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Gather the listeria clan. It’s time for a bacterial family reunion.

While examining the prevalence of listeria in agricultural soil throughout the U.S., Cornell food scientists have stumbled upon five previously unknown and novel relatives of the bacteria, according to new research published May 17 in the International Journal of Systematic and Evolutionary Microbiology.

The discovery, researchers said, will help food facilities identify potential growth niches that until now, may have been overlooked – thus improving food safety.

“This research increases the set of listeria species monitored in food production environments,” said lead author Catharine R. Carlin, a doctoral student in food science.

“Expanding the knowledge base to understand the diversity of listeria will save the commercial food world confusion and errors, as well as prevent contamination, explain false positives and thwart foodborne outbreaks.”

One of the novel species, L. immobilis, lacked motility, or the ability to move. Listeria move a lot. Among scientists, motility was thought to be common among listeria closely related to L. monocytogenes, a well-known foodborne pathogen – and used as a key test in listeria detection methods. This discovery effectively calls for a rewrite of the standard identification protocols issued by food safety regulators, Carlin said.

As listeria species are often found co-existing in environments that support the growth of L. monocytogenes, food facilities will monitor for all listeria species to verify their sanitation practices.

Listeria monocytogenes can have profound pathogenic influence on food processing plants and those plants must be kept clean. Listeriosis has a mortality rate of 20% to 30% – even with a patient taking antibiotics, according to the U.S. Food and Drug Administration.

The Centers for Disease Control and Prevention estimate that 1,600 people in the U.S. get listeriosis annually and nearly 260 die.

While consumers in the grocery aisles may not notice the difference, professionals checking daily for pathogens now will have more tools.

“This paper describes some unique characteristics of listeria species that are closely related to listeria monocytogenes, which will be important from an evolutionary perspective and from a practical standpoint for the food industry,” said co-author Martin Wiedmann, Ph.D. ’97, the Gellert Family Professor in Food Safety and Food Science. “Likely, some tests will need to be re-evaluated.”

Understanding the different listeria species is key to comprehending their similarities. “This will help us to get better about identifying listeria monocytogenes,” Wiedmann said, “and not misidentifying it as something else.”

In the research, the Wiedmann group collected soil samples from all over the United States and agricultural water samples from New York state. From the soil and water, they found 27 listeria isolates that could not be classified to the species level, so the lab conducted whole-genome sequence-based tests and showed these new species formed five novel distinct clusters.

After naming L. immobilis to reflect this organism’s non-motile characteristic, three of the other species were named to honor other listeria researchers:

  • L. cossartiae for Pascale Cossart, a bacteriologist at the Pasteur Institute of Paris;
  • L. farberi for Jeff Farber, a microbiologist at the at the University of Guelph, Canada; and
  • L. portnoyii for Daniel Portnoy, a microbiologist at the University of California, Berkeley.

The species L. rustica was taken from the Latin word “rusticus” and signifies its rural origin. 

Since 2010, Wiedmann’s research group has discovered 13 of the 26 species classified in the genus listeria.

“When you’re inspecting the environments of food processing plants or restaurants, you need to know the pathogenic listeria from the non-pathogenic species,” Wiedmann said. “You need to tell the good guys from the bad guys.”  

In addition to Carlin and Wiedmann, the other authors for the new paper are Jingqiu Liao, Ph.D. ’20, Columbia University; Dan Weller, Ph.D. ‘17, SUNY College of Environmental Science and Forestry; Xiaodong Guo, research technician; and Renato Orsi, Ph.D. ’08, senior research associate.

Research funding was provided by the Center for Produce Safety from the Florida Department of Agriculture and Consumer Service Specialty Crop Block Grant Program.

This article also appeared in the Cornell Chronicle.

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