alt

Английский

Amer M. A., Miura T., Miura C., Yamauchi K. 2001. Involvement of sex steroid hormones in the early stages of spermatogenesis in Japanese huchen (Hucho perryi)

Arai T. 2010. Effect of salinity on strontium:calcium ratios in the otoliths of Sakhalin taimen, Hucho perryi

Arai T., Kotake A., Morita K. 2004. Evidence of downstream migration of Sakhalin taimen, Hucho perryi, as revealed by Sr:Ca ratios of otolith

Artamonova V. S., Kolmakova O. V., Kirillova E. A., Makhrov A. A. 2018. Phylogeny of Salmonoid Fishes (Salmonoidei) Based on mtDNA COI Gene Sequences (Barcoding)

Augerot X. 2000. Taimen and lenok in the Russian Far East commercial resources or targets for preservation

Balakirev E. S., Romanov N. S., Ayala E. J. 2014. . Complete mitochondrial genome of Sakhalin taimen Parahucho perryi (Salmoniformes, Salmonidae) without two frame-disrupting indels in the ND4 gene

Brevoort, J. C. 1856. Notes on some figures of Japanese fish taken from recent specimens by the artists of the U. S. Japan Expedition

Campbell M. A., Lopez J. A., Sado T., Miya M. 2013.Pike and salmon as sister taxa: Detailed intraclade resolution and divergence time estimation of Esociformes + Salmoniformes based on whole mitochondrial genome sequences

Certificate of attendance of II International Hucho Symposium. 2012

Cooke S. J., Hogan Z. S., Butcher P. A., Stokesbury M. J. W., Raghavan R., Gallaher A. J., Hammerschlag N., Danilchuk A. J. 2013. Angling for endangered fish: conservation problem or conservation action?

Crete-Lafreiere A., Weir L. K., Bernatchez L. 2012. Framing the Salmonidae Family Phelogenetic Portrait: A More Complete Picture from Increased Taxon Sampling

Edo K., Kawamula H., Higashi S. 2000. The structure and dimensions of redds and egg pockets of the endangered salmonid, Sakhalin taimen

Edo K., Kawaguchi Y., Nunokawa M., Kawamula H., Higashi S. 2005. Morphology, stomach contents and growth of the endangered salmonid, Sakhalin taimen Hucho perryi, captured in the Sea of Okhotsk, northern Japan: evidence of an anadromous form

Esteve M., McLennan D. A., Kawahara M. 2009. Spawning behaviour of Sakhalin taimen, Parahucho perryi, from northern Hokkaido

Esteve M., McLennan D. A., Kawahara M. 2011. Spawning behaviour of amemasu charr, Salvelinus leucomaenis leucomaenis, with a discussion of the macroevolutionary patterns of postspawning behaviour in the Salmoninae

Froufe E., Sefc K. M., Alexandrino P., Weiss S. 2004. Isolation and characterization of Brachymystax lenok microsatellite loci and cross-species amplification in Hucho spp. and Parahucho perryi

Fukushima M. 1994. Spawning migration and redd construction of Sakhalin taimen, Hucho perryi (Salmonidae) on northern Hokkaido Island, Japan

Fukushima, M. 2001. Salmonid habitat-geomorphology relationships in low-gradient streams

Fukushima M. 2012. Spatially Explicit Models for Freshwater Fish for Conservation Planning

Fukushima M., Shimazaki H., Rand P. S., Kaeriyama M. 2011. Reconstructing Sakhalin taimen Parahucho perryi historical distribution and identifying causes for local extinctions

Fukushima M., Harada C., Yamakawa A., Iizuka T. 2019. Anadromy sustained in the artificially land-locked population of Sakhalin taimen in northern Japan

Fukushima M., Rand P. 2021. High rates of consecutive spawning and precise homing in Sakhalin taimen (Parahucho perryi)

Hiramatsu N., Fukada H., Kitamura M., Shimizu M., Fuda H., Kobayashi K., Hara A. 2001. Serum Immunoglobulin M (IgM) in Sakhalin Taimen (Hucho perryi): Purification, Characterization, Circulating Levels, and Specific IgM Production by the Parasitic Salmincola stellatus

Honda K., Arai T., Takahashi N., Miyashita K. 2010a. Life history and migration of Sakhalin taimen, Hucho perryi, caught from Lake Akkeshi in eastern Hokkaido, Japan, as revealed by Sr:Ca ratios of otoliths

