Journal of Experimental Food Chemistry

This study delves into the diverse realm of invertebrate organisms and their nuanced responses to artificial stimulation for nutritional assessment purposes. Investigating how various invertebrates react to simulated stimuli, we unveil insights into their dietary preferences and nutritional requirements. Employing advanced techniques, we observe behavioral, physiological, and molecular reactions, shedding light on their unique sensory mechanisms. These findings offer a novel perspective on invertebrate nutritional ecology and open doors for innovative strategies in sustainable resource management and conservation. Ultimately, this research bridges gaps in our understanding of invertebrate feeding behaviors and their implications for ecosystem dynamics, enhancing our ability to make informed decisions about their well-being and ecological roles.

Phenolic compounds, a diverse class of bioactive molecules found abundantly in various plant-based foods, have gained significant attention due to their potential health benefits, particularly in the prevention of Cardiovascular Disease (CVD) and cancer. This manuscript reviews the current scientific understanding of phenolic compounds, their sources, chemical structures, and mechanisms of action that contribute to their protective effects against CVD and cancer. While epidemiological studies have reported favorable associations between phenolic consumption and disease prevention, conflicting findings underscore the complexity of these relationships. This review synthesizes the available evidence and highlights the need for further research to fully elucidate the impact of phenolic compounds on human health.

As the global population grows and environmental concerns escalate, the demand for sustainable and nutritious food sources intensifies. Organic plant-based food, encompassing a wide array of fruits, vegetables, grains, legumes, and plant-based proteins, emerges as a promising solution to address both nutritional and ecological challenges. This manuscript explores the multifaceted benefits of organic plant-based diets, highlighting their potential to nourish a growing population while mitigating environmental degradation and promoting human well-being. From nutrient content to ecological sustainability, the manuscript delves into the scientific foundations supporting the adoption of organic plant-based food as a crucial component of our future food systems.

The pursuit of healthier and more sustainable food options has led to an increase in polyunsaturated fatty acids within food products, making them prone to oxidative rancidity. Simultaneously, advancements in packaging technology, such as lightweight oxygen-permeable and light-transmitting materials, have posed new challenges in preserving food quality. Addressing these concerns requires a delicate balance between enhancing food attributes and maintaining stability. This abstract delves into the evolving landscape of food preservation by exploring the science of antioxidants and their crucial role in mitigating oxidative deterioration.

This abstract explores the gastronomic delights hidden within aged milks and the scientific revelations that elucidate their transformation. Delving into the intricate processes of milk aging, we uncover the complex interplay of enzymes, microorganisms, and biochemical reactions that contribute to the development of rich flavors and textures. By employing cutting-edge analytical techniques, we decipher the chemical compounds responsible for the unique taste profiles of aged milks, offering insights into the role of proteolysis, lipid oxidation, and microbial communities. These findings not only enhance our understanding of culinary intricacies but also open doors for innovative applications in dairy product development and flavor enhancement. Ultimately, this study bridges the gap between gastronomy and food science, elevating the appreciation of aged milks to a new level of sophistication.