PLoS ONE (Jan 2021)

Evaluating the distribution of African swine fever virus within a feed mill environment following manufacture of inoculated feed.

  • C Grace Elijah,
  • Jessie D Trujillo,
  • Cassandra K Jones,
  • Natasha N Gaudreault,
  • Charles R Stark,
  • Konner R Cool,
  • Chad B Paulk,
  • Taeyong Kwon,
  • Jason C Woodworth,
  • Igor Morozov,
  • Carmina Gallardo,
  • Jordan T Gebhardt,
  • Jürgen A Richt

DOI
https://doi.org/10.1371/journal.pone.0256138
Journal volume & issue
Vol. 16, no. 8
p. e0256138

Abstract

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It is critical to understand the role feed manufacturing may have regarding potential African swine fever virus (ASFV) transmission, especially given the evidence that feed and/or ingredients may be potential vectors. The objective of the study was to evaluate the distribution of ASFV in a feed mill following manufacture of contaminated feed. To accomplish this, a pilot-scale feed mill consisting of a mixer, bucket elevator, and spouting was constructed in a BSL-3Ag facility. First, a batch of ASFV-free feed was manufactured, followed by a batch of feed that had an ASFV-contaminated ingredient added to feed, which was then mixed and discharged from the equipment. Subsequently, four additional ASFV-free batches of feed were manufactured using the same equipment. Environmental swabs from 18 locations within the BSL-3Ag room were collected after each batch of feed was discharged. The locations of the swabs were categorized into four zones: 1) feed contact surface, 2) non-feed contact surface 1 meter from feed, and 4) transient surfaces. Environmental swabs were analyzed using a qPCR specific for the ASFV p72 gene and reported as genomic copy number (CN)/mL of environmental swab processing buffer. Genomic copies were transformed with a log10 function for statistical analysis. There was no evidence of a zone × batch interaction for log10 genomic CN/mL (P = 0.625) or cycle threshold (Ct) value (P = 0.608). Sampling zone impacted the log10 p72 genomic CN/mL (P < 0.0001) and Ct values (P < 0.0001), with a greater amount of viral genome detected on transient surfaces compared to other surfaces (P < 0.05). This study illustrates that once ASFV enters the feed mill environment it becomes widespread and movement of people can significantly contribute to the spread of ASFV in a feed mill environment.