Abstract

The goal of this study was to develop dry heat processing conditions that could achieve a >5-log reduction of Salmonella with minimal negative impact on almond quality. The effects of almond's water activity (aw) levels and packaging methods on Salmonella inactivation by dry heat were determined. Almonds were dip-inoculated in a four-strain Salmonella cocktail and conditioned to aw of 0.43, 0.33, 0.23, and 0.20. The inoculated almonds were then placed in vacuum-sealed mylar bags (vacuum packaging), ambient-sealed glass tubes (non-vacuum packaging), and petri dishes without covers (no packaging). The packaged and un-packaged almonds were treated by dry heat with 13 % relative humidity at 73 °C. Vacuum packaging in general achieved slightly better (in some cases significantly better (p < 0.05)) or similar inactivation effect on Salmonella than non-vacuum packaging. Both vacuum and non-vacuum packaging methods achieved much greater Salmonella inactivation than the no packaging method. For example, a 4-h treatment at 73 °C reduced Salmonella on almonds with aw of 0.43 by 5.1-, 4.4-, and 1.3-log for mylar bag, tube, and petri dish, respectively. Higher aw levels resulted in better inactivation of Salmonella. To achieve a >4-log reduction of Salmonella on almonds packaged in mylar bags, 3-, 6-, 8-, and 8-h of heat treatment were needed for almonds with aw values of 0.43, 0.33, 0.23 and 0.20, respectively. Vacuum packaging in combination with a 4-h heat treatment of almonds with initial aw of 0.43 or 8-h heat treatment of almonds with initial aw of 0.33 could achieved a ≥5-log reduction of Salmonella. Those two combinations resulted in very little weight loss (≤0.05 %), insignificant color change (∆E ≤ 1.26), and unnoticeable change in visual appearance of almonds, demonstrating that they could be potentially used for raw almond pasteurization.

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