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Differential susceptibility of white bass (Morone chrysops ), striped bass ( Morone saxatilis ) and hybrid striped bass ( M. chrysops × M. saxatilis ) to Flavobacterium columnare and effects of mucus on bacterial growth and biofilm development
Author(s) -
Farmer Bradley D.,
Fuller Sidney Adam,
Beck Benjamin H.,
Abernathy Jason W.,
Lange Miles D.,
Webster Carl D.
Publication year - 2021
Publication title -
journal of fish diseases
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.819
H-Index - 85
eISSN - 1365-2761
pISSN - 0140-7775
DOI - 10.1111/jfd.13272
Subject(s) - biology , bass (fish) , morone , mucus , morone saxatilis , zoology , microbiology and biotechnology , fishery , ecology
Columnaris disease generates substantial losses of many freshwater fish species; one is the hybrid striped bass. The ubiquitous aquatic bacterium Flavobacterium columnare can be highly effective in biofilm formation on fish skin and gills. Previous research showed a difference between columnaris disease susceptibility of hybrid striped bass ( Morone saxatilis  ×  M. chrysops ) and white bass ( M. chrysops ). To understand these differential susceptibilities and possible mucosal relationship, we assessed total bacterial growth and biofilm formation with mucus derived from each moronid parental species: white bass and striped bass ( M. saxatilis ). Differential susceptibility was confirmed of the other parent species, the striped bass ( M. saxatilis ). In addition to intraspecies investigations, individual hybrid striped bass mucosal affects were also studied for deferential responses to bacterial growth and biofilm formation. Species‐ and concentration‐dependent differences were detected in the total growth of the bacteria to host mucus. Our data suggest that bass mucus can significantly affect biofilm formation with the F. columnare isolate tested. There appears to be a correlation between the bacteria's response of growth and biofilms and bass species susceptibility. This study provides insight into our understanding of the host–pathogen interaction between F. columnare and moronids.

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