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Genetic relatedness of a new Japanese isolates of Alexandrium ostenfeldii bloom population with global isolates.

Authors :
Sildever, Sirje
Jerney, Jacqueline
Kremp, Anke
Oikawa, Hiroshi
Sakamoto, Setsuko
Yamaguchi, Mineo
Baba, Katsuhisa
Mori, Akihiro
Fukui, Toshinori
Nonomura, Takumi
Shinada, Akiyoshi
Kuroda, Hiroshi
Kanno, Nanako
Mackenzie, Lincoln
Anderson, Donald M.
Nagai, Satoshi
Source :
Harmful Algae. Apr2019, Vol. 84, p64-74. 11p.
Publication Year :
2019

Abstract

• Genetic relatedness of Japanese and global A. ostefeldii isolates was investigated. • Western Japanese isolates group with isolates from low-saline and shallow areas. • Northern Japanese isolates form a separate group explained by geographic isolation. • Low genetic diversity of western Japanese population implies a recent introduction. • Bloom in a shallow coastal lagoon in western Japan after a change in salinity. In recent years, blooms of toxic Alexandrium ostenfeldii strains have been reported from around the world. In 2013, the species formed a red tide in a shallow lagoon in western Japan, which was the first report of the species in the area. To investigate the genetic relatedness of Japanese A. ostenfeldii and global isolates, the full-length SSU, ITS and LSU sequences were determined, and phylogenetic analyses were conducted for isolates from western and northern Japan and from the Baltic Sea. Genotyping and microsatellite sequence comparison were performed to estimate the divergence and connectivity between the populations from western Japan and the Baltic Sea. In all phylogenetic analyses, the isolates from western Japan grouped together with global isolates from shallow and low saline areas, such as the Baltic Sea, estuaries on the east coast of U.S.A. and from the Bohai Sea, China. In contrast, the isolates from northern Japan formed a well-supported separate group in the ITS and LSU phylogenies, indicating differentiation between the Japanese populations. This was further supported by the notable differentiation between the sequences of western and northern Japanese isolates, whereas the lowest differentiation was found between the western Japanese and Chinese isolates. Microsatellite genotyping revealed low genetic diversity in the western Japanese population, possibly explained by a recent introduction to the lagoon from where it was detected. The red tide recorded in the shallow lagoon followed notable changes in the salinity of the waterbody and phytoplankton composition, potentially facilitating the bloom of A. ostenfeldii. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
15689883
Volume :
84
Database :
Academic Search Index
Journal :
Harmful Algae
Publication Type :
Academic Journal
Accession number :
136582680
Full Text :
https://doi.org/10.1016/j.hal.2019.02.005