Masaki Miya: Unterschied zwischen den Versionen
Aus WORLDFISH WIKI
Es (Diskussion | Beiträge) (→2015-2019) |
Es (Diskussion | Beiträge) (→2010-2014) |
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(8 dazwischenliegende Versionen desselben Benutzers werden nicht angezeigt) | |||
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==Publications== | ==Publications== | ||
+ | ===2000-2009=== | ||
{{Miya & Nishida, 2000}}<!--Molecular systematics of the deep-sea fish genus Gonostoma (Stomiiformes: Gonostomatidae): two paraphyletic clades and resurrection of Sigmops--> | {{Miya & Nishida, 2000}}<!--Molecular systematics of the deep-sea fish genus Gonostoma (Stomiiformes: Gonostomatidae): two paraphyletic clades and resurrection of Sigmops--> | ||
{{Miya et al., 2001}}<!--Mitogenomic exploration of higher teleostean phylogenies: a case study for moderate-scale evolutionary genomics with 38 newly determined complete mitochondrial DNA sequences--> | {{Miya et al., 2001}}<!--Mitogenomic exploration of higher teleostean phylogenies: a case study for moderate-scale evolutionary genomics with 38 newly determined complete mitochondrial DNA sequences--> | ||
+ | {{Miya et al., 2003}}<!--Major patterns of higher teleostean phylogenies: a new perspective based on 100 complete mitochondrial DNA sequences--> | ||
{{YAM04a}}<!--2004. Mitochondrial genomes and phylogeny of the ocean sunfishes--> | {{YAM04a}}<!--2004. Mitochondrial genomes and phylogeny of the ocean sunfishes--> | ||
{{KAW08}} | {{KAW08}} | ||
+ | {{JOH09a}}<!--2009. Deep-sea mystery solved: astonishing laral transformations and extreme sexual dimophism unite three fish families--> | ||
===2010-2014=== | ===2010-2014=== | ||
+ | {{Tang et al., 2010}}<!--Systematics of the subfamily Danioninae--> | ||
{{Tang et al., 2011}}<!--Phylogeny of the gudgeons--> | {{Tang et al., 2011}}<!--Phylogeny of the gudgeons--> | ||
{{Aschliman et al., 2012}}<!--Body plan convergence in the evolution of skates and rays--> | {{Aschliman et al., 2012}}<!--Body plan convergence in the evolution of skates and rays--> | ||
{{Johnson et al., 2012}}<!--A 'living fossil' eel (Anguilliformes: Protanguillidae, fam. nov.) from an undersea cave in Palau--> | {{Johnson et al., 2012}}<!--A 'living fossil' eel (Anguilliformes: Protanguillidae, fam. nov.) from an undersea cave in Palau--> | ||
+ | {{Lavoué et al., 2012}}<!--Comparable ages for the independent origins of electrogenesis in African and South American weakly electric fishes--> | ||
{{Yang et al., 2012h}} | {{Yang et al., 2012h}} | ||
+ | {{Betancur-R et al., 2013b}}<!--New and Revised Classification of Bony Fishes Version 2--> | ||
{{Miya et al., 2013}}<!--Evolutionary Origin of the Scombridae (Tunas and Mackerels): Members of a Paleogene Adaptive Radiation with 14 Other Pelagic Fish Families--> | {{Miya et al., 2013}}<!--Evolutionary Origin of the Scombridae (Tunas and Mackerels): Members of a Paleogene Adaptive Radiation with 14 Other Pelagic Fish Families--> | ||
+ | {{Tang et al., 2013}}<!--Limits and phylogenetic relationships of East Asian fishes in the subfamily Oxygastrinae--> | ||
{{Betancur-R et al., 2014}} | {{Betancur-R et al., 2014}} | ||
{{Campbell et al., 2014}}<!--Mitochondrial genomic investigation of flatfish monophyly--> | {{Campbell et al., 2014}}<!--Mitochondrial genomic investigation of flatfish monophyly--> | ||
+ | {{Chang et al., 2014}}<!--Phylogenetic relationships of Acheilognathidae (Cypriniformes: Cyprinoidea) as revealed from evidence of both nuclear and mitochondrial gene sequence variation: Evidence for necessary taxonomic revision in the family and the identification of cryptic species--> | ||
===2015-2019=== | ===2015-2019=== | ||
