Isolation and Characterization of Vibrio kanaloae as a Major Pathogen Associated with Mass Mortalities of Ark Clam, Scapharca broughtonii, in Cold Season.

Bowen Huang,Lusheng Xin,Chenghua Li,Chen Li,Xiang Zhang,Changming Bai,Chongming Wang

doi:10.3390/microorganisms9102161

Bowen Huang, Lusheng Xin + Show 5 more

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https://doi.org/10.3390/microorganisms9102161

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Abstract

High temperature is a risk factor for vibriosis outbreaks. Most vibrios are opportunistic pathogens that cause the mortality of aquatic animals at the vibrio optimal growth temperature (~25 °C), whereas a dominant Vibrio kanaloae strain SbA1-1 is isolated from natural diseased ark clams (Scapharca broughtonii) during cold seasons in this study. Consistent symptoms and histopathological features reappeared under an immersion infection with SbA1-1 performed at 15 °C. The pathogenicity difference of SbA1-1 was assessed under different temperatures (15 °C and 25 °C). The cumulative mortality rates of ark clams were significantly higher at the low temperature (15 °C) than at the high temperature (25 °C); up to 98% on 16th day post SbA1-1 infection. While the growth ratio of SbA1-1 was retarded at the low temperature, the hemolytic activity and siderophores productivity of SbA1-1 were increased. This study constitutes the first isolation of V. kanaloae from the natural diseased ark clams (S. broughtonii) in cold seasons and the exposition of the dissimilar pathogenicity of SbA1-1 at a different temperature. All the above indicates that V. kanaloae constitutes a threat to ark clam culture, especially in cold seasons.

Highlights

Published: 16 October 2021Ark clams, Scapharca broughtonii, are members of the Arcoidea superfamily, class Bivalvia, phylum Mollusca [1]
Since 2012, epidemiological investigations have confirmed that the ark clam is the host of the Ostreid herpesvirus 1 (OsHV-1) and OsHV-1 is considered a major virus pathogen associated with the mass mortality of molluscs during the warm seasons, leading to severe economic losses [6,8]
OsHV-1 copy number of the 10 tested samples was below 10 copies/ng DNA with no staOsHV-1 copy number of the 10 tested samples was below 10 copies/ng DNA with no tistical difference from the negative control (Figure S1)

Summary

Introduction

Published: 16 October 2021Ark clams (blood clam), Scapharca broughtonii, are members of the Arcoidea superfamily, class Bivalvia, phylum Mollusca [1]. Since 2012, epidemiological investigations have confirmed that the ark clam is the host of the Ostreid herpesvirus 1 (OsHV-1) and OsHV-1 is considered a major virus pathogen associated with the mass mortality of molluscs during the warm seasons, leading to severe economic losses [6,8]. In 2017, the bacterial pathogen, Vibrio harveyi, was found to cause the mass mortality of ark clams [4]. The occurrence of an aquatic disease is a comprehensive interaction of hosts, microorganisms, and environmental factors [9,10]. Vibriosis, caused by Vibrio spp., is one of the most prevalent bacterial diseases in the cultured mollusc worldwide [13,14,15,16,17,18]. Aside from the well-known opportunistic pathogens associated with mass mortality in molluscs: V

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