Standard

DNA barcoding reveals invasion of two cryptic Sinanodonta mussel species (Bivalvia: Unionidae) into the largest Siberian river. / Винарский, Максим Викторович; Болотов, И.Н.; Беспалая, Ю. В.; Аксенова, О. В.; Гофаров, М. Ю.; Кондаков, А.В.; Вихрев, И. В.

в: Limnologica, Том 69, 03.2018, стр. 94-102.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Винарский, МВ, Болотов, ИН, Беспалая, ЮВ, Аксенова, ОВ, Гофаров, МЮ, Кондаков, АВ & Вихрев, ИВ 2018, 'DNA barcoding reveals invasion of two cryptic Sinanodonta mussel species (Bivalvia: Unionidae) into the largest Siberian river', Limnologica, Том. 69, стр. 94-102. https://doi.org/10.1016/j.limno.2017.11.009

APA

Винарский, М. В., Болотов, И. Н., Беспалая, Ю. В., Аксенова, О. В., Гофаров, М. Ю., Кондаков, А. В., & Вихрев, И. В. (2018). DNA barcoding reveals invasion of two cryptic Sinanodonta mussel species (Bivalvia: Unionidae) into the largest Siberian river. Limnologica, 69, 94-102. https://doi.org/10.1016/j.limno.2017.11.009

Vancouver

Винарский МВ, Болотов ИН, Беспалая ЮВ, Аксенова ОВ, Гофаров МЮ, Кондаков АВ и пр. DNA barcoding reveals invasion of two cryptic Sinanodonta mussel species (Bivalvia: Unionidae) into the largest Siberian river. Limnologica. 2018 Март;69:94-102. https://doi.org/10.1016/j.limno.2017.11.009

Author

Винарский, Максим Викторович ; Болотов, И.Н. ; Беспалая, Ю. В. ; Аксенова, О. В. ; Гофаров, М. Ю. ; Кондаков, А.В. ; Вихрев, И. В. / DNA barcoding reveals invasion of two cryptic Sinanodonta mussel species (Bivalvia: Unionidae) into the largest Siberian river. в: Limnologica. 2018 ; Том 69. стр. 94-102.

BibTeX

@article{4cbc39230f87437d9692c0b7992c6e40,
title = "DNA barcoding reveals invasion of two cryptic Sinanodonta mussel species (Bivalvia: Unionidae) into the largest Siberian river",
abstract = "This study provides the first record of the two distinct mitochondrial lineages of Sinanodonta mussels in the Yenisei River that forms the largest Siberian river basin. It is the first discovery of alien populations of these mussels in Russia. The two mussel lineages are living in sympatry in a river site heated by warm water discharge of the Krasnoyarsk thermal power plant. These lineages represent two cryptic species: Sinanodonta aff. woodiana lineage E and S. ovata Bogatov and Starobogatov, 1996. The population of the first species from the Yenisei shares the invasive haplotype that is widely spread across Europe. The molecular evidence suggests that this lineage originated from the Yangtze River, China. The native distribution of the second species ranges across South Korea, Japan and small basins in the south of Primorsky Krai, Russian Far East. The possible vector of this invasion is the introduction of fish hosts or adult mussels by aquarists. Our results highlight that the populations of Sinanodonta species outside their native ranges may represent an overlooked but important threat for freshwater ecosystems in Russia that should be considered an unexpected nation-level ecological problem. Additionally, our discovery reveals the possibility of a successful joint invasion of different Sinanodonta species into a single river that may increase negative impacts of invaders on indigenous communities. Some implications of our findings for systematics of the unionid mussels are also discussed.",
keywords = "Alien species, Biological invasion, Sinanodonta, Yenisei river",
author = "Винарский, {Максим Викторович} and И.Н. Болотов and Беспалая, {Ю. В.} and Аксенова, {О. В.} and Гофаров, {М. Ю.} and А.В. Кондаков and Вихрев, {И. В.}",
note = "Funding Information: The authors would like to acknowledge two anonymous reviewers for their comments and suggestions which substantially improved the manuscript. This study has been supported by the Federal Agency for Scientific Organizations (nos. 0409-2016-0022 and 0409-2015-0143), Russian Ministry for Education and Science (projects no. 6.1352.2017/4.6 and 6.2343.2017/4.6) and the Russian Foundation for Basic Research, RFBR (nos. 16-05-00854, 17-45-290016, 17-45-290436, and 17-45-290066). Appendix A",
year = "2018",
month = mar,
doi = "10.1016/j.limno.2017.11.009",
language = "English",
volume = "69",
pages = "94--102",
journal = "Limnologica",
issn = "0075-9511",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - DNA barcoding reveals invasion of two cryptic Sinanodonta mussel species (Bivalvia: Unionidae) into the largest Siberian river

AU - Винарский, Максим Викторович

AU - Болотов, И.Н.

