Your search keyword '"Barry C. Russell"' showing total 66 results

1. Mistaken by dots: Revealing the misidentification of Saurida lessepsianus (Actinopterygii: Aulopiformes: Synodontidae) along the west coast of India (eastern Arabian Sea)

Author

Susanthi Silpa, Murugesan Srihari, Annam Pavan-Kumar, Subal K. Roul, Barry C. Russell, and Ashok K. Jaiswar

Subjects

Aquaculture. Fisheries. Angling, SH1-691

Abstract

The presently reported study identified Saurida lessepsianus Russell, Golani et Tikochinski, 2015 from the west coast of India, which was earlier diagnosed as Saurida undosquamis (Richardson, 1848) due to their morphological similarities. Saurida lessepsianus is characterized by 48–51 lateral line scales, 44–47 vertebrae, 3–6 rows of teeth on tongue and anterior part of stomach black. The identity of this species was also confirmed by molecular examination (phylogenetic analysis of the COI sequences) and the study revealed a genetic divergence value of 0.08 between S. lessepsianus and S. undosquamis. Our study confirms the extended distribution of S. lessepsianus along the west coast of India (eastern Arabian Sea) from the Red Sea-Mediterranean Sea.

Published

2021

2. Deep genetic divergence in Randall’s threadfin bream Nemipterus randalli Russell, 1986 population from northern Bay of Bengal inferred by mtDNA sequences

Author

Murugesan SriHari, Annam Pavan-Kumar, Barry C. Russell, Daniel Golani, Zeba Jaffer Abidi, and Loveson Edward

Subjects

Aquatic Science, Oceanography, Ecology, Evolution, Behavior and Systematics

Published

2022

3. Grunts (Actinopterygii: Perciformes: Haemulidae) of Bangladesh with two new distributional records from the northern Bay of Bengal assessed by morphometric characters and DNA barcoding

Author

Najmun Nahar, Barry C. Russell, Kazi Ahsan Habib, Amit Kumer Neogi, Jayedul Islam, and Mohammad Rashed

Subjects

Bangladesh, COI barcoding gene, biology, Haemulidae, Actinopterygii, SH1-691, Zoology, Morphology (biology), Sundarbans, Aquatic Science, biology.organism_classification, DNA barcoding, Perciformes, morphology, BENGAL, Aquaculture. Fisheries. Angling, Bay, Saint Martin’s Island

Abstract

Grunts (family Haemulidae) are among the most commercially important fish in Bangladesh. This paper provides brief diagnostic characters of five previously reported grunt species: Plectorhinchus pictus (Thunberg, 1792); Pomadasys andamanensis McKay et Satapoomin, 1994; Pomadasys argenteus (Forsskål, 1775); Pomadasys argyreus (Valenciennes, 1833); Pomadasys maculatus (Bloch, 1793) and two new distributional records: Pomadasys guoraca (Cuvier, 1829) and Plectorhinchus macrospilus Satapoomin et Randall, 2000. The fishes were collected from the Saint Martin’s Island coral reef-like ecosystem and the adjacent sea of the Sundarbans mangrove forest of Bangladesh. The examined specimens were identified and diagnosed based on their morphometric characters and DNA barcoding COI gene. The new records of Pomadasys guoraca and Plectorhinchus macrospilus from Bangladesh greatly extend their distributional range in the Bay of Bengal. An updated checklist of grunts of Bangladesh is provided.

Published

2021

4. Saurida fortis, a new species of lizardfish (Aulopiformes: Synodontidae) from the northwestern Pacific Ocean

Author

Ryusei Furuhashi, Barry C. Russell, and Hiroyuki Motomura

Subjects

Ecology, Evolution, Behavior and Systematics

Published

2022

5. Mistaken by dots: Revealing the misidentification of Saurida lessepsianus (Actinopterygii: Aulopiformes: Synodontidae) along the west coast of India (eastern Arabian Sea)

Author

A. Pavan-Kumar, Ashok Kumar Jaiswar, Murugesan SriHari, Barry C. Russell, Susanthi Silpa, and Subal Kumar Roul

Subjects

0106 biological sciences, biology, 010607 zoology, Actinopterygii, SH1-691, Zoology, Synodontidae, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, DNA barcoding, Genetic divergence, Geography, Saurida, Aulopiformes, Aquaculture. Fisheries. Angling, West coast, Saurida lessepsianus

Abstract

The presently reported study identified Saurida lessepsianus Russell, Golani et Tikochinski, 2015 from the west coast of India, which was earlier diagnosed as Saurida undosquamis (Richardson, 1848) due to their morphological similarities. Saurida lessepsianus is characterized by 48–51 lateral line scales, 44–47 vertebrae, 3–6 rows of teeth on tongue and anterior part of stomach black. The identity of this species was also confirmed by molecular examination (phylogenetic analysis of the COI sequences) and the study revealed a genetic divergence value of 0.08 between S. lessepsianus and S. undosquamis. Our study confirms the extended distribution of S. lessepsianus along the west coast of India (eastern Arabian Sea) from the Red Sea-Mediterranean Sea.

Published

2021

6. The taxonomic identity of the monocle bream Scolopsis vosmeri species complex (Perciformes: Nemipteridae), with comments on molecular phylogenetic relationships within the genus Scolopsis

Author

BARRY C. RUSSELL, SERGEY V. BOGORODSKY, AHMAD O. MAL, K.K. BINEESH, and TILMAN J. ALPERMANN

Subjects

Actinopterygii, Nemipteridae, Fishes, Animalia, Animals, Animal Science and Zoology, Biodiversity, Chordata, Ecology, Evolution, Behavior and Systematics, Phylogeny, Taxonomy, Perciformes

Abstract

The monocle bream Scolopsis vosmeri species complex is revised. Three species in the complex are recognized: Scolopsis vosmeri (Bloch, 1792), widespread in the Indo-West Pacific, from the northern Indian Ocean (Pakistan, western India, Sri Lanka, Bay of Bengal, and the Andaman Sea, but not recorded from the Red Sea or Arabian Gulf, east African coast or Madagascar) to western Indonesia and Borneo; S. japonica (Bloch, 1793), restricted to the western Pacific Ocean from western Indonesia and north-western Australia east to the Philippines and north to southern Japan; and S. curite Cuvier, 1815, widespread from the western to the eastern Indian Ocean, including the Red Sea and Arabian Gulf. All three species are similar morphologically, and have been confused taxonomically, but phylogenetic analysis of the COI barcoding region shows they are evolutionarily divergent. The three species are redescribed in detail and characters found to distinguish them. Scolopsis vosmeri is easily distinguished from S. japonica and S. curite in having a white band along the side of the body; having a black spot on most body scales (versus greenish yellow spot in S. japonica and S. curite); in lacking a distinct black spot (sometimes a small and faint spot present) on the upper pectoral-fin base (versus small black wedge-shaped spot present in S. japonica and S. curite); caudal peduncle whitish in live individuals (versus caudal peduncle usually yellowish in S. japonica and S. curite); and pelvic and anal fins crimson to orange-red (versus yellow in S. japonica and S. curite). Scolopsis japonica and S. curite are indistinguishable by color pattern but differ in the degree of spination on the preopercular margin. Neotypes are designated for Scolopsis japonica and S. curite. Nomenclatural problems, including validity of the genus Scolopsis, are discussed. We regard Scolopsis curite Cuvier, 1815 as a valid binomial name and thus the type species of Scolopsis Cuvier, 1814 by subsequent monotypy.

Published

2022

7. Development of a Filament on the Lower Lobe of the Caudal Fin of the Lessepsian Migrant Fish Nemipterus randalli (Actinopterygii: Clupeiformes: Nemipteridae)

Author

Umut Uyan, Ali Serhan Tarkan, Barry C. Russell, Murat Çelik, and Halit Filiz

Subjects

biology, Immunology, Fish fin, Actinopterygii, Clupeiformes, Zoology, Cell Biology, Phenotypic trait, Aquatic Science, biology.organism_classification, Nemipterus randalli, Sexual dimorphism, Endocrinology, Mediterranean sea, Insect Science, Genetics, Animal Science and Zoology, Bay, Ecology, Evolution, Behavior and Systematics

Abstract

Unusual development of a filamentous extension of the lower caudal-fin lobe was observed in eight male individuals of the Lessepsian migrant fish species Nemipterus randalli, collected from Gokova Bay, south-eastern Mediterranean Sea. It is suggested that this phenotypic trait is related to the highly successful invasion of this species in the eastern Mediterranean and may be associated with a shift towards either sexual dimorphism or a change in feeding behavior in a new environment.

