What Your Staff Gets Wrong About Food Safety (And How to Fix It)
Earlier this month, I was mindlessly scrolling through Facebook when I came across a post on a gardening blog where someone had frozen their homegrown garlic as a means of preservation. After two months, they pulled the garlic out of the freezer and thought it didn’t seem to be frozen. Because the original poster was aware that garlic had been linked to botulism outbreaks in the past, they inquired whether the garlic in question might be contaminated with Clostridium botulinum, the bacterium that produces the neurotoxin causing the actual illness.
I always tread lightly on these types of posts and rarely, if ever, reply. Among the strong opinions expressed was one individual who suggested that the original poster smell and taste the garlic, and if both passed their respective sensory tests, the garlic was safe to eat. I cringed at that response, but held my breath and scrolled on, remembering the adage of those convinced against their will are of the same opinion still.
That post got me thinking about all the myths surrounding general food safety that we still encounter. I addressed a few myths related to cooking the traditional Thanksgiving turkey in the blogs leading up to the holiday, but there are still many more myths we could cover. Despite the extensive education and training our employees and managers receive on food safety, we still encounter myths, some of which stem from historical reasons and others that seemed logical at the time. These myths not only risk your customers’ health but also invite outbreaks, lawsuits, and reputational damage that can permanently close your doors.
…the sniff test doesn’t work, and frankly, it never did! But our brains are wired to trust our senses…
- Myth #1: If Food Looks and Smells Fine, it is Safe to Serve
The sniff test doesn’t work, and frankly, it never did! But our brains are wired to trust our senses. When milk smells sour, or meat looks slimy, we know to discard it. When in doubt, throw it out, right? This creates false confidence that the reverse is also true.
Pathogenic bacteria, such as Salmonella, E. coli O157:H7, Listeria monocytogenes, and Campylobacter, produce no detectable changes in appearance, odor, or taste at levels that can cause severe illness or death. A perfectly fresh-looking Caesar salad with contaminated romaine can cause dozens to be hospitalized. The 2018 romaine E. coli outbreak sickened 62 people across 16 states and the District of Columbia, resulting in 25 hospitalizations. But none of the lettuce looked or smelled bad!
- Myth #2: Washing Poultry Removes Harmful Bacteria
I know, I know; if you’ve read our blogs before, we’ve discussed this previously. But just when I think we’ve eradicated this myth, I see a post about it on Facebook. Often, it occurs within a recipe/cooking group that I belong to, but sometimes it shows up in an industry-focused group.
Washing raw poultry is one of the most dangerous kitchen practices. When water hits raw chicken, Campylobacterand Salmonella bacteria can potentially spread several feet in all directions, contaminating countertops, nearby utensils, produce, and other ready-to-eat foods. The only effective bacterial kill step is cooking poultry to an internal temperature of 165°F. You will never be able to get your “wash” water hot enough to reduce the bacterial load to a safe level, so stop it!
Myth #3: Room Temperature Cooling Speeds Up the Process
We discussed a similar concept leading up to Thanksgiving, but it bears repeating. We often visit with staff who worry that placing hot food directly in refrigerators will raise the internal temperature and compromise the safety of other stored foods. This concern seems logical and appears to prioritize food safety.
However, the truth is that leaving food at room temperature to cool down first puts it in the danger zone, where bacteria multiply rapidly. Modern commercial refrigeration can easily handle hot food when proper cooling techniques are employed. The FDA Food Code requires a two-stage cooling process: a temperature reduction from 135°F to 70°F within two hours, followed by a further reduction from 70°F to 41°F within an additional four hours, for a total of six hours.
- Myth #4: Hand Sanitizer Is Just as Good as Handwashing
Hand sanitizer seems like such a convenient, quick, and easy solution. Foodservice workers are busy, and in operations such as hospitals and schools, hand sanitizer dispensers are frequently available. Many staff genuinely don’t understand the difference between handwashing and hand sanitizing.
Alcohol-based hand sanitizers reduce bacterial counts but don’t remove soil, grease, or certain pathogens. For example, Norovirus, the leading cause of foodborne illness in the United States, is not effectively eliminated by alcohol-based sanitizers. Sanitizers also become virtually ineffective on visibly soiled hands. The only sure way to clean hands is by thorough handwashing using soap and water. Would you like to use hand sanitizer after you wash? Then do it, just don’t forget the wash first.
These myths persist because they seem logical or reflect old training. But each one represents a critical food safety failure waiting to happen. Schedule quarterly training sessions focused on myth-busting, update your SOPs to explicitly address these misconceptions, and make kitchen observations a weekly priority. Risk Nothing.
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30 Years Later: The Foodborne Illness Outbreak that Changed Food Safety
In January, we hit a major anniversary. One I am betting snuck by many of you – including me! January marked 30 years since the deadly 1993 E. coli O157:H7 outbreak at Jack in the Box restaurants on the west coast. The anniversary wasn’t on any of the major news networks that I recall. It did make it into a few newspapers, at least one or two of the newspapers that are left. It wasn’t until late-February that I realized it.
Does Temperature Really Matter when Washing your Hands?
In January, I reviewed the changes to the 2022 Food Code in my blog (check out Part I and Part II), and one change to the food code that I had mentioned, but didn’t discuss in-depth, was the change that lowered the water temperature a hand sink was required to produce to 85°F, as noted in Section 2-202.12 of the code. This requirement has been in place since the publishing of the 2001 Food Code, which required a water temperature of 100°F. Prior to this, 110°F was required (see the 1999 Food Code). So why the change and does water temperature when washing your hands really matter?
Hand sinks: Often Taken for Granted, but an Essential Part to Effective Hand Hygiene
Late in January, I received a question about hand sinks in a foodservice operation. The question pertained to school staff (teachers and aides) who were using a hand washing sink in the school kitchen. The question came as a matter of who was allowed access to the kitchen to use the sink, but the question itself caused me to go down a rabbit hole of requirements for hand washing sinks in foodservice operations.
Hot off the Press: The 2022 Model Food Code has been Released! Part Two.
Earlier in the month, we started a discussion about the changes to the 2022 Food Code. If you missed that post, late in December 2022, the Food and Drug Administration released the 2022 Food Code and I wanted to highlight a few of the changes that have been made to the code.
