Abstract
BackgroundThe monitoring of pathogens of fishery auction markets is important to obtain safe fishery products regarding hygiene and sanitation. In this study, aerobic, coliform, Escherichia coli, and Vibrio cholerae were monitored in the fishery products and environmental samples obtained from fishery auction markets.MethodsThe fishery products (flounder, octopus, skate, rock cod, sea bass, snail, monkfish, flatfish, comb pen shell, corb shell, conger eel, hairtail, croaker, and pilchard) were placed in filter bags, and the environmental samples (samples from the water tanks at the fishery auction markets, seawater from the fishery distribution vehicles, ice from wooden or plastic boxes, and surface samples from wooden and plastic boxes used for fish storage) were collected. Aerobic bacteria, E. coli, and coliform in the samples were enumerated on aerobic count plates and E. coli/coliform count plates, respectively. For V. cholerae O1 and V. cholerae non-O1 quantification, most probable number (MPN)-PCR analysis was performed.ResultsAerobic and coliform bacteria were detected in most samples, but E. coli was not detected. Wooden boxes were contaminated with high levels of aerobic and coliform bacteria in all seasons (spring, summer, and fall). During fall, V. cholerae non-O1 were detected in snails, hairtails, croakers, flatfishes, pilchards, plastic boxes, and water samples.ConclusionsThese results indicate an increased prevalence of V. cholerae contamination in fishery products in fall, including food contact samples, which can be vehicles for cross-contamination.
Highlights
The monitoring of pathogens of fishery auction markets is important to obtain safe fishery products regarding hygiene and sanitation
From March to September 2017, 41 fishery products (March–April, 14; June–July, 16; and September, 11) and 37 environmental samples (March–April, 15; June– July, 8; and September, 14), which were collected from two fishery auction markets located in the West Sea of S
At fishery auction market A, aerobic bacteria were detected in the fishery products (1.5 × 102–2.2 × 104 CFU/ g) and the environmental samples (2.7 × 10–2.2 × 106 CFU/mL or /100 cm2), and coliform were detected in the fishery products (7.2 × 10–1.9 × 102 CFU/g) and the environmental samples (6.0 × 10–1.6 × 102 CFU/mL or /100 cm2) in spring (Table 2)
Summary
The monitoring of pathogens of fishery auction markets is important to obtain safe fishery products regarding hygiene and sanitation. Aerobic, coliform, Escherichia coli, and Vibrio cholerae were monitored in the fishery products and environmental samples obtained from fishery auction markets. Global fish production increased to 171 million tons in 2016, and the amount of fish consumed has been growing continually (20.5 kg/person/year in 2017) (FAO 2018). A considerably dynamic import and export of fishery products has been evidenced between countries (FAO 2019). More fish and fishery products were consumed in S. Korea in 2016 (59.9 kg/person/year) than meat (56.0 kg/person/ year). Korea was 67.3% in 2016 (KREI 2017). Fishery products arrive at the auction market directly after harvesting.
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