Published

2021

8. F.L. de Castelnau’s collection of fishes from the Cape of Good Hope described by Pieter Bleeker

Author

Martien J.P. Van Oijen and Barry C. Russell

Subjects

Male, Cantharus, Lithognathus lithognathus, Seriola lalandi, biology, Fishes, Zoology, Clinus, biology.organism_classification, food.food, Perciformes, Valid name, food, Synonym (taxonomy), Genus, Animals, Clinus superciliosus, Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics

Abstract

The Dutch ichthyologist Pieter Bleeker described 34 species, including a new genus and five new species from a collection of fishes sent to him from the Cape of Good Hope by the French explorer, naturalist and diplomat, F.L. de Castelnau in 1858. A careful search of the Naturalis collection in Leiden found almost all the specimens received by Bleeker from Castelnau, including hitherto unrecognised types. Based on examination of this collection and a critical translation of Bleeker’s 1859 paper on the fishes of the Cape of Good Hope it has been possible to resolve the taxonomic status of Bleeker’s genus Pagrichthys (Pagrichthys castelnaui Bleeker, 1859, type by monotypy), previously considered a synonym of Sparus Linnaeus, 1758 but here regarded as a synonym of Lithognathus Swainson, 1839. The identity of the various species described by Bleeker, and type status of his new species are clarified: Cantharus castelnaui Bleeker, 1859 is a synonym of Pachymetopon blochii (Valenciennes, 1830); Pagrichthys castelnaui Bleeker, 1859 is a synonym of Lithognathus lithognathus (Cuvier, 1829); Seriola capensis Bleeker, 1859 (not previously recognised as a valid species) is a synonym of Seriola lalandi Valenciennes, 1833; Clinus dubuis Bleeker, 1859 (based on a misspelling of Castelnau’s ms name dubius) is a valid name, and a synonym of Clinus superciliosus (Linnaeus, 1758); and Clinus dorsalis Bleeker, 1859 is valid as Muraenoclinus dorsalis (Bleeker, 1859).

Published

2021

9. A new species of Nemipterus (Pisces: Nemipteridae) from the Western Indian Ocean

Author

BARRY C. RUSSELL and GAVIN GOUWS

Subjects

Actinopterygii, Nemipteridae, Fishes, Animalia, Animals, Animal Science and Zoology, Biodiversity, Chordata, Indian Ocean, Ecology, Evolution, Behavior and Systematics, Taxonomy, Perciformes

Abstract

A new species of threadfin bream, Nemipterus elaine, from the Western Indian Ocean is described. The new species is known so far only from off the coast of southern Mozambique, and appears most closely related morphologically and genetically to N. randalli Russell, 1986, but differs in having shorter pectoral and pelvic fins, and the upper caudal lobe produced to form a short, bright yellow filament (a long red trailing filament present in N. randalli). A key to the species of Nemipterus in the Western Indian Ocean is provided.

Published

2020

10. Three new species of the barracudina genus Lestidium (Aulopiformes: Paralepididae) from the Indo-West Pacific

Author

Ken Graham, Hsuan-Ching Ho, and Barry C. Russell

Subjects

Species complex, Pacific Ocean, Body proportions, Lestidium, Actinopterygii, biology, Fishes, Aulopiformes, Zoology, Biodiversity, biology.organism_classification, Pacific ocean, Barracudina, Paralepididae, Animals, Animalia, Animal Science and Zoology, Taxonomy (biology), Ichthyology, Chordata, Ecology, Evolution, Behavior and Systematics, Taxonomy

Abstract

Three new species of the genus Lestidium with complete lateral line are described from the Indo-west Pacific Ocean. Lestidium longilucifer sp. nov., from Western Australia and Taiwan, belongs to the Lestidium atlanticum species complex and can be separated from other congeners by having 41–43 prehaemal vertebrae, 85–88 total vertebrae and 126–146 total lateral-line scales; and body proportions. Lestidium australis sp. nov. from eastern Australia and Lestidium rofeni sp. nov. from Taiwan and the Philippines together with Lestidium prolixum form the L. prolixum species complex. These three species can be separated from each other by a combination of different fin positions, vertebral formula, number of lateral-line scales and pigmentation.

Published

2020

11. Review of the Stemonosudis rothschildi species complex, with descriptions of two new species from the Indo-west Pacific Ocean (Aulopiformes: Paralepididae)

Author

Peter N. Psomadakis, Hsuan-Ching Ho, Barry C. Russell, and Ken Graham

Subjects

Teleostei, Species complex, Pacific Ocean, biology, Actinopterygii, Fish fin, Aulopiformes, Zoology, Biodiversity, biology.organism_classification, Dorsal fin, Perciformes, Paralepididae, Animals, Animalia, Animal Science and Zoology, Taxonomy (biology), Ichthyology, Chordata, Animal Distribution, Ecology, Evolution, Behavior and Systematics, Taxonomy

Abstract

Three barracudina species are recognized in the Stemonosudis rothschildi species complex, which includes Stemonosudis rothschildi Richards, 1967, and two new species described herein. Stemonosudis multifasciatus sp. nov. is described based on five specimens collected off northwestern Australia and Myanmar, Eastern Indian Ocean. It is characterized by having 16 brownish blotches on dorsum (10 before dorsal-fin origin); 49–51 caudal vertebrae; 93‒95 total vertebrae; dorsal-fin origin relatively forward in position, distance between origins of pelvic and dorsal fins 52.3‒63.0% of distance between origins of pelvic and anal fins; and combination of body proportions. Stemonosudis retrodorsalis sp. nov. is described based on 15 specimens collected from off the Philippines, Indonesia and northwestern Australia. It is characterized by having dorsal-fin origin at about vertical through anal-fin origin, insertion of anal fin relatively forward, preanal length 71.5‒79.5% SL; 6 blotches on dorsum before DFO and 4 on abdominal ridge before VFO and unique combination of body proportions. A redescription of S. rothschildi, based on specimens collected from off Dongsha (Pratas) Islands, Australia and West Indies, is also included.

Published

2019

12. Molecular systematics of threadfin breams and relatives (Teleostei, Nemipteridae)

Author

Wei-Jen Chen, Kuo-Wei Hung, and Barry C. Russell

Subjects

0106 biological sciences, 0301 basic medicine, Teleostei, biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Fishery, 03 medical and health sciences, 030104 developmental biology, Molecular phylogenetics, Genetics, Animal Science and Zoology, Threadfin, Molecular Biology, Ecology, Evolution, Behavior and Systematics

Published

2017

13. The status of marine biodiversity in the Eastern Central Atlantic (West and Central Africa)

Author

Mia T. Comeros-Raynal, Rachel Arnold, Kenyon C. Lindeman, Thomas A. Munroe, Vanda Monteiro, William F. Smith-Vaniz, C. Sayer, Heather Harwell, Michael S. Harvey, Jean-Christophe Vié, Mor Sylla, Christi Linardich, Khairdine Mohamed Abdallahi Camara, Ofer Gon, Luis Tito de Morais, Kent E. Carpenter, Godefroy De Bruyne, Kyle Strongin, Jack R. Buchanan, Antony S. Harold, Percy Alexander Hulley, Caroline M. Pollock, Beth Polidoro, Gina M. Ralph, Emilie Stump, Akanbi Williams, Steen Wilhelm Knudsen, Barry C. Russell, Jean de Dieu Lewembe, Aboubacar Sidibe, Stuart G. Poss, Tomio Iwamoto, Bruce B. Collette, and Francis K. E. Nunoo

Subjects

0106 biological sciences, Pollution, Ecology, 010604 marine biology & hydrobiology, media_common.quotation_subject, Fishing, Central africa, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, Marine biodiversity, Fishery, Geography, Urban planning, IUCN Red List, %22">Fish , Nature and Landscape Conservation, media_common, Invertebrate

Published

2017

14. Checklist of the marine and estuarine fishes of New Ireland Province, Papua New Guinea, western Pacific Ocean, with 810 new records

Author

Ronald Fricke, Barry C. Russell, Gerald R. Allen, Dean Tully, Ralph Mana, Dietmar Amon, Wei-Jen Chen, Jeff Kinch, William T. White, and Serge Andréfouët

Subjects

Pacific Ocean, biology, Centriscidae, new records, fishes, biology.organism_classification, Zenionidae, Apogonidae, Perciformes, Fishery, Ambassidae, Papua New Guinea, Eleotridae, endemism, Lutjanidae, distribution, Animals, Animal Science and Zoology, New Ireland, Lethrinidae, Draconettidae, checklist, Ecosystem, Ecology, Evolution, Behavior and Systematics

Abstract

A checklist of the marine and estuarine fishes of New Ireland Province is presented, with special emphasis on Kavieng District, combining both previous and new records. After the recent KAVIENG 2014 expedition, a total of 1325 species in 153 families were recorded from the region. The largest families are the Gobiidae, Pomacentridae, Labridae, Serranidae, Apogonidae, Lutjanidae, Chaetodontidae, Blenniidae, Carangidae, Acanthuridae, Scaridae, Holocentridae, Syn-gnathidae, Lethrinidae and Scorpaenidae. A total of 810 fish species (61.1 % of the total marine and estuarine fish fauna) are recorded from New Ireland for the first time.The fish fauna of New Ireland includes 142 species in transitional waters and 1264 species in marine habitats, and 54 species species in freshwater habitats. Zoogeographically, 1179 species have a wide distribution range, most frequently a broad Indo-West Pacific distribution. Among the remaining species, just 12 are endemic to New Ireland.

Published

2019

15. Redescription of Anthias xanthomaculatus Fourmanoir and Rivaton, and its reassignment in the genus Odontanthias Bleeker (Teleostei: Serranidae: Anthiadinae)

Author

Barry C. Russell and Anthony C. Gill

Subjects

Teleostei, Actinopterygii, biology, Serranidae, Holotype, Zoology, Biodiversity, biology.organism_classification, Perciformes, Odontanthias, Animalia, Animals, Animal Science and Zoology, Ichthyology, Taxonomy (biology), Bass, Chordata, Ecology, Evolution, Behavior and Systematics, Meristics, Taxonomy

Abstract

Anthias xanthomaculatus is redescribed from re-examination of the holotype. On the basis of fin shape, meristic details and presence of two closely spaced supraneural bones, it is assigned to the genus Odontanthias Bleeker. It is compared with known Odontanthias species, and shown to be a valid species of the genus and a possible senior synonym of O. grahami Randall & Heemstra. Comparative data for the holotype and three non-type specimens of O. grahami are provided.