Zeile 26: | Zeile 34: | ||
{{Poulsen et al., 2016}}<!--Preservation Obscures Pelagic Deep-Sea Fish Diversity: Doubling the Number of Sole-Bearing Opisthoproctids and Resurrection of the Genus Monacoa--> | {{Poulsen et al., 2016}}<!--Preservation Obscures Pelagic Deep-Sea Fish Diversity: Doubling the Number of Sole-Bearing Opisthoproctids and Resurrection of the Genus Monacoa--> | ||
{{Betancur-R et al., 2017}}<!--Phylogenetic classification of bony fishes--> | {{Betancur-R et al., 2017}}<!--Phylogenetic classification of bony fishes--> | ||
+ | {{Lavoué et al., 2017}}<!--Phylogenetic position of the rainbow sardine Dussumieria (Dussumieriidae) and its bearing on the early evolution of the Clupeoidei--> | ||
{{Sunobe et al., 2017}}>!--Evolution of bidirectional sex change and gonochorism in fishes of the gobiid genera Trimma, Priolepis, and Trimmatom--> | {{Sunobe et al., 2017}}>!--Evolution of bidirectional sex change and gonochorism in fishes of the gobiid genera Trimma, Priolepis, and Trimmatom--> | ||
{{Campbell et al., 2018}}<!--Multilocus phylogenetic analysis of the first molecular data from the rare and monotypic Amarsipidae places the family within the Pelagia and highlights limitations of existing data sets in resolving pelagian interrelationships--> | {{Campbell et al., 2018}}<!--Multilocus phylogenetic analysis of the first molecular data from the rare and monotypic Amarsipidae places the family within the Pelagia and highlights limitations of existing data sets in resolving pelagian interrelationships--> | ||
Zeile 33: | Zeile 42: | ||
===2020-=== | ===2020-=== | ||
{{Fujiwara et al., 2021}}<!--Discovery of a colossal slickhead (Alepocephaliformes: Alepocephalidae): an active-swimming top predator in the deep waters of Suruga Bay, Japan--> | {{Fujiwara et al., 2021}}<!--Discovery of a colossal slickhead (Alepocephaliformes: Alepocephalidae): an active-swimming top predator in the deep waters of Suruga Bay, Japan--> | ||
+ | {{Harrington et al., 2021}}<!--Phylogenomic resolution of the monotypic and enigmatic Amarsipus, the Bagless Glassfish--> |
Aktuelle Version vom 14. März 2024, 20:06 Uhr
Masaki Miya
- Department of Zoology, Natural History Museum and Institute, Chiba, 955-2 Aoba-cho, Chuo-ku, Chiba 260-8682, Japan.
Inhaltsverzeichnis
Authored taxa
Publications
2000-2009
- Miya, M. & Nishida, M. 2000. Molecular systematics of the deep-sea fish genus Gonostoma (Stomiiformes: Gonostomatidae): two paraphyletic clades and resurrection of Sigmops. Copeia, 2000 (2): 378-389. [0378:MSOTDS2.0.CO;2 (doi)] Zitatseite
- Miya, M., Kawaguchi, A. & Nishida, M. 2001. Mitogenomic exploration of higher teleostean phylogenies: a case study for moderate-scale evolutionary genomics with 38 newly determined complete mitochondrial DNA sequences. Molecular Biology and Evolution, 18: 1993–2009.(doi) Zitatseite
- Miya, M., Takeshima, H., Endo, H., Ishiguro, N.B., Inoue, J.G., Mukai, T., Satohm T.P., Yamaguchi, M., Kawaguchi, A., Mabuchi, K., Shirai, S.M. & Nishida, M. 2003. Major patterns of higher teleostean phylogenies: a new perspective based on 100 complete mitochondrial DNA sequences. Molecular Phylogenetics and Evolution, 26 (1): 121-138. (doi) Zitatseite
- Yamanoue, Y. Miya, M., Matsuura, K., Katoh, M., Sakai, H. & Nishida, M. 2004. Mitochondrial genomes and phylogeny of the ocean sunfishes (Tetraodontiformes: Molidae). Ichthyological Research, 51: 269–273. (doi) Zitatseite
- Kawahara, R., Miya, M., Mabuchi, K., Lavoué, S., Inoue, J.G., Satoh, T.O., Kawaguchi, A. & Nishida, M. 2008. Interrelationships of the 11 gasterosteiform families (sticklebacks, pipefishes, and their relatives): A new perspective based on whole mitogenome sequences from 75 higher teleosts. Molecular Phylogenetics and Evolution, 46: 224-236. (doi) Zitatseite
