Table of Contents

1 High Moisture Systems.- 1 Supramolecular structures of biopolymer gels.- 2 Water in tissue structures by NMR and MRI.- 2 Intermediate Moisture Systems.- 3 Physical chemical parameters inhibiting the growth of microorganisms.- 4 Protein hydration and glass transitions.- 3 Low Moisture Systems.- 5 Thermodynamic and kinetic features of vitrification and phase transformations of proteins and other constituents of dry and hydrated soybean, a high protein cereal.- 6 NMR dynamics properties of water in relation to thermal characteristics in bread.- 7 Phase and polymorphic transitions of starches at low and intermediate water contents.- 8 Thermal properties of polysaccharides at low moisture: Part 3 — Comparative behaviour of guar gum and dextran.- 4 Drying.- 9 Spray drying of high fat foods.- 10 Spray drying and quality changes.- 11 Mechanical properties of dry brittle cereal products.- 12 Stress development in shrinking slabs during drying.- 5 Freezing.- 13 Freezing — nucleation in foods and antifreeze actions.- 14 Mechanisms and kinetics of recrystallization in ice cream.- 15 Biological ice nucleation.- 16 Formation of ice in frozen foods and its control by physical stimuli.- 6 Water at High Pressures.- 17 Effects of high pressure on food biopolymers with special reference to—-lactoglobulin.- 18 Inactivation of microorganisms by high pressure.- 19 Advantages, possibilities and challenges of high pressure applications in food processing.- 7 Biological Systems’ Response to Water Stress.- 20 Anhydrobiosis: the water replacement hypothesis.- 21 Bacterial responses to osmotic stress: diverse mechanisms to achieve a common goal.- 22 Bacterial spores — resistance, dormancy and water status.