Published

2019

16. Scolopsis igcarensis Mishra, Biswas, Russell, Satpathy & Selvanayagam, 2013, a junior synonym of S. vosmeri (Bloch, 1792) (Perciformes: Nemipteridae)

Author

Barry C. Russell, Mohammad Eusuf Hasan, Jean-Dominique Durand, MARine Biodiversity Exploitation and Conservation (UMR MARBEC), Institut de Recherche pour le Développement (IRD)-Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), and Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM)-Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)-Institut de Recherche pour le Développement (IRD)

Subjects

0106 biological sciences, Species complex, Nemipteridae, 010607 zoology, Zoology, India, Scolopsis vosmeri, 010603 evolutionary biology, 01 natural sciences, Perciformes, Scolopsis, Synonymy, COI, taxonomy, [SDV.EE.ECO]Life Sciences [q-bio]/Ecology, environment/Ecosystems, morphology, Animalia, Animals, 14. Life underwater, Chordata, Ecology, Evolution, Behavior and Systematics, Phylogeny, molecular phylogeny, Sri Lanka, Bangladesh, Actinopterygii, Phylogenetic tree, biology, phenotypes, Biodiversity, biology.organism_classification, coi, Molecular phylogenetics, Animal Science and Zoology, Taxonomy (biology), Sri lanka, [SDE.BE]Environmental Sciences/Biodiversity and Ecology

Abstract

Scolopsis igcarensis Mishra, Biswas, Russell, Satpathy & Selvanayagam, 2013 was described from specimens collected from coastal waters of southern India and Sri Lanka. A comparison of recently collected specimens from Bangladesh, initially identified as S. igcarensis, with Scolopsis vosmeri (Bloch, 1792) showed morphological differences between the two species are minor, and that specimens of S. igcarensis in fact represent juvenile and subadult colour forms of S. vosmeri. Underwater and aquarium observations, as well as molecular data based on the COI barcode region, support this conclusion. Accordingly, S. igcarensis is regarded as a junior synonym of S. vosmeri, which is redescribed herein. Phylogenetic analysis of COI barcodes of Scolopsis specimens produced in this study, together with those available from GenBank, indicate S. vosmeri is part of a species complex which includes two additional cryptic sister species that require further taxonomic investigation.

Published

2019

17. Key predictors of extinction risk in sea breams and porgies (Family: Sparidae)

Author

David Pollard, Angela M. Goodpaster, Mia T. Comeros-Raynal, Timothy C. MacDonald, Yukio Iwatsuki, Barry C. Russell, Bruce Q. Mann, Claire Gorman, Kent E. Carpenter, Colin D. Buxton, Beth Polidoro, and Jennifer Broatch

Subjects

0106 biological sciences, Data deficient, education.field_of_study, Extinction, Near-threatened species, Ecology, 010604 marine biology & hydrobiology, Population, Biology, 010603 evolutionary biology, 01 natural sciences, Red List Index, Habitat destruction, Threatened species, IUCN Red List, education, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Identification, understanding and prediction of the factors that drive species to heightened risk of extinction are important goals for conservation, especially since few areas on the planet remain unaffected by human activities. Global extinction risk assessments of an entire family of ecologically complex marine fishes (family: Sparidae), using the International Union for Conservation of Nature Red List process, showed that 8.6% (13 species) of sparids are threatened. Intense fishing pressure and habitat destruction are the main reasons for the observed population declines. A further 7.9% (12 species) are classified as Near Threatened. The majority of the sparids (69.5%) are assessed as Least Concern, and these tended to have smaller body sizes, more widespread distributions, and shorter life spans. The remaining 21 species (13.9%) are listed as Data Deficient. In addition to presenting the first global assessment of sparid extinction risk, a Random Forest model identified correlates of extinction risk in the Sparidae using 33 biological and threat variables. The model correctly classified up to 90% of Red List category placements and showed complex interactions between intrinsic and extrinsic predictors. Larger body size was the most important predictor of extinction risk. Sparids with greater maximum sizes, ages, and turnover rates are at higher extinction risk. Conversely, lower area of occupancy and depth limit confer elevated risk. This analysis adds to the growing body of predictive extinction risk models in marine fishes and presents an opportunity to identify and mitigate threats affecting similar groups of highly-valued and ecologically important marine fishes.

Published

2016

18. Molecular analysis of the recently described lizardfish Saurida lessepsianus (Synodontidae) from the Red Sea and the Mediterranean, with remarks on its phylogeny and genetic bottleneck effect

Author

Yossi Hyams, Daniel Golani, Barry C. Russell, Uzi Motro, and Yaron Tikochinski

Subjects

0106 biological sciences, Mediterranean climate, education.field_of_study, Lessepsian migration, Ecology, 010604 marine biology & hydrobiology, Population, Synodontidae, Aquatic Science, Biology, Oceanography, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Taxon, Population bottleneck, Saurida, Genetic variability, education, Ecology, Evolution, Behavior and Systematics

Abstract

The opening of the Suez Canal in 1869 led to a massive influx of Red Sea species that invaded the Mediterranean; this was termed ‘Lessepsian migration'. Among these species was a species of lizardfish, identified by some authors as Saurida undosquamis and by others as S. macrolepis. Recently, the Red Sea and the Mediterranean populations were described according to external characteristics as a unique taxon, Saurida lessepsianus. Our molecular study confirms this finding and determines that all previous records of S. undosquamis and S. macrolepis in the Red Sea and the Mediterranean are misidentifications of S. lessepsianus. The Mediterranean population of S. lessepsianus exhibits a lower genetic variability than that of the Red Sea population, suggesting a bottleneck effect.

Published

2016

19. Nemipterus andamanensis, a new nemipterid fish (Perciformes: Nemipteridae) from the Andaman Islands

Author

Barry C. Russell, K. K. Bineesh, and Kailash Chandra

Subjects

0301 basic medicine, Nemipteridae, Zoology, Perciformes, 03 medical and health sciences, Genus, Animals, Animalia, Chordata, Ecology, Evolution, Behavior and Systematics, Taxonomy, Islands, Actinopterygii, biology, Nemipterus, Fishes, Fish fin, Biodiversity, biology.organism_classification, Genetic divergence, 030104 developmental biology, Threadfin bream, %22">Fish , Mitochondrial cytochrome, Animal Science and Zoology

Abstract

A new species of threadfin bream, Nemipterus andamanensis n. sp. from the Andaman Islands is described and figured. N. andamanensis resembles N. marginatus (Valenciennes, 1830) in general body form and colour pattern, but differs from the latter by having four yellow stripes on the head region, upper lobe of caudal fin and filament yellow, and lower lobe of caudal fin pinkish. The mitochondrial cytochrome oxidase C subunit I (COI) gene sequence comparison with close species revealed that Nemipterus andamanensis n. sp. has distinct genetic divergence (8.5%) from Nemipterus marginatus and other species of the genus occurring in the area.

Published

2018

20. First record of Gauguin's blunt-nose lizardfish, Trachinocephalus gauguini Polanco, Acero & Betancur 2016 (Teleostei: Synodontidae) outside the Marquesas Archipelago

Author

Shih-Yu Wang, Barry C. Russell, Wei-Jen Chen, and Jhen-Nien Chen

Subjects

0106 biological sciences, food.ingredient, Tropical Deep-Sea Benthos, 010607 zoology, Trachinocephalus, Nose, Biology, 010603 evolutionary biology, 01 natural sciences, Pacific ocean, Molecular taxonomy, Papua New Guinea, food, Animals, Animalia, 14. Life underwater, Chordata, Molecular Taxonomy, Ecology, Evolution, Behavior and Systematics, Taxonomy, Islands, geography, Teleostei, Pacific Ocean, geography.geographical_feature_category, Actinopterygii, Aulopiformes, New guinea, Synodontidae, Biodiversity, biology.organism_classification, Archaeology, New record, Archipelago, Animal Science and Zoology, geographic locations

Abstract

Trachinocephalus gauguini Polanco, Acero & Betancur, 2016 was described based on eighteen specimens collected from off the Marquesas Islands, the only location where this species has been recorded until now. Through morphological and molecular examination of Trachinocephalus specimens collected from an exploratory cruise conducted in June 2014 under the Tropical Deep-Sea Benthos program along the northern coast of the New Ireland Province, Papua New Guinea, we demonstrate the presence of this species in Papua New Guinea waters. This new record suggests a wide distribution for this rarely collected species in the western Pacific Ocean.

Published

2018

21. F.L. de Castelnau’s Norman River fishes housed in the Macleay Museum, University of Sydney

Author

Barry C. Russell, Gary Nelson, and Anthony C. Gill

Subjects

Syntype, biology, Museums, Anchovia, Fishes, Zoology, biology.organism_classification, Engraulis, Type (biology), Rivers, Synonym (taxonomy), Genus, Animals, Animal Science and Zoology, Kurtus gulliveri, Ecology, Evolution, Behavior and Systematics, Thryssa

Abstract

Type specimens were located in the Macleay Museum for five species described by F.L. de Castelnau: Kurtus gulliveri (syntype), Pseudoambassis macleayi (lectotype and two paralectotypes), Pseudoambassis elongatus (lectotype and paralectotype), Acanthoperca gulliveri (syntype) and Engraulis nasutus (syntypes). The last-named is shown to be a senior subjective synonym of Anchovia aestuaria Ogibly 1910, and is referred to the genus Thryssa Cuvier 1829.

