Salmonella Contamination Associated with Bacterial Soft Rot of Fresh Fruits and Vegetables in the Marketplace.

Wash water from 66% of 401 samples of fresh fruits and vegetables collected in the marketplace and affected by bacterial soft rot were positive for suspected strains of Salmonella, i.e., black, hydrogen sulfide-positive colonies on Salmonella-Shigella agar incubated for 24 h at 37°C. By comparison, 30% of 402 healthy samples were positive. Incidence of suspected Salmonella in broth enrichment cultures was 59% in 533 soft rotted samples and 33% in 781 healthy samples. Thirty percent of 166 representative strains of suspected Salmonella, selected at random from 20 different commodities, were confirmed to be Salmonella by physiological and serological tests. Adjusting incidence values accordingly, Salmonella contamination was potentially present in at least 18 to 20% of soft rotted samples and in 9 to 10% of healthy samples. Wash water from 120 paired healthy and soft rotted fruits and vegetables contained an average of 1.0 × 105 and 3.7 × 106 CFU/ml, respectively, of suspected Salmonella-a ratio of 1:37. Average concentrations of suspected Salmonella in enrichment cultures of healthy and soft rotted samples were 7.5 × 107 and 2.7 × 109 CFU/ml, respectively, also in the ratio of 1:37. Fresh potato, carrot, and pepper disks coinoculated with the soft rot bacterium Erwinia carotovora and with Salmonella typhimurium, and incubated for up to 72 h at room temperature, contained approximately 10 times the concentration of S. typhimurium as did disks inoculated with Salmonella alone. Disks coinoculated with Pseudomonas viridiflava and S. typhimurium contained approximately three times the Salmonella populations as disks inoculated with Salmonella alone.

[1]  Douglas L. Park,et al.  Direct Application of a New Hypochlorite Sanitizer for Reducing Bacterial Contamination on Foods. , 1991, Journal of food protection.

[2]  G. Ercolani Bacteriological quality assessment of fresh marketed lettuce and fennel , 1976, Applied and environmental microbiology.

[3]  F. Bryan,et al.  Microbiological Profiles of Egyptian Raw Vegetables and Salads. , 1985, Journal of food protection.

[4]  M. J. Ceponis,et al.  Disorders in citrus shipments to the New York market, 1972-1984 , 1986 .

[5]  R. G. Vargas,et al.  Contamination on fresh vegetables during cultivation and marketing , 1987 .

[6]  M Fantasia,et al.  Salmonella enteritidis in Italy. , 1994, International journal of food microbiology.

[7]  J. Cowden,et al.  An outbreak of Salmonella saint-paul infection associated with beansprouts , 1990, Epidemiology and Infection.

[8]  M. Osterholm,et al.  Changing epidemiology of food-borne disease: a Minnesota perspective. , 1994, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.

[9]  C. Wei,et al.  Growth and Survival of Salmonella montevideo on Tomatoes and Disinfection with Chlorinated Water. , 1995, Journal of food protection.

[10]  G. Lightner,et al.  Disorders in crisphead lettuce shipments to the New York market, 1972-1984 , 1985 .

[11]  E. Nurmi,et al.  The growth of salmonellae in tomatoes. , 1991, International journal of food microbiology.

[12]  R. Cappellini Disorders in potato shipments to the New York Market, 1972-1980 , 1984 .

[13]  L. Beuchat,et al.  Fate of Salmonella montevideo on and in raw tomatoes as affected by temperature and treatment with chlorine , 1995, Applied and environmental microbiology.

[14]  E. Geldreich,et al.  FECAL CONTAMINATION OF FRUITS AND VEGETABLES DURING CULTIVATION AND PROCESSING FOR MARKET. A REVIEW1 , 1971 .

[15]  N. Al-Hindawi,et al.  Presence and Distribution of Salmonella Species in some Local Foods from Baghdad City, Iraq. , 1979, Journal of food protection.