Abstract
Listeria monocytogenes is the causative agent of the food-borne life threatening disease listeriosis. This pathogenic bacterium received much attention in the endeavor of deciphering the cellular mechanisms that underlie the onset of infection and its ability to adapt to the food processing environment. Although information is available on the presence of L. monocytogenes in many environmental niches including soil, water, plants, foodstuff and animals, understanding the ecology of L. monocytogenes in outdoor environments has received less attention. Soil is an environmental niche of pivotal importance in the transmission of this bacterium to plants and animals. Soil composition, microbial communities and macrofauna are extrinsic edaphic factors that direct the fate of L. monocytogenes in the soil environment. Moreover, farming practices may further affect its incidence. The genome of L. monocytogenes presents an extensive repertoire of genes encoding transport proteins and regulators, a characteristic of the genome of ubiquitous bacteria. Postgenomic analyses bring new insights in the process of soil adaptation. In the present paper focussing on soil, we review these extrinsic and intrinsic factors that drive environmental adaptation of L. monocytogenes.
Highlights
Circulation of zoonotic and Human pathogens within the biosphere is a major health issue
In the present paper focussing on soil, we review these extrinsic and intrinsic factors that drive environmental adaptation of L. monocytogenes
The objective of this review is to present the state of the art regarding extrinsic and intrinsic factors that shape the ecology of L. monocytogenes in the soil environment
Summary
Circulation of zoonotic and Human pathogens within the biosphere is a major health issue. Understanding causal factors of agroecosystems invasion by human pathogens is required in a period of adaptation of farming practices to global changes in order to avoid emergence of health hazards related to increased circulation of pathogens. The pioneering work by Welshimer presented the first evidence that soil is an environmental niche for L. monocytogenes and occurrence of the bacterium was observed in a third of the 12 sampled farms (Welshimer, 1960; Welshimer and Donker-Voet, 1971). This was further supported in the seventies by the work of Weis and Seeliger. It was highest during summer in natural environments but lowest at this time of the year in urban environments (Sauders et al, 2012).In another
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