Published

2018

22. Validity of Psammoperca datnioides Richardson 1848 and redescriptions of P. waigiensis Cuvier in Cuvier & Valenciennes 1828 and Hypopterus macropterus (Günther 1859) in the family Latidae (Perciformes) from the Indo-West Pacific

Author

Yukio Iwatsuki, Barry C. Russell, Stephen J. Newman, and Fumiya Tanaka

Subjects

0106 biological sciences, 0301 basic medicine, biology, Centropomidae, Philippines, Australia, Fishes, Datnioides, Anatomy, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Perciformes, 03 medical and health sciences, 030104 developmental biology, Synonym (taxonomy), Genus, Latidae, Animals, Animal Science and Zoology, Type locality, Psammoperca waigiensis, Animal Distribution, Ecology, Evolution, Behavior and Systematics

Abstract

Psammoperca datnioides Richardson 1848, long considered a synonym of P. waigiensis (Cuvier in Cuvier & Valenciennes 1828), is redescribed as a valid species of Psammoperca Richardson 1848. The species is likely to be endemic to Australia, where it was formerly considered to be P. waigiensis, but differs from P. waigiensis in having the following characters: more slender body (mean depth 28.9% of SL vs. mean depth 36.7% of SL in P. waigiensis), pored lateral-line scales 49–54 (vs. 46–48 in P. waigiensis), scale rows above and below lateral line 6½ / 10½–11½ (vs 4½ / 9½–10½ in P. waigiensis), and vertical at hind margin of maxilla posterior/behind center of eye (vs. vertical at hind margin of maxilla anterior to/in front of hind margin of eye in P. waigiensis). Live specimens of Psammoperca datnioides have a uniformly dense black or brownish body, with this dark colour on body scales and pored lateral-line scales persisting even in preserved specimens. Live specimens of Psammoperca waigiensis have a brownish body, often golden in colour, and pored lateral-line scales that are yellow-edged. The COI sequence (cytochrome c oxidase subunit I, 612 bp) of P. datnioides also is distinct from P. waigiensis, and the related and poorly known Hypopterus macropterus (Günther 1859). The latter species is redescribed and diagnosed with eight indistinct dark bands on the head and body, and dorsal-fin rays VII-I, 14–15 (vs. no dark bands and dorsal-fin rays VII-I, 12–13 in Psammoperca). Nominal species in the genus Psammoperca are discussed and Cnidon chinensis Müller & Troschel 1849 (type locality: Manila, Philippines) is included as a junior synonym of P. waigiensis. Psammoperca vaigiensis Boulenger 1895 is an unneeded emendation and thus an invalid name. Psammoperca macroptera Günther 1859 is retained in the monotypic genus Hypopterus Gill 1861 in the family Latidae, although the species has been overlooked in most studies on the Latidae and/or Centropomidae. A key to the Latidae is provided.

Published

2018

23. A new species of Nemipterus (Perciformes: Nemipteridae) and first record of N. nematophorus (Bleeker) from Taiwan

Author

Barry C. Russell and Hsuan-Ching Ho

Subjects

0301 basic medicine, biology, Actinopterygii, Nemipterus, Taiwan, Nemipteridae, Biodiversity, biology.organism_classification, Perciformes, Nemipterus nematophorus, Dorsal fin, Fishery, 03 medical and health sciences, 030104 developmental biology, Indonesia, Threadfin bream, Key (lock), Animals, Animalia, Animal Science and Zoology, Chordata, Ecology, Evolution, Behavior and Systematics, Taxonomy

Abstract

A new species of threadfin bream, Nemipterus sugillatus, from Taiwan and Indonesia is described and figured. Nemipterus sugillatus n. sp. resembles N. virgatus (Houttuyn) in colour pattern but differs from the latter, notably in lacking a second yellow stripe along the base of the dorsal fin, and by the absence of a red spot at the origin of the lateral line. Nemipterus sugillatus n. sp. is also distinct from N. virgatus in having only 7 anal soft rays (versus 8) and in lacking a long trailing caudal filament. Nemipterus nematophorus Bleeker is reported for the first time from Taiwan. A key to the species of Nemipterus from Taiwan is provided.

Published

2017

24. Coherent Assessments of Europe’s Marine Fishes Show Regional Divergence and Megafauna Loss

Author

Beth Polidoro, Caroline M. Pollock, Michael S. Harvey, Jim R. Ellis, Christos D. Maravelias, Armelle B. J. Jung, Silvia García, Franz Uiblein, Pedro Afonso, Barry C. Russell, Helena Alvarez, Nicholas K. Dulvy, Gina M. Ralph, Matthew T. Craig, R. Pollom, João Manuel Delgado, Bruce B. Collette, Julia M. Lawson, Manuel Dureuil, Manuel Biscoito, David Pollard, Sophy R. McCully Phillips, Çetin Keskin, Marcelo Kovačić, Steen Wilhelm Knudsen, Paraskevas Vasilakopoulos, Edward D. Farrell, Rachel H.L. Walls, Fabrizio Serena, Sarah L. Fowler, Ana Nieto, Emilie Stump, Pascal Lorance, Kjell Harald Nedreaas, Alen Soldo, Luis Gil de Sola, Robin Cook, David Allen, Ann-Britt Florin, Kent E. Carpenter, Mariana García Criado, C. Papaconstantinou, Mia T. Comeros-Raynal, and Paul G. Fernandes

Subjects

0106 biological sciences, Marine conservation, Ecology, 010604 marine biology & hydrobiology, Biodiversity, Europe’s marine fishes, extinction risk, northeast atlantic, food security, life-history, body-size, populations, ecosystems, recovery, decline, growth, Regional Red List, Fish stock, 010603 evolutionary biology, 01 natural sciences, Fishery, Geography, 13. Climate action, Threatened species, IUCN Red List, Conservation status, 14. Life underwater, Conservation biology, SH, Ecology, Evolution, Behavior and Systematics

Abstract

Europe has a long tradition of exploiting marine fishes and is promoting marine economic activity through its Blue Growth strategy. This increase in anthropogenic pressure, along with climate change, threatens the biodiversity of fishes and food security. Here, we examine the conservation status of 1,020 species of European marine fishes and identify factors that contribute to their extinction risk. Large fish species (greater than 1.5 m total length) are most at risk; half of these are threatened with extinction, predominantly sharks, rays and sturgeons. This analysis was based on the latest International Union for Conservation of Nature (IUCN) European regional Red List of marine fishes, which was coherent with assessments of the status of fish stocks carried out independently by fisheries management agencies: no species classified by IUCN as threatened were considered sustainable by these agencies. A remarkable geographic divergence in stock status was also evident: in northern Europe, most stocks were not overfished, whereas in the Mediterranean Sea, almost all stocks were overfished. As Europe proceeds with its sustainable Blue Growth agenda, two main issues stand out as needing priority actions in relation to its marine fishes: the conservation of marine fish megafauna and the sustainability of Mediterranean fish stocks. Marine fishes exhibit high biodiversity 1,2 and have been culturally and nutritionally important throughout human history 3 . Europe, in particular, has a well-documented history of exploiting marine fish populations, written records of which commence in the classical works of ancient Greece. Although this historical exploitation has undoubtedly altered populations 4,5 and changed many seascapes 6 , marine defaunation in the region has not been as great as in terrestrial systems 7 . However, the use of ocean space and resources is increasing due to Europe’s Blue Growth strategy 8 , the nutritional requirements of an expanding human population are growing 9,10 and marine ecosystems will experience unusually rapid changes in future due to climate change 11,12 . Consequently there are imminent threats both to European marine biodiversity and fish resources 13 . It is important, therefore, to assess the threats of extinction to fish species and to ensure consistency in the management approach by the various agencies involved. We analysed data on the conservation status of 1,020 species of Europe’s marine fishes from the recent International Union for Conservation of Nature (IUCN) Red List assessments 14 to identify characteristics that make Europe’s fishes most susceptible to extinction risk. We then compared the Red List with 115 fish stock assessments (of 31 species) made by intergovernmental agencies charged with providing advice on the exploitation of commercial fishes. Previous comparisons of this sort applied criteria under various modelling assumptions 15,16, 17 or limited the comparison to biomass reference points 18 .

Published

2017

25. The conservation status of marine biodiversity of the Pacific Islands of Oceania

Author

Michael S. Harvey, Jean-Christophe Vié, Barry C. Russell, A. Lawrence, Heather Harwell, Jack R. Buchanan, Thomas A. Munroe, Helen K. Larson, Kent E. Carpenter, William F. Smith-Vaniz, Jeffrey T. Williams, R Myers, Christi Linardich, H. Pippard, Hiroyuki Motomura, D. W. Greenfield, R. R. Thaman, Gina M. Ralph, and Keiichi Matsuura

Subjects

Fishery, Marine biodiversity, Prioritization, Geography, geography.geographical_feature_category, Ecology, Biodiversity, Conservation status, IUCN Red List, Atoll, Regional Red List, Private sector

Abstract

The Pacific Islands of Oceania are small islands and atolls occurring over a vast expanse of ocean that are characterized by immense biodiversity and endemism. This project represents a major expansion of the coverage of the Pacific Islands’ marine biodiversity on the IUCN Red List of Threatened Species. The threats to Pacific Island marine biodiversity are many. Results from IUCN Red List initiatives such as this can guide decision-making and conservation prioritization of Pacific Island governments, non-governmental organizations (NGOs) and the private sector. By shaping regional and national policies with these data in mind, priority sites for maintaining marine biodiversity can be identified and conserved.

