Escherichia coli Contamination of Lettuce Grown in Soils Amended with Animal Slurry

Jensen, Annette Nygaard; Storm, Christina; Forslund, Anita; Baggesen, Dorte Lau; Dalsgaard, Anders

doi:10.4315/0362-028x.jfp-13-011

Cited by 19 publications

(13 citation statements)

References 46 publications

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“…One soil drag sample was positive on the same farm for Salmonella spp. These results support that detection of generic E. coli in spinach at high levels could be considered an indicator of a recent exposure to risk factors for Salmonella and potentially other foodborne pathogens (46), as it has been envisioned by the recent initiative of the EFSA to use E. coli as a hygiene criterion in the production of leafy greens (8).…”

Section: Discussionsupporting

confidence: 74%

Multifactorial Effects of Ambient Temperature, Precipitation, Farm Management, and Environmental Factors Determine the Level of Generic Escherichia coli Contamination on Preharvested Spinach

Park

Navratil

Gregory³

et al. 2015

Appl Environ Microbiol

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A repeated cross-sectional study was conducted to identify farm management, environment, weather, and landscape factors that predict the count of generic Escherichia coli on spinach at the preharvest level. E. coli was enumerated for 955 spinach samples collected on 12 farms in Texas and Colorado between 2010 and 2012. Farm management and environmental characteristics were surveyed using a questionnaire. Weather and landscape data were obtained from National Resources Information databases. A two-part mixed-effect negative binomial hurdle model, consisting of a logistic and zero-truncated negative binomial part with farm and date as random effects, was used to identify factors affecting E. coli counts on spinach. Results indicated that the odds of a contamination event (non-zero versus zero counts) vary by state (odds ratio [OR] ‫؍‬ 108.1). Odds of contamination decreased with implementation of hygiene practices (OR ‫؍‬ 0.06) and increased with an increasing average precipitation amount (mm) in the past 29 days (OR ‫؍‬ 3.5) and the application of manure (OR ‫؍‬ 52.2). On contaminated spinach, E. coli counts increased with the average precipitation amount over the past 29 days. The relationship between E. coli count and the average maximum daily temperature over the 9 days prior to sampling followed a quadratic function with the highest bacterial count at around 24°C. These findings indicate that the odds of a contamination event in spinach are determined by farm management, environment, and weather factors. However, once the contamination event has occurred, the count of E. coli on spinach is determined by weather only. Foodborne disease outbreaks associated with produce impose a considerable public health burden (1). Among different produce commodities, leafy green vegetables have been identified as a group of high concern from a microbiological safety perspective due to their being implicated in multiple outbreaks of foodborne disease with high numbers of illnesses worldwide (2). Indeed, leafy green vegetables are commonly grown in open farm fields, where they may be exposed to microbial contamination from soil, manure fertilizer, irrigation water, and intrusions of wild or domestic animals, and they are likely to be consumed fresh or minimally processed. Enteric foodborne pathogens, such as Salmonella and Escherichia coli O157:H7, have been the main causative agents responsible for foodborne outbreaks associated with leafy green vegetables in the United States (3). These pathogens are spread in the environment through feces of infected animals and humans (4). While contamination of leafy greens with these foodborne pathogens has major consequences (2), fortunately it occurs at a low frequency (5, 6). The low frequency and heterogeneous distribution of these pathogens in the produce field make their detection difficult, costly, and time-consuming. Instead indicator organisms are routinely used by the industry, environmental agencies, and public health organizations to verify effective implementation of good ag...

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Section: Discussionsupporting

confidence: 74%

Multifactorial Effects of Ambient Temperature, Precipitation, Farm Management, and Environmental Factors Determine the Level of Generic Escherichia coli Contamination on Preharvested Spinach

Park

Navratil

Gregory³

et al. 2015

Appl Environ Microbiol

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“…The contamination of plant food such as lettuce with E. coli has been shown to happen by the transfer from slurry fertilizer, with E. coli serving as an indicator of fecal contamination and potential bacterial enteric pathogens. 26 Coliform contaminations in fertilized soil generally persist for more than 100 days after the application of manure with a decrease of ∼1 log 10 per month from the initial levels of about 4 log 10 CFU g −1 . Photodynamic Decontamination based on a cationic derivate of curcumin induces an antibacterial effect (3 log 10 criterion) at concentrations of the photoactive compound of 10 µM or higher on samples with a "flat" geometry, i.e.…”

Section: Discussionmentioning

confidence: 99%

New horizons in microbiological food safety: Photodynamic Decontamination based on a curcumin derivative

Glueck

Schamberger

Eckl

et al. 2017

Photochem Photobiol Sci

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Outbreaks of foodborne diseases are regularly reported worldwide. In particular, uncooked plant food is considered risky in terms of microbiological safety. Food is also the most important transmission route for resistant microorganisms from animals to humans. Photodynamic Decontamination (PDc) of foodstuff was recently introduced as a novel approach for increasing microbiological food safety. We investigated the efficiency of PDc on plant food with different geometries (flat, spherical and complex) using a two-dimensional LED array as a light source (435 nm, 33.8 J cm) and the cationic curcumin derivative SACUR-3 as a photosensitiser. A photoantibacterial effect (>3 log CFU reduction) was achieved on all flat substrates (slices of cucumber, tomato and lettuce) with 10 μM, 50 μM or 100 μM SACUR-3. The maximal photokilling with a relative inactivation of 5.6 log was measured on lettuce using 50 μM of the photoactive compound. Phototreatment of non-germinated fenugreek seeds and mung beans was successful if the spherical objects were rotated while under illumination (antibacterial effect at 100 μM SACUR-3). The decontamination of mung bean germlings with a more complex geometry using the PDc approach was ineffective with the two-dimensional light source. In conclusion, PDc based on the cationic curcumin derivative SACUR-3 is very effective at improving the microbiological safety of plant food with a flat or spherical geometry. More complex objects will require the development of novel illumination devices.

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“…The survival of food-borne pathogens is a potential threat to humans, and is far more important than any other quality aspect. Jensen et al (2013) reported the transfer of E. coli from animal slurry fertilizer to lettuce. This occurred in a pilot study in which animal slurry was applied as fertilizer in three Danish agricultural fields, prior to the planting of lettuce seedlings, with E. coli serving as an indicator of fecal contamination and of potential bacterial enteric pathogens.…”

Section: Growing Conditions and Raw Materials Productionmentioning

confidence: 99%

Fresh-Cut Produce Quality

Senesi

Fontana²

2014

Postharvest Handling

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Escherichia coli Contamination of Lettuce Grown in Soils Amended with Animal Slurry

Cited by 19 publications

References 46 publications

Multifactorial Effects of Ambient Temperature, Precipitation, Farm Management, and Environmental Factors Determine the Level of Generic Escherichia coli Contamination on Preharvested Spinach

Multifactorial Effects of Ambient Temperature, Precipitation, Farm Management, and Environmental Factors Determine the Level of Generic Escherichia coli Contamination on Preharvested Spinach

New horizons in microbiological food safety: Photodynamic Decontamination based on a curcumin derivative

Fresh-Cut Produce Quality

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