Temporal and spatial assessment of microbial communities in commercial silages from bunker silos.

Ensiling is a feed preservation method of moist forage crops that generally depends on naturally developing lactic acid bacteria to convert water-soluble carbohydrates into organic acids. While bacterial community dynamics have been previously assessed in bench-scale and pilot ensiling facilities, almost no studies have assessed the microbiomes of large-scale silage facilities. This study analyzed bacterial community composition in mature silage from bunker silos in three commercial production centers as related to pH, organic matter, volatile fatty acid composition, and spatial distribution within the ensiling bunker. It revealed significant physicochemical differences between "preserved" regions situated in the center and along the walls of the silage bunkers that were characterized by high concentrations of lactic acid and other volatiles and pH values below 5, and "spoiled" regions in the corners (shoulders) of the bunkers that had low lactic acid concentrations and high pH values. Preserved silage was dominated (>90 %) by lactic acid bacteria and characterized by high similarity and low taxonomic diversity, whereas spoiled silage had highly diverse microbiomes with low abundances of lactic acid bacteria (<5 %) that were sometimes characterized by high levels of Enterobacteriaceae. Spatial position had a much stronger impact on the microbial community composition than feedstock type, sampling date, or production center location supporting previous studies demonstrating that ecology and not geography is a major driver of environmental microbiomes.

An in vitro model to study interactions between Escherichia coli and lactic acid bacterial inoculants for silage in rumen fluid.

UNLABELLED: Previous studies have shown that silages treated with lactic acid bacteria (LAB) inoculants enhance ruminants' performance. The objective of the current experiments was to develop an in vitro model to study interactions between LAB silage inoculants and inoculated silages and Escherichia coli (EC) in rumen fluid (RF). Our hypothesis was that some inoculants inhibit EC in RF. For that purpose buffered RF was incubated under anaerobic conditions at 39°C with commercial strains of LAB silage inoculants or with laboratory corn and wheat silages treated with these LAB, an EC strain and with various ruminant feed ingredients. The EC strain was originally isolated from cattle manure and tagged with a plasmid expressing the green fluorescence protein and kanamycin and streptomycin resistance. Results indicate that the LAB or the treated silages did not suppress EC numbers in the RF. When the pH of the RF decreased below 5·0 the EC disappeared. We conclude that both LAB inoculants for silage and EC survived in RF for several days; however, the inoculants and silages treated with such inoculants did not inhibit EC in RF in vitro. SIGNIFICANCE AND IMPACT OF THE STUDY: Forage crops, silage and hay are initial stages of the food chain for humans. Cattle harbours and sheds enterobacteria regularly, some strains of which are pathogens. These can contaminate forage crops through field fertilization with cattle manure. The objective of this study was to develop an in vitro model to test whether lactic acid bacteria, which are used in silage inoculants, alone or in treated silages can inhibit Escherichia coli in rumen fluid. This study presents safety aspects and it is also part of a broad research effort aimed at finding out how LAB silage inoculants and inoculated silages enhance ruminant performance or exert probiotic effects in ruminants.