Published

2017

26. Correction: Corrigendum: Coherent assessments of Europe's marine fishes show regional divergence and megafauna loss

Author

Julia M. Lawson, Manuel Dureuil, Mia T. Comeros-Raynal, David J. Allen, João M.P.Q. Delgado, Franz Uiblein, Pedro Afonso, Rachel H.L. Walls, Paul G. Fernandes, Mariana García Criado, Emilie Stump, Beth Polidoro, Luis Gil de Sola, Matthew T. Craig, Fabrizio Serena, Silvia García, Ana Nieto, Caroline M. Pollock, Robin Cook, Kent E. Carpenter, Sarah L. Fowler, Michael S. Harvey, Jim R. Ellis, Christos D. Maravelias, Sophy R. McCully Phillips, Steen Wilhelm Knudsen, C. Papaconstantinou, Edward D. Farrell, Nicholas K. Dulvy, Alen Soldo, Manuel Biscoito, Armelle B. J. Jung, Barry C. Russell, Bruce B. Collette, David Pollard, Kjell Harald Nedreaas, R. Pollom, Pascal Lorance, Helena Alvarez, Ann-Britt Florin, Çetin Keskin, Paraskevas Vasilakopoulos, Gina M. Ralph, and Marcelo Kovačić

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Ecology, Divergence (linguistics), 010604 marine biology & hydrobiology, Ecology (disciplines), Biology, 01 natural sciences, Marine research, Megafauna, European commission, 14. Life underwater, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences

Abstract

Nature Ecology & Evolution 1, 0170 (2017); published 26 May 2017; corrected 12 June 2017. In the original version of this Article, the European Commission was mistakenly included as an affiliation for Christos D. Maravelias. His contribution to this work was exclusively completed while at the Hellenic Centre for Marine Research.

Published

2017

27. Imprint of monsoonal patterns on the fish assemblage in coastal waters of south-east India: a case study

Author

Sudeepta Biswas, Nilamadhab Prasad Indradyumna Das, K. Jahir Hussain, Kamala Kanta Satpathy, Barry C. Russell, and Subhrendu Sekhar Mishra

Subjects

biology, Canonical correspondence analysis, Ecology, Phytoplankton, Coastal fish, Species richness, Sardinella, Aquatic Science, biology.organism_classification, Zooplankton, Ecology, Evolution, Behavior and Systematics, Demersal zone, Global biodiversity

Abstract

The composition, species richness and diversity of a coastal fish assemblage from the Kalpakkam coast of south-east India are described along with temporal distribution patterns related to seasonal fluctuations in dissolved oxygen, salinity, pH, chlorophyll-a, phytoplankton and zooplankton species richness and density. A total of 244 fish species belonging to 21 orders, 87 families and 163 genera were recorded. The fish assemblage was dominated by reef-associated species, followed by demersal species. The majority of the species (63%) are widely distributed in the western Indo-Pacific as well as in the central Indo-Pacific. Jaccard's coefficient analysis showed three distinct seasonal patterns of fish occurrence: pre-monsoon (PrM), monsoon (M) and post-monsoon (PoM). The maximum number of species was during the PrM period, followed by the PoM and M periods. Species occurrence analysis showed Sardinella longiceps to be dominant during PrM and M periods, Leiognathus dussumieri during the M period and Secutor insidiator and Secutor ruconius during the M and PoM periods. Canonical correspondence analysis indicated that salinity and rainfall were the two most influential environmental factors strongly correlated with temporal variation in the fish assemblage. The physico-chemical conditions, in combination with factors such as greater food availability and shelter, might control the seasonal local distribution of the ichthyofauna in these Indian coastal waters.

Published

2014

28. A new species of Nemipterus (Pisces: Nemipteridae) from the Western Indian Ocean

Author

Barry C. Russell and Gavin Gouws

Subjects

Scale (anatomy), biology, Nemipterus, Nostril, Anterior margin, Anatomy, biology.organism_classification, Chin, Indian ocean, medicine.anatomical_structure, Threadfin bream, medicine, Animal Science and Zoology, Snout, Ecology, Evolution, Behavior and Systematics

Abstract

A new species of threadfin bream, Nemipterus flavomandibularis, from the Western Indian Ocean is described and figured. The new species appears most closely related to N. bipunctatus (Valenciennes), but differs principally in colour pattern: N. flavomandibularis is distinct from N. bipunctatus in having two yellow bands on the snout, the upper lip narrowly edged with yellow; and lower lip and chin beneath lip yellow, this colour extending as a narrow band posteriorly to lower margin of opercle. Also, in N. flavomandibularus the scale rows below the lateral line are more or less horizontal (versus distinctly ascending anteriorly in N. bipunctatus), and the maxillary reaches to between level of posterior nostril and anterior margin of eye (versus reaching to below the anterior half of the eye in N. bipunctatus).

Published

2013

29. A new species of the genus Scolopsis Cuvier, 1830 (Perciformes: Nemipteridae) from southern India and Sri Lanka

Author

Kamala Kanta Satpathy, M. Selvanayagam, Subhrendu Sekhar Mishra, Sudeepta Biswas, and Barry C. Russell

Subjects

Fishery, biology, White band, Fish fin, Animal Science and Zoology, Taxonomy (biology), Sri lanka, Snout, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Perciformes, Scolopsis, Dorsal fin

Abstract

Scolopsis igcarensis, a new species of monocle bream (family Nemipteridae) from the coastal waters of southern India and Sri Lanka is described. The species is distinguished from other species of the genus Scolopsis by a combination of the following characters: scales on top of head reaching forward to between anterior nostril and snout tip; lower margin of eye below the line from snout tip to upper pectoral fin base; a bony ridge below eye; a white band from behind eye to level of end of dorsal fin base.

Published

2013

30. Red List of Marine Bony Fishes of the Eastern Central Atlantic

Author

William F. Smith-Vaniz, Vanda Monteiro, Heather Harwell, Luis Tito de Morais, Andrew Hines, Beth Polidoro, Jean Bernard Mougoussi, Abdallahi Khairdine Mohamed Camara, Barry C. Russell, Craig Hilton-Taylor, Roger Djiman, Kyle Strongin, Titus Ayo Adeofe, Michael S. Harvey, Kent E. Carpenter, Francis K. E. Nunoo, Mor Sylla, Christi Linardich, Aboubacar Sidibe, Jean-Christophe Vié, Akanbi Williams, Thomas A. Munroe, Richmond Quartey, Youssouf Hawa Camara, Jean Egard Mikolo, P. Alexander Hulley, Jean Noel Bibang Bi Nguema, Paul Bannerman, Godefroy De Bruyne, Rachel Arnold, Ofer Gon, Antony S. Harold, Kadiatou Cissoko, Emilie Stump, Jack R. Buchanan, Mia T. Comeros-Raynal, Caroline M. Pollock, Stuart G. Poss, Tomio Iwamoto, Alphonse Sagna, Steen Wilhelm Knudsen, Jean de Dieu Lewembe, C. Sayer, Gina M. Ralph, Jean Hervé Mve Beh, Bruce B. Collette, Mathieu Ducrocq, Ken Lindeman, Ebou Mass Mbye, and Madeleine Diouf

Subjects

Fishery, Extinction, Ecology, Threatened species, IUCN Red List, Biology

Abstract

The Red List of marine bony fishes of the Eastern Central Atlantic (ECA) is a review of the conservation status of all native marine bony fishes in ECA according to the global Categories and Criteria of the IUCN Red List of Threatened Species. It identifies those species that are threatened with extinction at the global level and occur within the ECA region. This comprehensive assessment, which is the first of its kind in the ECA, aims to provide improved knowledge of species presence and extinction risk status for the purposes of guiding conservation actions and improved policies for these species both globally and regionally.

Published

2016

31. Fishing groupers towards extinction: a global assessment of threats and extinction risks in a billion dollar fishery

Author

Matthew T. Craig, Philip C Heemstra, S Fennessy, Beatrice Padovani Ferreira, Yvonne Sadovy de Mitcheson, Áthila A. Bertoncini, Kent E. Carpenter, Min Liu, Andrew S. Cornish, Melita Samoilys, R Myers, Jonnell C. Sanciangco, Kevin L. Rhodes, David Pollard, William W. L. Cheung, Barry C. Russell, John Howard Choat, and Luiz A. Rocha

Subjects

Data deficient, Near-threatened species, biology, Overfishing, Ecology, Conservation-dependent species, Management, Monitoring, Policy and Law, Aquatic Science, Oceanography, biology.organism_classification, Fishery, Threatened species, IUCN Red List, Fisheries management, Nassau grouper, Ecology, Evolution, Behavior and Systematics

Abstract

Groupers are a valuable fishery resource of reef ecosystems and are among those species most vulnerable to fishing pressure because of life history characteristics including longevity, late sexual maturation and aggregation spawning. Despite their economic importance, few grouper fisheries are regularly monitored or managed at the species level, and many are reported to be undergoing declines. To identify major threats to groupers, the International Union for Conservation of Nature (IUCN) Red List criteria were applied to all 163 species. Red List assessments show that 20 species (12%) risk extinction if current trends continue, and an additional 22 species (13%) are considered to be Near Threatened. The Caribbean Sea, coastal Brazil and Southeast Asia contain a disproportionate number of Threatened species, while numerous poorly documented and Near Threatened species occur in many regions. In all, 30% of all species are considered to be Data Deficient. Given that the major threat is overfishing, accompanied by a general absence and/or poor application of fishery management, the prognosis for restoration and successful conservation of Threatened species is poor. We believe that few refuges remain for recovery and that key biological processes (e.g. spawning aggregations) continue to be compromised by uncontrolled fishing. Mariculture, through hatchery-rearing, increases production of a few species and contributes to satisfying high market demand, but many such operations depend heavily on wild-caught juveniles with resultant growth and recruitment overfishing. Better management of fishing and other conservation efforts are urgently needed, and we provide examples of possible actions and constraints.

