The aim of this study was to quantify the influence of temperature on
p
H
min
-values of
Listeria monocytogenes
as used in cardinal parameter growth models and thereby improve the prediction of growth for this pathogen in food with low pH. Experimental data for
L. monocytogenes
growth in broth at different pH-values and at different constant temperatures were generated and used to determined
p
H
min
-values. Additionally,
p
H
min
-values for
L. monocytogenes
available from literature were collected. A new
p
H
min
-function was developed to describe the effect of temperatures on
p
H
min
-values obtained experimentally and from literature data. A growth and growth boundary model was developed by substituting the constant
p
H
min
-value present in the Mejlholm and Dalgaard (
2009
) model (J. Food. Prot. 72, 2132–2143) by the new
p
H
min
-function. To obtain data for low pH food, challenge tests were performed with
L. monocytogenes
in commercial and laboratory-produced chemically acidified cheese including glucono-delta-lactone (GDL) and in commercial cream cheese. Furthermore, literature data for growth of
L. monocytogenes
in products with or without GDL were collected. Evaluation of the new and expanded model by comparison of observed and predicted μ
max
-values resulted in a bias factor of 1.01 and an accuracy factor of 1.48 for a total of 1,129 growth responses from challenge tests and literature data. Growth and no-growth responses of
L. monocytogenes
in seafood, meat, non-fermented dairy products, and fermented cream cheese were 90.3% correctly predicted with incorrect predictions being 5.3% fail-safe and 4.4% fail-dangerous. The new
p
H
min
-function markedly extended the range of applicability of the Mejlholm and Dalgaard (
2009
) model from pH 5.4 to pH 4.6 and therefore the model can now support product development, reformulation or risk assessment of food with low pH including chemically acidified cheese and cream cheese.
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