapping Benthic Habitats to Support Offshore Wind Development off the Mid-Atlantic Outer Continental Shelf." In Offshore Technology Conference. OTC, 2023. http://dx.doi.org/10.4043/32390-ms.

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Abstract Offshore wind developers obtain extensive geophysical, geotechnical, and habitat data during Site Characterization activities. Integration and delivery of this information to a diverse group of stakeholders and Government agencies is required. We present an integrated benthic habitat mapping approach tailored to regional geology and ground conditions and discuss how various data was utilized to deliver multiple components of the permitting process. Multiple data sets were integrated and presented via a web-based GIS platform to aid delivery, visualization, and communication. Our unified approach to benthic habitat mapping and delivery of products to stakeholders was instrumental in successfully coalescing multiple performers to develop their individual deliverables in a cohesive and rapid manner. This approach reduced risk to schedule and budget, without sacrificing data density or quality. Four annual (2019–2022) benthic surveys were acquired to support Site Characterization and subsequent permitting processes. High-Resolution Geophysical data were collected concomitantly with the 2020 benthic survey data and used to refine subsequent 2021 and 2022 benthic survey designs. Benthic survey data consisted of grab sample tests (grain size), macrofaunal taxonomy, sediment profile and plan view imagery (SPI-PV), video imagery from each grab station, and towed video transects. Acoustic data products were processed and interpreted to create polygons of seafloor sediment coverage over the ASOW study area and ground-truthed with physical sampling, video, and digital still imagery to refine and validate acoustic data into a mappable model of essential fish and benthic habitats. Seafloor morphology and seabed sediment interpretations were coalesced into a benthic habitat model that displayed substrates consisting mostly of mobile sand sheets, with interspersed areas of gravelly sand and discrete patches of gravel. Overlying the substrate model was a range of benthic features and morphologies, including sand ridges, sand waves, megaripples, ripples, areas of depressional marks, hummocky seafloor, interbedded surficial sediments, irregular seafloor, and localized relief features. From these data, classified maps of Coastal Marine Ecological Standard (CMECS) substrates and fish habitats were made. Additional CMECS classification of benthic biotic components were mapped, showing the taxonomic communities that are present in each substrate. Seabed sediment modeling and morphological trends were dynamically studied and compiled into an interpreted and GIS-friendly dataset that enabled rapid online transfer to subject matter experts tasked with quantifying the benthic ecosystem across the development area. The methods and modeling that were produced by expert refinement of geophysical data to reflect the physically observed habitat structures allowed for dynamic minimum mapping unit variability while also isolating and identifying key areas of interest for benthic researchers and regulators. This mapping process led to an efficient and unified approach for all teams, saving project time and expense.
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Ureche, Dorel, and Camelia Ureche. "Study of fish communities in the Siret river, and some tributaries (Bacau – Racaciuni section, 2012-2016)." In International symposium ”Functional ecology of animals” dedicated to the 70th anniversary from the birth of academician Ion Toderas. Institute of Zoology, Republic of Moldova, 2019. http://dx.doi.org/10.53937/9789975315975.84.

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The study was carried out in Bacau - Racaciuni section of Siret River, on the main course of the river and on some of its tributaries during the period 2012-2016. The aim of our research study was to assess the actual state of fish communities in the study area, and also to highlight significant changes in fish communities, based on the ecological analysis. The biological material was sampled by electrofishing from 16 sampling sites, and then it was determined and immediately released. The taxonomic analysis highlights the presence of 27 fish species, two of them being non-native: Psedorasbora parva, and Perccottus glenii. Some of the ecological indices were calculated, as well as biodiversity indices (Margalef, Menhinik, Shannon-Wiener), evenness (equitability), and fish stocks. The ecological analysis revealed some interesting aspects of fish communities’ structure and also of biodiversity.
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E.N., Kashinskaya, Simonov E.P., Vlasenko P.G., Shokurova A.V., and Solovyev M.M. "ANALYSIS OF MICROBIAL COMMUNITIES OF ECTOPARASITIC CRUSTACEANS (ARGULUS FOLIACEUS AND LERNAEA CYPRINACEA) - POTENTIAL VECTORS OF SECONDARY INFECTIONS IN FISH." In II INTERNATIONAL SCIENTIFIC AND PRACTICAL CONFERENCE "DEVELOPMENT AND MODERN PROBLEMS OF AQUACULTURE" ("AQUACULTURE 2022" CONFERENCE). DSTU-Print, 2022. http://dx.doi.org/10.23947/aquaculture.2022.62-63.

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In this work, we studied the taxonomic composition of bacterial communities of crustaceans of the genus Argulus and Lernaea parasitizing the skin mucosa of the Prussian carp Carassius gibelio. Our results demonstrate that the microbiota of ectoparasites can potentially act as a vector of secondary infections in fish. In gut of Argulus foliaceus the opportunistic pathogens were identified.
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Bulat, Denis, Dumitru Bulat, Marin Usatii, Nina Fulga, Oleg Crepis, Nicolae Saptefrati, and Rostislav Chelmenciuc. "Particularităţile ihtiofaunei în zona Amonte-Aval de barajul Dubăsari." In International symposium ”Functional ecology of animals” dedicated to the 70th anniversary from the birth of academician Ion Toderas. Institute of Zoology, Republic of Moldova, 2019. http://dx.doi.org/10.53937/9789975315975.72.