Published

2012

32. Melanization of the alimentary tract in lizardfishes (Teleostei, Aulopiformes, Synodontidae)

Author

Daniel Golani, Bella S. Galil, Barry C. Russell, Lev Fishelson, and Menachem Goren

Subjects

Teleostei, food.ingredient, biology, Synodus, Trachinocephalus, Synodontidae, Anatomy, Aquatic Science, biology.organism_classification, Synodontinae, medicine.anatomical_structure, food, Saurida, Submucosa, Aulopiformes, medicine, Ecology, Evolution, Behavior and Systematics

Abstract

Investigating the alimentary tract in several species of lizardfishes (Synodontidae, Teleostei) of the genera Saurida, Synodus and Trachinocephalus, from various sites of their distribution, revealed melanization of the tract wall. This phenomenon was observed in several species of the genus Saurida, but not in the other two genera. This melanization is caused by layers of melanosomes rich in melanin granules and deposited within the connective tissue of the submucosa, between the muscular wall and the muscularis submucosa. From this site this black submucosa extends into the folds of the mucosa. In S. tumbil and S. filamentosa, the entire alimentary tract is black, whereas in S. macrolepis only the stomach is partially or entirely black. This phenomenon and its possible importance are discussed.

Published

2012

33. Comparative morphology and cytology of the alimentary tract in lizardfishes (Teleostei, Aulopiformes, Synodontidae)

Author

Barry C. Russell, Menachem Goren, Daniel Golani, Bella S. Galil, and Lev Fishelson

Subjects

Teleostei, food.ingredient, biology, Synodus, Stomach, Trachinocephalus, Synodontidae, Cell Biology, Anatomy, biology.organism_classification, medicine.anatomical_structure, food, Saurida, Gastric glands, Aulopiformes, medicine, Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics

Abstract

Fishelson, L., Golani, D., Russell, B., Galil, B. and Goren, M. 2012. Comparative morphology and cytology of the alimentary tract in lizardfishes (Teleostei, Aulopiformes, Synodontidae). —Acta Zoologica (Stockholm) 93: 308–318. This study compares the morphology and cytology of the alimentary tract in several species of lizardfishes (Synodontidae, Teleostei) of the genera Saurida, Synodus, and Trachinocephalus, in relation to their diets and bathymetric distribution. All the studied species feature a large, pouch-like stomach, with the intestine beginning at the stomach’s anterior apex, adjacent to the esophageal opening. In the more ‘microphagous’Synodus spp. and Trachinocephalus, the intestine bends twice before reaching the anus, whereas in the more ‘macrophagous’Saurida spp., the intestine extends straight to the anus. The species differ also in the number and form of their pyloric ceca, the length of the intestine and in the percentile relationship between stomach length and standard body length. Along the alimentary tract folds and villi protrude into the lumen, their numbers differing on various sites of the tract. Three cell types make up the gastric gland system: (1) pyramidal cells forming the tubular gastric glands in the lamina propria; among them are large, pale secretary cells; (2) groups of neck cells that surround the pits of the tubules; and (3) groups of large and granule-rich cells at the end portion of the stomach. All species are carnivorous and uniform in morphology, the differences in the alimentary tract found between the more shallow-water species of Synodus and Trachinocephalus, and the deeper-dwelling Saurida, seem to be only partly correlated with the differences in diet.

Published

2011

34. Introduced marine species: Management arrangements of consideration for the Torres Strait

Author

Kerry M. Neil, Paul Clark, Barry C Russell, and Robert Hilliard

Subjects

business.industry, Ecology (disciplines), Biosecurity, Environmental resource management, New guinea, Geology, Baseline survey, Aquatic Science, Oceanography, Marine species, Geography, Torres strait, Work (electrical), business, Recreation

Abstract

Introduced marine species (IMS) can have significant impacts on economic, ecological, social and cultural aspects of coastal marine environments. There is, therefore, a need to minimise these impacts through the implementation of comprehensive and consistent management strategies and monitoring processes that work towards preventing introductions, detecting introductions if they were to occur and managing incursions should they be detected. There is also the need to ensure that approaches taken are comparable to provide consistency of IMS management effort, particularly across areas that are multi-jurisdictional (e.g. spanning State or Territory borders). A number of studies have examined IMS, their vectors and management arrangements for the Torres Strait region, a multi-jurisdictional area between Queensland, Australia and Papua New Guinea. This paper presents information from a baseline survey conducted in the Torres Strait for marine pests in conjunction with a synthesis of information from other studies on IMS risks, their vectors and management strategies of relevance to the Torres Strait region. A number of strengths, but also gaps, between the various jurisdictions have been identified and discussed. Processes such as the establishment of Biosecurity Queensland as a specialist group and the development of the National System for the Prevention and Management of Marine Pest Incursions are occurring. However, the Torres Strait region is at current risk of marine pest inoculation, particularly for species such as Perna viridis , and management strategies to minimise this risk are lacking. The information presented here will assist management groups in their ability to work towards mitigating the risk of an IMS being translocated to and negatively impacting the unique and diverse ecology of the marine systems, and the industries, people and customs that rely on the coastal marine environment for food, recreation and commerce in the Torres Strait.

Published

2008

35. Anampses viridis Valenciennes 1840 (Pisces: Labridae)--a case of taxonomic con- fusion and mistaken extinction

Author

Barry C, Russell and Matthew T, Craig

Subjects

Male, Fishes, Animal Structures, Animals, Body Size, Female, Organ Size

Abstract

Anampses viridis Valenciennes 1840 is known from only three specimens collected from Mauritius, and despite intensive sampling, the species has not been seen or reported since it was originally described. This apparent failure to 'rediscover' A. viridis at Mauritius has led to speculation that it is extinct, and the species has been widely cited as an example of a marine fish extinction. Far from being extinct, Anampses viridis has been taxonomically confused and actually is the adult male (terminal phase) colour form and a junior synonym of A. caeruleopunctatus Rüppell 1829, a species that is common and widespread throughout the Indo-West Pacific region.

Published

2015

36. Dentex carpenteri, a new species of deepwater seabream from Western Australia (Pisces: Sparidae)

Author

Yukio, Iwatsuki, Stephen J, Newman, and Barry C, Russell

Subjects

Male, Animal Structures, Animals, Body Size, Female, Organ Size, Western Australia, Animal Distribution, Phylogeny, Perciformes

Abstract

A new species of sparid fish, Dentex carpenteri, is described from nine type specimens collected off Ningaloo Reef near Exmouth, Western Australia. Four valid species of Dentex are currently known in the western Pacific, Dentex abei and D. hypselosomus in the Northern Hemisphere, and D. fourmanoiri and D. spariformis in the Southern Hemisphere. These four species comprise the "Dentex hypselosomus complex". Dentex carpenteri n. sp. is most similar to D. spariformis in overall body form, but differs from D. spariformis in having the posterior margin of the upper jaw not reaching or reaching slightly beyond a vertical at the anterior margin of eye; often with the greater part from the snout to the second infraorbital yellowish; deeper suborbital (9.7-10.9% SL); and a considerably deeper body (vs. posterior margin of upper jaw reaching clearly beyond anterior margin of eye; slight yellow region on snout; suborbital depth shallow (7.6-9.6% SL); and a less deep body in D. spariformis). The mitochondrial 16S ribosomal RNA genes (16S rRNA, 545 bp) of the above five species were analyzed using the Atlantic congener, Dentex macrophthalmus as an out-group, the results clearly indicating that D. carpenteri n. sp. is a valid and distinct species. A key to the "Dentex hypselosomus complex" is provided. The distributional information available for the five species from the western Pacific, including western Australia and the nearby eastern Indian Ocean, are discussed, with the species considered to be allopatric.

Published

2015

37. Saurida lessepsianus a new species of lizardfish (Pisces: Synodontidae) from the Red Sea and Mediterranean Sea, with a key to Saurida species in the Red Sea

Author

Barry C, Russell, Daniel, Golani, and Yaron, Tikochinski

Subjects

Male, Fishes, Mediterranean Sea, Animal Structures, Animals, Body Size, Female, Organ Size, Animal Distribution, Indian Ocean

Abstract

Saurida lessepsianus n. sp., a lizardfish (Aulopiformes: Synodontidae) from the Red Sea and Mediterranean Sea, previously misidentified as S. undosquamis (Richardson) and more recently as S. macrolepis Tanaka, is described as a new species. It is characterised by the following combination of characters: dorsal fin with 11-12 rays; pectoral fins with 13-15 rays; lateral-line scales 47-51; transverse scale rows above lateral line 4½, below lateral line 5½; pectoral fins moderately long (extending to between just before or just beyond a line from origin of pelvic fins to origin of dorsal fin); 2 rows of teeth on outer palatines; 0-2 teeth on vomer; tongue with 3-6 rows of teeth posteriorly; caudal peduncle slightly compressed (depth a little more than width); upper margin of caudal fin with row of 3-8 (usually 6 or 7) small black spots; stomach pale grey to blackish anteriorly; intestine whitish. The species is common in the Red Sea and as a result of Lessepsian migration through the Suez Canal, it is now widely distributed in the eastern Mediterranean. The taxonomic status of two other Red Sea nominal species, Saurus badimottah Rüppell [= Saurida tumbil (Bloch)] and Saurida sinaitica Dollfus in Gruvel (a nomen nudum), is clarified. A key is provided for the species of Saurida in the Red Sea.