AU - Беспалая, Ю. В.

AU - Аксенова, О. В.

AU - Гофаров, М. Ю.

AU - Кондаков, А.В.

AU - Вихрев, И. В.

N1 - Funding Information: The authors would like to acknowledge two anonymous reviewers for their comments and suggestions which substantially improved the manuscript. This study has been supported by the Federal Agency for Scientific Organizations (nos. 0409-2016-0022 and 0409-2015-0143), Russian Ministry for Education and Science (projects no. 6.1352.2017/4.6 and 6.2343.2017/4.6) and the Russian Foundation for Basic Research, RFBR (nos. 16-05-00854, 17-45-290016, 17-45-290436, and 17-45-290066). Appendix A

PY - 2018/3

Y1 - 2018/3

N2 - This study provides the first record of the two distinct mitochondrial lineages of Sinanodonta mussels in the Yenisei River that forms the largest Siberian river basin. It is the first discovery of alien populations of these mussels in Russia. The two mussel lineages are living in sympatry in a river site heated by warm water discharge of the Krasnoyarsk thermal power plant. These lineages represent two cryptic species: Sinanodonta aff. woodiana lineage E and S. ovata Bogatov and Starobogatov, 1996. The population of the first species from the Yenisei shares the invasive haplotype that is widely spread across Europe. The molecular evidence suggests that this lineage originated from the Yangtze River, China. The native distribution of the second species ranges across South Korea, Japan and small basins in the south of Primorsky Krai, Russian Far East. The possible vector of this invasion is the introduction of fish hosts or adult mussels by aquarists. Our results highlight that the populations of Sinanodonta species outside their native ranges may represent an overlooked but important threat for freshwater ecosystems in Russia that should be considered an unexpected nation-level ecological problem. Additionally, our discovery reveals the possibility of a successful joint invasion of different Sinanodonta species into a single river that may increase negative impacts of invaders on indigenous communities. Some implications of our findings for systematics of the unionid mussels are also discussed.

AB - This study provides the first record of the two distinct mitochondrial lineages of Sinanodonta mussels in the Yenisei River that forms the largest Siberian river basin. It is the first discovery of alien populations of these mussels in Russia. The two mussel lineages are living in sympatry in a river site heated by warm water discharge of the Krasnoyarsk thermal power plant. These lineages represent two cryptic species: Sinanodonta aff. woodiana lineage E and S. ovata Bogatov and Starobogatov, 1996. The population of the first species from the Yenisei shares the invasive haplotype that is widely spread across Europe. The molecular evidence suggests that this lineage originated from the Yangtze River, China. The native distribution of the second species ranges across South Korea, Japan and small basins in the south of Primorsky Krai, Russian Far East. The possible vector of this invasion is the introduction of fish hosts or adult mussels by aquarists. Our results highlight that the populations of Sinanodonta species outside their native ranges may represent an overlooked but important threat for freshwater ecosystems in Russia that should be considered an unexpected nation-level ecological problem. Additionally, our discovery reveals the possibility of a successful joint invasion of different Sinanodonta species into a single river that may increase negative impacts of invaders on indigenous communities. Some implications of our findings for systematics of the unionid mussels are also discussed.

KW - Alien species

KW - Biological invasion

KW - Sinanodonta

KW - Yenisei river

UR - http://www.scopus.com/inward/record.url?scp=85044356805&partnerID=8YFLogxK

U2 - 10.1016/j.limno.2017.11.009

DO - 10.1016/j.limno.2017.11.009

M3 - Article

VL - 69

SP - 94

EP - 102

JO - Limnologica

JF - Limnologica

SN - 0075-9511

ER -

ID: 10954745