Natural catastrophes include those of biological origin as the pandemic provoked by virus SARS CoV2, earthquakes, flooding and hurricanes among others, while provoked ones are mainly those related to wars and social movements. These situations may cause food shortage and challenge food safety and security systems. In this review, strategies to produce foods aimed to alleviate food needs before, during and after catastrophic conditions are described based on the supply of various processed, intermediate and low moisture foods and three categories of food supplies are depicted based on the nature of the adverse conditions, Also, relevant patents on on innovative food preparations and containers for disaster areas are discussed. Innovation to produce appropriate and nutritious foods for disaster zones may include food bags containing individual packages of high protein, high fiber/vitamins and carbohydrate/oils ingredients in dried/vitreous state. Additionally, the role of food structure on food preservation is mentioned in the context of ready to eat, nutritious and sensory acceptable food supplies during natural or provoked catastrophes is also reported.

The influence of the electric field intensity and pulse width on the improvement of total polyphenol index (TPI) and colour intensity (CI) during extraction in an ethanolic solution (30%) and during fermentation-maceration has been investigated in different grape varieties: Grenache from two harvesting times, Syrah and Tempranillo. The aim of this study was to develop a procedure to establish the PEF treatment conditions that cause enough permeabilization in the skin cells of different grape varieties to obtain a significant improvement in the vinification process in terms of increment on the polyphenol content or reduction of maceration time. Results obtained in this investigation indicate that extraction of polyphenols in a solution of ethanol (30%) for 2 h could be a suitable procedure to know if the PEF technology is effective for improving extraction of polyphenols from the grapes during vinification and to determine the most suitable PEF treatment conditions to obtain this objective. Improvement in the extraction during vinification only was observed with those grapes and under treatment conditions in which the improvement of the polyphenol extraction was higher than 40%. Other interesting observation from this research is the highest efficacy of PEF when treatments of the same duration are applied using longer pulses. Therefore, in a continuous process, where the flow processed is determined by the frequency applied by the PEF generator, it is possible to increase the processing capacity of the PEF installation.