Published

2015

38. A new species of Saurida (Pisces: Synodontidae) from the Mascarene Plateau, Western Indian Ocean

Author

Barry C, Russell

Subjects

Species Specificity, Fishes, Animals, Animal Distribution, Indian Ocean

Abstract

A new species of lizardfish, Saurida tweddlei n.sp., from the Mascarene Plateau, Western Indian Ocean, is described and figured. The new species is characterised by the following combination of characters: dorsal fin with 12-13 rays; pectorals with 14-15 rays; lateral-line scales 53-55; transverse scale rows above lateral line 4½, below lateral line 5½; pectoral fins moderately long (extending to or just beyond a line from origin of pelvic fins to origin of dorsal fin); 2 rows of teeth on outer palatines; 0-3 teeth on vomer; tongue with about 4-5 rows of teeth posteriorly; caudal peduncle compressed (depth greater than width); stomach and intestine pale whitish. A key to the species of Saurida of the Western Indian Ocean is provided.

Published

2015

39. Revision of the genus Hapalogenys (Teleostei: Perciformes) with two new species from the Indo-West Pacific

Author

Barry C. Russell and Yukio Iwatsuki

Subjects

Teleostei, biology, Hapalogenys analis, Hapalogenys, Paleontology, Anatomy, Body colour, Oceanography, biology.organism_classification, Perciformes, Genus, Maximum size, General Agricultural and Biological Sciences, Meristics

Abstract

Iwatsuki, Y., and Russell, B.C. 2006. Revision of the genus Hapalogenys (Teleostei: Perciformes) with two new species from the Indo-West Pacifi c. Memoirs of Museum Victoria 63(1): 29–46. The Indo-West Pacifi c genus Hapalogenys is reviewed and two new species are described: Hapalogenys dampieriensis sp. nov. from Australia and H. fi lamentosus sp. nov. from the Philippines. The genus now includes: Hapalogenys analis Richardson, H. dampieriensis sp. nov., H. fi lamentosus sp. nov., H. kishinouyei Smith and Pope, H. merguiensis Iwatsuki, Ukkrit and Amaoka, H. nigripinnis (Schlegel in Temminck and Schlegel) and H. sennin Iwatsuki and Nakabo. Hapalogenys dampieriensis, H. fi lamentosus and H. kishinouyei are similar to each other in overall body appearance and are accordingly identifi ed as the “Hapalogenys kishinouyei complex”, defi ned by having 2–5 longitudinal stripes on the body. Hapalogenys dampieriensis has long been confused with H. kishinouyei in having similar longitudinal dark stripes, but the two species are easily separable on meristic and morphometric values, and body colour changes with growth. Hapalogenys fi lamentosus differs from H. dampieriensis in having a longer pelvic fi n, with the fi lamentous fi rst fi n ray almost reaching to or slightly beyond the base of fi rst anal-fi n spine when depressed (vs. slightly beyond anus but not reaching to base of fi rst anal-fi n spine) and two faint narrow longitudinal stripes on the body (vs. four narrow longitudinal stripes in juveniles, reducing to two with growth). A neotype is designated for H. analis. Species of Hapalogenys can be distinguished from one another on the basis of meristic and morphometric characters, body colour pattern, maximum size and distribution. The familial position of Hapalogenys is briefl y discussed.

Published

2006

40. A New Species of Pentapodus (Teleostei: Nemipteridae) from the Western Pacific

Author

Barry C Russell

Subjects

Teleostei, Scale (anatomy), food.ingredient, biology, Peduncle (anatomy), Pentapodus aureofasciatus, Fish fin, New guinea, Zoology, Aquatic Science, biology.organism_classification, Pentapodus, food, Geography, Key (lock), Animal Science and Zoology, Cartography, Ecology, Evolution, Behavior and Systematics

Abstract

Pentapodus aureofasciatus is described as a new species of whiptail bream (family Nemipteridae) based on specimens collected from the Ryukyu Is, Taiwan, Indonesia, Papua New Guinea, north-eastern Australia, New Caledonia, Fiji, Tonga and Samoa. The species is similar to other congeners in general appearance, but is characterised by having scales on top of the head not reaching forward to a line between the posterior nostrils; lower limb of preopercle with 2 or 3 scale rows; lateral-line scales 42 to 48 (usually 46 or 47); caudal fin forked, lobes more or less equal in length, and lacking filamentous extensions; and by having a distinctive broad pale yellow band along the body from behind eye to caudal peduncle. A key to the species of Pentapodus is provided.

Published

2001

41. Review of the southern temperate fish family Aplodactylidae (Pisces: Perciformes)

Author

Barry C. Russell

Subjects

Norfolk Island, biology, location.country, biology.organism_classification, Perciformes, Aplodactylus, Fishery, location, Geography, Genus, Temperate climate, Key (lock), %22">Fish , West coast, Ecology, Evolution, Behavior and Systematics

Abstract

The southern temperate perciform fish family Aplodactylidae is reviewed. The monotypic genus Crinodus is relegated to the synonymy of the genus Aplodactylus, which is recognized as containing five species: A. arctidens Richardson from New Zealand and Australia (Victoria, South Australia and Tasmania); A. lophodon (Gunther) restricted to south-eastern Australia (New South Wales and Victoria); A. westralis Russell restricted to south Western Australia; A. etheridgii (Ogilby) from the south-west Pacific (north-eastern New Zealand, Kermadec Islands, Lord Howe Island and Norfolk Island); and A. punctatus Valenciennes from the west coast of South America (Peru and Chile). A key to the species is given.

Published

2000

42. Outbreak ofMytilopsis sallei(Récluz, 1849) (Bivalvia: Dreissenidae) in Australia

Author

Barry C. Russell, Felicity R. McEnnulty, Chad L. Hewitt, Sean T. Bourke, Gavin M. Dally, Richard C. Willan, Marnie L. Campbell, Nicolas B. Murfet, Suzanne K. Horner, and Kirrily L. Moore

Subjects

biology, Ecology, Genetics, Zoology, Dreissenidae, Outbreak, Animal Science and Zoology, Mytilopsis sallei, biology.organism_classification, Bivalvia, Biological sciences, Ecology, Evolution, Behavior and Systematics

Published

2000

43. A new species of the genus Scolopsis Cuvier, 1830 (Perciformes: Nemipteridae) from southern India and Sri Lanka

Author

S S, Mishra, Sudeepta, Biswas, Barry C, Russell, K K, Satpathy, and M, Selvanayagam

Subjects

Animals, India, Perciformes, Sri Lanka

Abstract

Scolopsis igcarensis, a new species of monocle bream (family Nemipteridae) from the coastal waters of southern India and Sri Lanka is described. The species is distinguished from other species of the genus Scolopsis by a combination of the following characters: scales on top of head reaching forward to between anterior nostril and snout tip; lower margin of eye below the line from snout tip to upper pectoral fin base; a bony ridge below eye; a white band from behind eye to level of end of dorsal fin base.

Published

2013

44. Type specimens of New Zealand fishes described by Captain F.W. Hutton, F.R.S. (1836–1905)

Author

Barry C. Russell

Subjects

Argentina elongata, Dasyatis brevicaudata, Multidisciplinary, Type (biology), Geography, Smithsonian institution, biology, Extant taxon, Holotype, %22">Fish , biology.organism_classification, Archaeology

Abstract

Captain F. W. Hutton F.R.S. (1836–1905) was one of New Zealand's most able and prolific nineteenth century naturalists. His numerous contributions to zoology included 19 ichthyological papers published between 1872 and 1905, containing descriptions of 40 new species. Hutton worked successively at the Colonial Museum, Wellington (NMNZ) (1871–1873); Otago Museum, Dunedin (OM) (1877–1879); and the Canterbury Museum, Christchurch (CMC) (1887–1905) and most of his type specimens were originally deposited in these institutions. Many of Hutton's specimens were subsequently disposed of, some being sent on exchange to the British Museum (Natural History) (BMNH); Smithsonian Institution (USNM); University College, Dundee; Macleay Museum; and the Australian Museum. Examination of archival records and the collections of these institutions has revealed the following Hutton types to be still extant: Trygon brevicaudata Hutton, 1875 [= Dasyatis brevicaudata (Hutton)], holotype (OM); Argentina elongata Hutton, 1879, holo...