- Johnson, G.D., Paxton, J.R., Sutton, T.T., Satoh, T.P., Sado, T., Nishida, M. & Miya, M. 2009. Deep-sea mystery solved: astonishing larval transformations and extreme sexual dimophism unite three fish families. Biology Letters, 5: 235-239. (doi) Zitatseite
2010-2014
- Tang, K.L., Agnew, M.K., Hirt, M.V., Sado, T., Schneider, L.M., Freyhof, J., Sulaiman, Z., Swartz, E., Vidthayanon, C., Miya, M., Saitoh, K., Simons, A.M., Wood, R.W. & Mayden, R.L. 2010. Systematics of the subfamily Danioninae (Teleostei: Cypriniformes: Cyprinidae). Molecular Phylogenetics and Evolution, 57: 189-214. (doi) Zitatseite
- Tang, K.L., Agnew, M.K., Chen, W.J., Hirt, M.V., Raley, M.E., Sado, T., Schneider, L.M., Yang, L., Bart, H.L., Jr., He, S., Liu, H.-Z., Miya, M., Saitoh, K., Simons, A.M., Wood, R.M. & Mayden, R.L. 2011. Phylogeny of the gudgeons (Teleostei: Cyprinidae: Gobioninae). Molecular Phylogenetics and Evolution, 61: 103–124. (doi) Zitatseite
- Aschliman, N.C., Nishida, M., Miya, M., Inoue, J.G., Rosana, K.M. & Naylor, G.J.P. 2012. Body plan convergence in the evolution of skates and rays (Chondrichthyes: Batoidea). Molecular Phylogenetics and Evolution, 63 (1): 28-42. (doi) Zitatseite
- Johnson, G.D., Ida, H., Sakaue, J., Sado, T., Asahida, T., Miya, M. 2012. A 'living fossil' eel (Anguilliformes: Protanguillidae, fam. nov.) from an undersea cave in Palau. Proceedings of the Royal Society B: Biological Sciences, 279 (1730): [1-11] 934-943. (PDF) Zitatseite
- Lavoué, S., Miya, M., Arnegard, M.E., Sullivan, J.P., Hopkins, C.D. & Nishida, M. 2012. Comparable ages for the independent origins of electrogenesis in African and South American weakly electric fishes. PLoS ONE, 7 (5): e36287. (doi) Zitatseite
- Yang, L., Arunachalam, M., Sado, T., Levin, B.A., Golubtsov, A.S., Freyhof, J., Friel, J.F., Chen, W.J., Hirt, M.V., Manickam, R., Agnew, M.K., Simons, A.M., Saitoh, K., Miya, M., Mayden, R.L. & He, S.P. 2012. Molecular phylogeny of the cyprinid tribe Labeonini (Teleostei: Cypriniformes). Molecular Phylogenetics and Evolution, 65 (2): 362–379. (doi) Zitatseite
- Betancur-R, R., Wiley, E., Miya, M., Lecointre, G., Bailly, N. & Ortí, G. 2013. New and Revised Classification of Bony Fishes Version 2. (HTM) Zitatseite
- Miya, M., Friedman, M., Satoh, T.P., Takeshima, H., Sado, T., Iwasaki, W., Yamanoue, Y., Nakatani, M., Mabuchi, K., Inoue, J.G., Poulsen, J.Y., Fukunaga, T., Sato, Y. & Nishida, M. 2013. Evolutionary Origin of the Scombridae (Tunas and Mackerels): Members of a Paleogene Adaptive Radiation with 14 Other Pelagic Fish Families. PLoS ONE, 8 (9): e73535. (doi) Zitatseite
- Tang, K.L., Agnew, M.K., Hirt, M.V., Lumbantobing, D.N., Raley, M.E., Sado, T., Teoh, V.-H., Yang, L., Bart, H.L., Harris, P.M., He, S., Miya, M., Saitoh, K., Simons, A.M., Wood, R.M. & Mayden, R.L. 2013. Limits and phylogenetic relationships of East Asian fishes in the subfamily Oxygastrinae (Teleostei: Cypriniformes: Cyprinidae). Zootaxa, 3681 (2): 101-135. (doi) Zitatseite
- Betancur-R., R., Wiley, E., Bailly, N., Miya, M., Lecointre, G. & Ortí, G. 2014. Phylogenetic Classification of Bony Fishes Version 3. Zitatseite
- Campbell, M.A., López, J.A., Satoh, T.P., Chen, W.-J. & Miya, M. 2014. Mitochondrial genomic investigation of flatfish monophyly. Gene, 551 (2): 176–182. (doi) Zitatseite
- Chang, C.-H., Li, F., Shao, K.-T., Lin, Y.-S., Morosawa, T., Kim, S., Koo, H., Kim, W., Lee, J.-S., He, S., Smith, C., Reichard, M., Miya, M., Sado, T., Uehara, K., Lavoué, S., Chen, W.-J. & Mayden, R.L. 2021. Phylogenetic relationships of Acheilognathidae (Cypriniformes: Cyprinoidea) as revealed from evidence of both nuclear and mitochondrial gene sequence variation: Evidence for necessary taxonomic revision in the family and the identification of cryptic species. Molecular Phylogenetics and Evolution, 81: 182-194. (doi) Zitatseite
