Abstract
Global introductions of aquatic species and their associated pathogens are threatening worldwide biodiversity. The introduction of two North American crayfish species, Procambarus clarkii and Pacifastacus leniusculus, into Japan in 1927 seems to have negatively affected native Japanese crayfish populations of Cambaroides japonicus. Several studies have shown the decline of these native populations due to competition, predation and habitat colonization by the two invasive North American crayfish species. Here, we identify an additional factor contributing to this decline. We report the first crayfish plague outbreaks in C. japonicus populations in Japan, which were diagnosed using both histological and molecular approaches (analyses of the internal transcribed spacer region). Subsequent analyses of the mitochondrial ribosomal rnnS and rnnL regions of diseased specimens indicate that these outbreaks originated from a P. clarkii population and identify a novel haplotype of Aphanomyces astaci, d3-haplotype, hosted by P. clarkii. Overall, our findings demonstrate the first two cases of crayfish plague in Japan, and the first case in a non-European native crayfish species, which originated from the red swamp crayfish P. clarkii. This finding is a matter of concern for the conservation of the native freshwater species of Japan and also highlights the risk of introducing crayfish carrier species into biogeographic regions harboring species susceptible to the crayfish plague.
Highlights
Global movements of aquatic animals have facilitated the emergence of infectious diseases and have caused great losses in aquaculture and aquatic wildlife populations [1]
Macroscopic observations showed that all P. clarkii and P. leniusculus specimens exhibited characteristic melanized areas on the subabdominal cuticle, joints and chelae (Fig 2)
One C. japonicus from each of the two mortality event localities, one C. japonicus from the location proximate to the second outbreak, one P. leniusculus and five P. clarkii tested positive for A. astaci based on amplification of the ITS region with the diagnostic primers 42 [40] and 640 [41] (Table 1)
Summary
Global movements of aquatic animals have facilitated the emergence of infectious diseases and have caused great losses in aquaculture and aquatic wildlife populations [1]. Several pathogens are known to have crept into new geographic areas and infected new hosts, resulting in emerging infectious diseases [1] This is the case of Aphanomyces astaci Schikora 1903 (Oomycota), the pathogen responsible for the crayfish plague disease that caused the decimation and near extinction of the native European crayfish populations [4, 5]. This organism chronically infects its natural hosts, North.
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