Published

1996

45. The likelihood of extinction of iconic and dominant herbivores and detritivores of coral reefs: the parrotfishes and surgeonfishes

Author

Jennifer L. McIlwain, Luiz A. Rocha, Muhammad E. Lazuardi, Barry C. Russell, Mia T. Comeros-Raynal, Andreas Muljadi, Heather Harwell, John Howard Choat, Brian Stockwell, Rene A. Abesamis, Shinta Pardede, Cleto L Nanola, Matthew T. Craig, Kent E. Carpenter, Kendall D. Clements, Beth Polidoro, R Myers, and Jonnell C. Sanciangco

Subjects

Population Dynamics, Endangered species, Marine and Aquatic Sciences, lcsh:Medicine, Coral Triangle, Marine Conservation, lcsh:Science, Atlantic Ocean, Conservation Science, Data deficient, Multidisciplinary, Near-threatened species, geography.geographical_feature_category, Ecology, Coral Reefs, Marine Ecology, Biodiversity, Coral reef, Anthozoa, Research Article, Conservation of Natural Resources, Ecological Metrics, Marine Biology, Biology, Extinction, Biological, Species Specificity, Animals, Herbivory, Species Extinction, Probability, geography, Pacific Ocean, Endangered Species, lcsh:R, Species Diversity, Feeding Behavior, Marine Environments, Perciformes, Fishery, Habitat destruction, Extinction Risk, Threatened species, Earth Sciences, lcsh:Q, Species Richness, Species richness, Environmental Protection, Ecological Environments

Abstract

Parrotfishes and surgeonfishes perform important functional roles in the dynamics of coral reef systems. This is a consequence of their varied feeding behaviors ranging from targeted consumption of living plant material (primarily surgeonfishes) to feeding on detrital aggregates that are either scraped from the reef surface or excavated from the deeper reef substratum (primarily parrotfishes). Increased fishing pressure and widespread habitat destruction have led to population declines for several species of these two groups. Species-specific data on global distribution, population status, life history characteristics, and major threats were compiled for each of the 179 known species of parrotfishes and surgeonfishes to determine the likelihood of extinction of each species under the Categories and Criteria of the IUCN Red List of Threatened Species. Due in part to the extensive distributions of most species and the life history traits exhibited in these two families, only three (1.7%) of the species are listed at an elevated risk of global extinction. The majority of the parrotfishes and surgeonfishes (86%) are listed as Least Concern, 10% are listed as Data Deficient and 1% are listed as Near Threatened. The risk of localized extinction, however, is higher in some areas, particularly in the Coral Triangle region. The relatively low proportion of species globally listed in threatened Categories is highly encouraging, and some conservation successes are attributed to concentrated conservation efforts. However, with the growing realization of man's profound impact on the planet, conservation actions such as improved marine reserve networks, more stringent fishing regulations, and continued monitoring of the population status at the species and community levels are imperative for the prevention of species loss in these groups of important and iconic coral reef fishes.

Published

2012

46. A review of the threadfin breams of the genusNemipterus (Nemipteridae) from Japan and Taiwan, with description of a new species

Author

Barry C. Russell

Subjects

Dorsum, Indian ocean, Ecology, Nemipterus, Coastal zone, Fish fin, Zoology, Taxonomy (biology), Biology, Threadfin, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Dorsal fin

Abstract

Species of the fish genusNemipterus (Nemipteridae) from Japan and Taiwan are reviewed. A key, diagnoses and synonymies are provided for 9 species, including a new species:N. aurora sp. nov. (previously misidentified asN. delagoae Smith);N. bathybius Snyder;N. furcosus (Valenciennes) [mistakenly referred to asN. peronii (Valenciennes)];N. hexodon (Quoy et Gaimard);N. japonicus (Bloch);N. peronii (Valenciennes) [previously referred to asN. tolu (Valenciennes), a junior synonym];N. thosaporni Russell [previously misidentified asN. marginatus (Valenciennes)];N. virgatus (Houttuyn); andN. zysron (Bleeker) [previously referred to asN. metopias (Bleeker), a junior synonym].N. aurora is described from specimens from Taiwan, the Gulf of Thailand, East Malaysia and Indonesia. It appears to be closely allied toN. bipunctatus (Ehrenberg) (N. delagoae is a junior synonym), an Indian Ocean species, but the two species are readily distinguished on the basis of colour pattern of the dorsal and anal fins:N. aurora has a broad orange-yellow submedial stripe along the dorsal fin, and a lemon submedial stripe on the anal fin; whereas inN. bipunctatus the dorsal fin is uniformly rosy, and the anal fin has 2–4 wavy yellow stripes.

Published

1993

47. Dentex carpenteri, a new species of deepwater seabream from Western Australia (Pisces: Sparidae)

Author

Barry C. Russell, Stephen J. Newman, and Yukio Iwatsuki

Subjects

geography, geography.geographical_feature_category, Sparidae, Allopatric speciation, Biology, biology.organism_classification, Perciformes, Fishery, Dentex carpenteri, Animal Science and Zoology, Taxonomy (biology), Snout, Southern Hemisphere, Reef, Ecology, Evolution, Behavior and Systematics

Abstract

A new species of sparid fish, Dentex carpenteri, is described from nine type specimens collected off Ningaloo Reef near Exmouth, Western Australia. Four valid species of Dentex are currently known in the western Pacific, Dentex abei and D. hypselosomus in the Northern Hemisphere, and D. fourmanoiri and D. spariformis in the Southern Hemisphere. These four species comprise the “Dentex hypselosomus complex”. Dentex carpenteri n. sp. is most similar to D. spariformis in overall body form, but differs from D. spariformis in having the posterior margin of the upper jaw not reaching or reaching slightly beyond a vertical at the anterior margin of eye; often with the greater part from the snout to the second infraorbital yellowish; deeper suborbital (9.7–10.9% SL); and a considerably deeper body (vs. posterior margin of upper jaw reaching clearly beyond anterior margin of eye; slight yellow region on snout; suborbital depth shallow (7.6–9.6% SL); and a less deep body in D. spariformis). The mitochondrial 16S ribosomal RNA genes (16S rRNA, 545 bp) of the above five species were analyzed using the Atlantic congener, Dentex macrophthalmus as an out-group, the results clearly indicating that D. carpenteri n. sp. is a valid and distinct species. A key to the “Dentex hypselosomus complex” is provided. The distributional information available for the five species from the western Pacific, including western Australia and the nearby eastern Indian Ocean, are discussed, with the species considered to be allopatric.

Published

2015

48. Saurida lessepsianus a new species of lizardfish (Pisces: Synodontidae) from the Red Sea and Mediterranean Sea, with a key to Saurida species in the Red Sea

Author

Yaron Tikochinski, Barry C. Russell, and Daniel Golani

Subjects

Mediterranean sea, Lessepsian migration, biology, Saurida, Aulopiformes, Fish fin, Animal Science and Zoology, Synodontidae, Anatomy, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Dorsal fin, Black spot

Abstract

Saurida lessepsianus n. sp., a lizardfish (Aulopiformes: Synodontidae) from the Red Sea and Mediterranean Sea, previously misidentified as S. undosquamis (Richardson) and more recently as S. macrolepis Tanaka, is described as a new species. It is characterised by the following combination of characters: dorsal fin with 11–12 rays; pectoral fins with 13–15 rays; lateral-line scales 47–51; transverse scale rows above lateral line 4½, below lateral line 5½; pectoral fins moderately long (extending to between just before or just beyond a line from origin of pelvic fins to origin of dorsal fin); 2 rows of teeth on outer palatines; 0–2 teeth on vomer; tongue with 3–6 rows of teeth posteriorly; caudal peduncle slightly compressed (depth a little more than width); upper margin of caudal fin with row of 3–8 (usually 6 or 7) small black spots; stomach pale grey to blackish anteriorly; intestine whitish. The species is common in the Red Sea and as a result of Lessepsian migration through the Suez Canal, it is now widely distributed in the eastern Mediterranean. The taxonomic status of two other Red Sea nominal species, Saurus badimottah Ruppell [= Saurida tumbil (Bloch)] and Saurida sinaitica Dollfus in Gruvel (a nomen nudum), is clarified. A key is provided for the species of Saurida in the Red Sea.

Published

2015

49. Anampses viridis Valenciennes 1840 (Pisces: Labridae)—a case of taxonomic confusion and mistaken extinction

Author

Barry C. Russell and Matthew T. Craig

Subjects

Adult male, Anampses, Ecology, medicine, Marine fish, Animal Science and Zoology, Taxonomy (biology), medicine.symptom, Biology, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Confusion

Abstract

Anampses viridis Valenciennes 1840 is known from only three specimens collected from Mauritius, and despite intensive sampling, the species has not been seen or reported since it was originally described. This apparent failure to ‘rediscover’ A. viridis at Mauritius has led to speculation that it is extinct, and the species has been widely cited as an example of a marine fish extinction. Far from being extinct, Anampses viridis has been taxonomically confused and actually is the adult male (terminal phase) colour form and a junior synonym of A. caeruleopunctatus Ruppell 1829, a species that is common and widespread throughout the Indo-West Pacific region.

Published

2013

50. A new species of Suezichthys (Teleostei: Perciformes: Labridae) from the south-eastern Pacific, with a redefinition of the genus and a key to species

Author

Barry C. Russell and Mark W. Westneat

Subjects

Male, Suezichthys, Teleostei, biology, Ecology, Fish fin, Animal Structures, Zoology, Haemal arch, biology.organism_classification, Perciformes, Dorsal fin, Genus, Animals, Body Size, Key (lock), Animal Science and Zoology, Animal Distribution, Indian Ocean, Ecology, Evolution, Behavior and Systematics

Abstract

A new species of the fish family Labridae, Suezichthys rosenblatti, is described from specimens collected at Isla San Felix, Isla Juan Fernandez and Isla San Ambrosio, off the coast of Chile. Suezichthys rosenblatti is distinct in having a combination of 11 dorsal fin soft rays and 11 anal fin soft rays. It falls in the group of species that has 1½ scale rows above the lateral line and lack a scaly sheath at the base of the dorsal and anal fins (S. aylingi Russell, S. caudovittatus Russell, S. gracilis (Steindachner & Doderlein) and S. soelae Russell). Unlike other members of this group, S. rosenblatti has haemal arches on vertebrae 10-11 (versus haemal arch only on vertebra 10). The monotypic Nelabrichthys ornatus (Carmichael) is now included in the genus Suezichthys and a revised generic description and key to species of Suezichthys is provided. The occurrence of S. rosenblatti in the south-eastern Pacific and S. ornatus in the south-western Indian Ocean and south Atlantic Ocean represent major range extensions of the genus Suezichthys.

Published

2013