Honda K., Kagiwada H., Tojo N., Miyashita K. 2010b. Riverine environmental characteristics and seasonal habitat use by adult Sakhalin taimen Hucho perryi

Honda K., Kagiwada H., Takahashi N., Miyashita K. 2012. Seasonal stream habitat of adult Sakhalin taimen, Parahucho perryi, in the Bekanbeushi River system, eastern Hokkaido, Japan

Honda K., Kagiwada H., Takahashi N., Miyashita K. 2014. Movement patterns of adult Sakhalin taimen, Parahucho perryi, between stream habitats of the Bekanbeushi River system, eastern Hokkaido, Japan

Honda K., Takahashi N., Yamamoto K., Kagiwada H., Tsuda Y., Mitani Y., Miyashita K. 2017. First documentation of detailed behaviors of endangered adult Sakhalin taimen Parahucho perryi in the Bekanbeushi River system, eastern Hokkaido, Japan, using bio-logging and acoustic telemetry concurrently

Horreo J. L. 2017. Revisiting the mitogenomic phylogeny of Salmoninae: new insights thanks to recent sequencing advances

Kimura S., Hara A. 1993. New record of albino Japanese Huchen Hucho perryi

Kitano S. 2004. Ecological impacts of rainbow, brown and brook trout in Japanese inland waters

Kopun T., Winkler K. A., Weiss S. 2009. Eight new polymorphic microsatellite DNA markers Sakhalin taimen Parahucho perryi

Krupainko N. I. 2002. Distribution and reproduction of charr, taimen and grayling in the Primorie rivers

Kusuda S., Koide N., Kawamula H., Teranishi T., Yamaha E., Arai K. 2004. Cryopreservation of Sakhalin taimen Hucho perryi spermatozoa: effect of cryoprotectants on post-thaw fertility

Kusuda S., Koide N., Kawamula H., Teranishi T., Nakajima J.-I., Yamaha E., Arai K., Ohta H. 2005. Cryopreservation diluents for spermatozoa of Sakhalin taimen Hucho perryi

Lappin F. M., Shaw R. L., Macqueen D. J. 2016. Targeted sequencing for high-resolution evolutionary analyses following genome duplication in salmonid fish: Proof of concept for key components of the insulin-like growth factor axis

Makeev S. 2017. Action plan for Sakhalin taimen conservation

Makeev S. 2017. Action plan for Sakhalin taimen conservation. Thesis

Makeev S. S., Samarskiy V. G., Sukhonos P. S., Bobrov I. S., Proskuryakov K. A. 2013. Artificial rearing of Sakhalin taimen (Parahucho perryi) on salmonid fish farms in the district of Sakhalin region (Russia)

Makhrov A. A. 2017. A Narrowing of the Phenotypic Diversity Range after Large Rearrangements of the Karyotype in Salmonidae: The Relationship between Saltational Genome Rearrangements and Gradual Adaptive Evolution

Malyar V. V., Brykov V. A. 2014. Estimating population divergence time of Sakhalin taimen Parahucho perryi (Brevoort, 1856)

Malyar V. V., Brykov V. A. 2016. Genetic Variability in Anadromous Fishes, Chum Salmon Oncorhynchus keta (Walbaum, 1792), and Sakhalin Taimen Parahucho perryi (Brevoort, 1856) from the Northwestern Pacific as a Reflection of Paleoclimate Oscilations

Matveev V., Nishihara H., Okada N. 2007. Novel SINE families from salmons validate Parahucho (Salmonidae) as a distinct genus and give evidence that SINEs can incorporate LINE-related 3’–tails of other SINEs

Miyazaki Y., Sanou H., Terui A. 2013. Illustrated checklist of fishes from the Shubuto River System, southwestern Hokkaido, Japan

Mizumoto H. 2018. A challenge for developing the system that aimed to detect distribution and quantify biomass of endangered species Itou (Parahucho perryi) simultaneously by using eDNA technique

Mizumoto H., Mitsuzuka T., Araki H. 2020. An environmental DNA survey on distribution of an endangered salmonid species, Parahucho perryi, in Hokkaido, Japan

Nagasawa K., Urawa S., Awakura T. 1987. A cheklist and bibliography of parasites of salmonids of Japan

Nagasawa K., Urawa S. 1991. New records of the parasitic copepod Salmincola stellatus from Sakhalin taimen (Hucho perryi) in Hokkaido

