Akademik Veri Yönetim Sistemi
Aquaculture, cilt.551, 2022 (SCI-Expanded)
© 2022 Elsevier B.V.The shrimp industry has been greatly expanded in the past two decades in several countries throughout the globe to provide human beings with nutritious seafood and healthy protein. In this concern, shrimp farmers have tried to increase their production rates by intensifying shrimp in culture facilities. However, intensive farming may increase the possibilities of the entrance of emergent pathogens, which will dramatically cause severe economic loss and reduce the profitability of shrimp culture. Shrimp vibriosis is one of the devasting bacterial diseases that commonly affect a wide range of shrimp species. There are many diseases associated with Vibrio infections in shrimp, such as red disease, “seagull syndrome”, “Bright red” syndrome, luminous vibriosis, shell disease, zoea II syndrome, septic hepatopancreatic necrosis, early mortality syndrome or acute hepatopancreatic necrosis disease. Owing to the above, preventive strategies are considered “critical” and even “necessary” to be applied to prevent the negative impacts of shrimp vibriosis. On the other hand, the FDA has banned antibiotic usage for food animals because of their negative consequences on the host, human beings, and environment. Researchers have paid great interest in finding possible, effective, economical, and environmentally safe alternatives to antibiotics. Currently, vaccination, water quality control, bacteriophages “phage therapy”, biosecurity protocols, herbal immunomodulators, and several others are extensively utilized to reduce the impacts of shrimp vibriosis. The trend of using probiotics, postbiotics, parabiotics, prebiotics, and synbiotics in controlling shrimp diseases has been comprehensively evaluated in several publications and their efficacy to limit the usage of antibiotics in aquaculture has been proven. The possible efficacy of pro-, post-, pre-, and synbiotics as possible control methods of shrimp vibriosis has been assessed in many reseach studies. Of interest, the present review article draws the most current knowledge on the applications and beneficial roles of pro-, post-, pre-, and synbiotics to fortify shrimp immunity and decrease the mortalities caused by vibriosis in several shrimp species. It will also spotlight the proposed modes of action of pro-, post-, pre-, and synbiotics and discuss the research gaps that merit additional explanations. Overall, the literature will be valuable to enhance the sustainability of shrimp culture, and increase the welfare and resistance of cultured shrimp against vibriosis.