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The purpose of this paper is to analyze the taxonomic structure and ecological indices of the fish communities in two types of aquatic ecosystems separated by the Dubasari Dam. The carried out research revealed a richer specific diversity and significantly higher quantitative values of fishing communities in the downstream area of the hydro power plant. The decisive factor is the fragmentation of the Dniester River, causing the interruption of reproductive, trophic and winter migration of reobionticfish species.
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Semapala, G. D. C. H., and T. C. Sandanayake. "Taxonomic Identification of Sri Lankan Freshwater Fish based on Advanced Feature Extraction Techniques." In 2021 6th International Conference on Information Technology Research (ICITR). IEEE, 2021. http://dx.doi.org/10.1109/icitr54349.2021.9657278.

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Mazur, O. E. "NEW DATA ON THE INFECTION OF FISH WITH HEMOFLAGELLATES (PROTOZOA: KINETOPLASTEA) IN SOME WATER BODIES OF BURYATIA (EASTERN SIBERIA)." In THEORY AND PRACTICE OF PARASITIC DISEASE CONTROL. All-Russian Scientific Research Institute for Fundamental and Applied Parasitology of Animals and Plant – a branch of the Federal State Budget Scientific Institution “Federal Scientific Centre VIEV”, 2023. http://dx.doi.org/10.31016/978-5-6048555-6-0.2023.24.262-267.

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New data were received on infection with Kinetoplastida of the family Trypanosomatidae in fish of various taxonomic groups in lakes in the Republic of Buryatia (Eastern Siberia). Kinetoplastids of the genus Trypanosoma recorded in the river perch, common pike, sand sculpin, Siberian loach, crucian carp, and Siberian roach were characterized by the greatest host diversity. The roach (Gusinoe Lake) is recorded for the first time for the Baikal basin as a host for hemoflagellates of this genus. Blood parasites of the genus Trypanoplasma were found in 3 fish species: the pike, perch, and sand sculpin. A clear trend was noted for the increasing infection level in the perch and pike of Gusinoe Lake over a 40-year period. The dace, Amur carp, Amur catfish, burbot, Amur sleeper, and common minnow from Gusinoe Lake were free from blood parasites Trypanosoma sp. and Trypanoplasma sp. Kinetoplastids were not found in roaches from Tsaidam, Shchuchye, Torma, Kotokelskoe and Bolshoye Kicherskoe Lakes. The analysis showed no infection with kinetoplastids in the roach, dace, Baunt whitefish, humpback whitefish, Siberian cisco, perch, burbot, ruff, and pike in the reservoirs of the Baunt Lakes system (Bolshoe Kopylyushi Lake, Maloe Kopylyushi Lake, Baunt Lake, the Lena basin), and crucian carp in reservoirs Klyukvennaya Pad, Cheremukhovoye Lake and Nikitkino Lake (Baikal basin).
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Macrini, Thomas E., David Turner, Briana Ramirez, Harun Khan, Tatiana Marrone, and Samantha Perez. "TAXONOMIC AND PROVENANCE ANALYSIS OF A LEGACY COLLECTION OF FOSSIL FISH BONES FROM LIVE OAK COUNTY, TEXAS." In 51st Annual GSA South-Central Section Meeting - 2017. Geological Society of America, 2017. http://dx.doi.org/10.1130/abs/2017sc-289328.

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ZIELIŃSKA-SITKIEWICZ, Monika, and Mariola CHRZANOWSKA. "APPLICATION OF SYNTHETIC TAXONOMIC MEASURE TMAI FOR THE ASSESSMENT OF INVESTMENT ATTRACTIVENESS OF THE SELECTED FOOD INDUSTRY COMPANIES LISTED ON THE WARSAW STOCK EXCHANGE IN THE YEARS 2013 – 2016." In RURAL DEVELOPMENT. Aleksandras Stulginskis University, 2018. http://dx.doi.org/10.15544/rd.2017.161.

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The food sector is one of the most important and fastest growing branches of the Polish economy. It employs almost 15% of all employees employed in the industry. Polish manufacturers are characterised by high competitiveness both in the EU and in the world. The macroeconomic environment in recent years has been relatively stable for the development of the food industry production in Poland, but the dynamics of agricultural-food products has experienced a slight slowdown. There were also fluctuations in profitability ratios in the sector, which may have been somewhat alarming for the investors. The article attempted to evaluate the investment attractiveness of 24 joint stock companies in the food sector, representing various industries, listed on the Warsaw Stock Exchange. The Taxonomic Measure of the Attractiveness of Investments (TMAI) and the company rankings were created for the years 2013 – 2016. The results showed that the Wawel and Astarta companies were at the top of the rankings in the studied years, representing the confectionery and the sugar sector, and the Żywiec company from the beer industry. The meat and fish processing companies were more or less centred on the scale. The companies KSG Argo, Milkiland, Wilbo, Pepees and Pamapol involved in the agricultural-food production and processing received the poorest evaluations of the investment attractiveness. The synthetic taxonomic TMAI measure makes it possible to build company rankings within the analyzed group, from the point of view of the assessment of the financial condition and investment attractiveness of the surveyed companies. It can provide additional help in assessing the company’s situation, e.g., for the investors.
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Reports on the topic "Fish Taxonomy"

1

Guidelines for quality assurance and quality control of fish taxonomic data collected as part of the National Water-Quality Assessment Program. US Geological Survey, 1998. http://dx.doi.org/10.3133/wri984239.

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