Nagasawa K., Watanabe J. R., Kimura S., Hara A. 1994. Infection of Salmincola stellatus (Copepoda: Lernaeopodidae) on Sakhalin taimen Hucho perryi reared in Hokkaido, with a note on its attachment site

Nomoto K. 2010. Conservation biology on endangered salmonid species Sakhalin taimen Hucho perryi inhabiting river basins of eastern Hokkaido

Nomoto K., Omiya H., Sugimoto T., Akiba K., Edo K., Higashi S. 2010. Potential negative impacts of introduced rainbow trout on endangered Sakhalin taimen through redd disturbance in an agricultural stream, eastern Hokkaido

Oakley T. H., Phillips R. B. 1999. Phylogeny of salmonine fishes based on growth hormone introns: Atlantic (Salmo) and Pacific (Oncorhynchus) Salmon are not sister taxa

Oleinik A. G., Skurikhina L. A. 2008. Phylogenetic Relationships of Sakhalin Taimen Parahucho perryi Inferred from PCR–RFLP Analysis of Mitochondrial DNA

Ondachi S., Seo Y. 2004. Small mammals and a frog found in the stomach of a Sakhalin Taimen Hucho perryi (Brevoort) in Hokkaido

Popiolek M., Kusznierz J., Kotusz J., Witkowski A. 2013. Parasites of Hucho hucho (L.), Hucho taimen (Pall.), and Parahucho perryi (Brevoort) (Salmonidae, Actinopterygii) - the state of knowledge

Rand P. S. 2006. Parahucho perryi. IUCN assessment

Rand P. S. 2012. Assessing status of Hucho and Parahucho using IUCN categories and criteria and prioritizing conservation action

Rand P. S., Fukushima M. 2014. Estimating the size of the spawning population and evaluating environmental controls on migration for a critically endangered Asian salmonid, Sakhalin taimen

Shed’ko S. V. 2002. Phylogeny of mitochondrial DNA in Salmonids of the subfamily Salmoninae: analysis of the cytochrome b gen sequences

Shed’ko S. V., Ginatulina L. K., Parpura I. Z., Ermolenko A. V. 1996. Evolutionary and taxonomic relationships among Far-Eastern Salmonid fish inferred from mitochondrial DNA divergence

Shed'ko S. V., Miroshnichenko I. L., Nemkova G. A. 2013. Complete mitochondrial genome of the endangered Sakhalin taimen Parahucho perryi (Salmoniformes, Salmonidae)

Shitova M. V., Yurchenko A. A., Shaykhaev E. G., Zhivotovsky L. A. 2012. A panel of microsatellite loci for population studies of Sakhalin taimen Hucho perryi (Brevoort)

Skurikhina L. A., Oleinik A., Kukhlevskiy A., Malyar V. V. 2013. Intraspecific Polymorphism of mtDNA in Sakhalin Taimen Parahucho perryi

Sloat M. R. 2023. What the Taimen Said: An Urgent for Conservation of World's Largest Salmonids

Suzuki K., Yoshitomi T., Kawaguchi Y., Ichimura M., Edo K., Otake T. 2011. Migration history of Sakhalin taimen Hucho perryi captured in the Sea of Okhotsk, northern Japan, using otolith Sr:Ca ratios

Wang Y., Xiong F., Song Zh. 2022. Molecular Phylogeny and Adaptive Mitochondrial DNA Evolution of Salmonids (Pisces: Salmonidae)

Yoshitomi T., Suzuki K., Ichimura H., Homma-Takeda S., Myahara N. 2010. Visualization of skeletal structure in Sakhalin taimen, Hucho perryi using in vivo three-dimensional micro X-ray computed tomography

Zhivotovsky L. A., Yurchenko A. A., Nikitin V. D., Safronov S. N., Shitova M. V., Zolotukhin S. F., Makeev S. S., Weiss S., Rand P. S., Semenchenko A. Yu. 2015. Eco-geographic units, population hierarchy, and a two-level conservation strategy with reference to a critically endangered salmonid, Sakhalin taimen Parahucho perryi

Zimmerman C. E., Rand P. S., Fukushima M., Zolotukhin S. F. 2011. Migration of Sakhalin taimen (Parahucho perryi): evidence of freshwater resident life history types

Zolotukhin S. F., Makeev S. S., Semenchenko A. Yu. 2013. Current status of the Sakhalin taimen, Parahucho perryi (Brevoort), on the mainland coast of the Sea of Japan and the Okhotsk Sea

Заголовок

Меню