Consuelo González-Martínez scite author profile

The classic Arrhenius and WLF equations are commonly used to describe rate-temperature relations in food and biological systems. However, they are not unique models and, because of their mathematical structure, give equal weight to rate deviations at the low-and high-temperature regions. This makes them particularly useful for systems where what happens at low temperatures is of interest, as in spoilage of foods during storage, or where the effect is indeed exponential over a large temperature range, as in the case of viscosity. There are systems, however, whose activity is only noticeable above a certain temperature level. A notable example is microbial inactivation, for which these two classical models must be inadequate simply because cells and spores are not destroyed at ambient temperature. For such systems a model that identifies the temperature level at which the rate becomes significant is required. Such an alternative model is Y = ln{1 þ exp[c(T À T c )]} m , where Y is the rate parameter in question (eg a reaction rate constant), T c is the marker of the temperature range where the changes accelerate, and c and m are constants. (When m = 1, Y at T ) T c is linear. When m ≠ 1, m is a measure of the curvature of Y at T ) T c .) This model has at least a comparable fit to published ratetemperature relationships of browning and microbial inactivation as well as viscosity-temperature data previously described by the Arrhenius or WLF equation. This alternative log logistic model is not based on the assumption that there is a universal analogy between totally unrelated systems and simple chemical reactions, which is explicitly assumed when the Arrhenius equation is used, and it has no special reference temperature, as in the WLF equation, whose physical significance is not always clear. It is solely based on the actual behaviour of the examined system and not on any preconceived kinetics.

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Antioxidant starch composite films containing rice straw extract and cellulose fibres

Freitas

González-Martínez²,

Chiralt³

2023

Food Chemistry

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Antioxidant poly (lactic acid) films with rice straw extract for food packaging applications

Freitas

Gil

González-Martínez

et al. 2022

Food Packaging and Shelf Life

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Active Poly (Lactic Acid) Films with Rice Straw Aqueous Extracts for Meat Preservation Purposes

Freitas

González-Martínez

Chiralt

2023

Food Bioprocess Technol

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Aqueous extracts from rice straw (RS), using ultrasound-assisted reflux heating extraction (USHT) and subcritical water extraction (SWE), under two process conditions (160 °C, 7 bars; and 180 °C, 11 bars), were obtained and characterised as to their phenolic content and antioxidant and antimicrobial capacities. These extracts were incorporated (6% wt.) into poly (lactic acid) (PLA) films by melt blending and compression moulding that were characterised as to their structural and functional properties and their capacity to preserve fresh pork meat, as vacuum thermo-sealed bags, throughout 16 days of cold storage. The extracts slightly reduced the extensibility, resistance to break, and water barrier capacity of the PLA films but enhanced their oxygen barrier capacity and the UV light-blocking effect. The films with RS extracts were effective at preserving meat quality parameters, inhibiting microbial growth, meat oxidation, discolouration, and weight loss. The SWE extract obtained at 180 °C was the most effective at obtaining active films for meat preservation, exhibiting the greatest antioxidant and antibacterial activity. Therefore, the green SWE technique is useful for obtaining active extracts from RS, allowing for its valorisation in the development of biodegradable active materials useful to preserve food quality.

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Probabilistic models of food microbial safety and nutritional quality

González-Martínez

Corradini

Peleg

2003

Journal of Food Engineering

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