2015-2019
- Yang, L., Sado, T., Hirt, M.V., Pasco-Viel, E., Arunachalam, M., Li, J., Wang, X., Freyhof, J., Saitoh, K., Simons, A.M., Miya, M., He, S., & Mayden, R.L. 2015. Phylogeny and polyploidy: resolving the classification of cyprinine fishes (Teleostei: Cypriniformes). Molecular Phylogenetics and Evolution, 85: 97-116. (PDF) Zitatseite
- Betancur-R, R., Wiley, E., Bailly, N., Acero, A., Miya, M., G. Lecointre, G. & Ortí, G. 2016. Phylogenetic Classification of Bony Fishes – Version 4. (WWW) Zitatseite
- Poulsen, J.Y., Sado, T., Hahn, C., Byrkjedal, I., Moku, M. & Miya, M. 2016. Preservation Obscures Pelagic Deep-Sea Fish Diversity: Doubling the Number of Sole-Bearing Opisthoproctids and Resurrection of the Genus Monacoa (Opisthoproctidae, Argentiniformes). PLoS ONE, 11 (8): e0159762. (doi) Zitatseite
- Betancur-R, R., Wiley, E.O., Arratia, G., Acero, A., Bailly, N., Miya, M., Lecointre, G. & Ortí, G. 2017. Phylogenetic classification of bony fishes. BMC Evolutionary Biology, 17: 162. (doi) Zitatseite
- Lavoué, S., Bertrand, J.A.M., Chen, W.-J., Ho, H.-C., Motomura, H., Sado, T. & Miya, M. 2017. Phylogenetic position of the rainbow sardine Dussumieria (Dussumieriidae) and its bearing on the early evolution of the Clupeoidei. Gene, 623:41–47. (doi) Zitatseite
- Sunobe, T., Sado, T., Hagiwara, K., Manabe, H., Suzuki, T., Kobayashi, Y., Sakurai, M., Dewa, S., Matsuoka, M., Shinomiya, A., Fukuda, K. & Miya, M. 2017. Evolution of bidirectional sex change and gonochorism in fishes of the gobiid genera Trimma, Priolepis, and Trimmatom. The Science of Nature, 104: 1–11. [plus supplement] (doi) Zitatseite >!--Evolution of bidirectional sex change and gonochorism in fishes of the gobiid genera Trimma, Priolepis, and Trimmatom-->
- Campbell, M.A., Sado, T., Shinzato, C., Koyanagi, R., Okamoto, M. & Miya, M. 2018. Multilocus phylogenetic analysis of the first molecular data from the rare and monotypic Amarsipidae places the family within the Pelagia and highlights limitations of existing data sets in resolving pelagian interrelationships. Molecular Phylogenetics and Evolution, 124: 172-180. (doi) Zitatseite
- Poulsen, J.Y., Miller, M.J., Sado, T., Hanel, R., Tsukamoto, K. & Miya, M. 2018. Resolving deep-sea pelagic saccopharyngiform eel mysteries: Identification of Neocyema and Monognathidae leptocephali and establishment of a new fish family „Neocyematidae“ based on larvae, adults and mitogenomic gene orders. PLoS ONE, 13 (7): e0199982. (doi) Zitatseite
- Lavoué, S., Bertrand, J.A.M., Shen, K.-N., Ratmuangkhwang, S., Sado, T., Miya, M. & Azizah, M.N.S. 2019. Deep genetic differentiation between two morphologically similar species of wolf herrings (Teleostei, Clupeoidei, Chirocentridae). Journal of Applied Ichthyology, First published: 01 March 2019.(doi) Zitatseite
2020-
- Fujiwara, Y., Kawato, M., Poulsen, J.Y., Ida, H., Chikaraishi, Y., Ohkouchi, N., Oguri, K., Gotoh, S., Ozawa, G., Tanaka, S., Miya, M., Sado, T., Kimoto, K., Toyofuku, T. & Tsuchida, S. 2021. Discovery of a colossal slickhead (Alepocephaliformes: Alepocephalidae): an active-swimming top predator in the deep waters of Suruga Bay, Japan. Scientific Reports, 11: 2490. (doi) Zitatseite
- Harrington, R.C., Friedman, M., Miya, M., Near, T.J. & Campbell, M.A. 2021. Phylogenomic resolution of the monotypic and enigmatic Amarsipus, the Bagless Glassfish (Teleostei, Amarsipidae). Zoologica Scripta, 50 (4): 411-422. (doi) Zitatseite