US government was the first to introduce Hazard Analysis Critical Control Point, the system that had a tremendous impact on everybody's life starting from the food and packaging companies up to consumer themselves. The rest of the nations simply followed US approach with a considerable delay both in terms of legislation and implementation. In the case of genetically modified (GM) or genetically engineered foods, the situation was entirely different. United States benefited from the 'dubious', and definitely not proved, 'substantial equivalence' principle invoked as the most practical approach to assess the safety of GM foods and food ingredients. US legislation appeared to be considerably more lenient than the European Union. The latter required many more analyses and labelling of GM food or food components. In this article, an update is attempted of the entire US legislation falling in fields like food safety, food technology, GM foods and finally legislation referring to specific foods (animal origin - meat, poultry, fish, dairy; and agricultural produces - vegetables, fruits) and water quality by means of fourteen comprehensive tables.

The analysis of water by near infrared spectroscopy (NIRS) was the first successful application of this rapid technology which has been developed over the past 30 years into a routine method for many agricultural commodities and food constituents. Nowadays, NIRS technology offers many advantages because its rapidity allows more frequent measurements at all stages from purchase of raw materials and ingredients to the control of the finished products. NIRS-methods are well suited to in-line use. Nevertheless the two dominant and broad peaks, near to 1440 and 1930 nm in nearly every NIR spectrum due to water, are responsible for some typical complications in this analysis. Effects of hydrogen bonding and sample temperature are found to affect the reliability of NIRS results.

To foster their competitive advantage, food firms pay an increasing attention to strategies that tend to distinguish their products from the ones supplied by their competitors, dedicating to this task most of their resources, knowledge and creativity. In such a framework, also the resource water, often seen as an homogenous product, is more and more utilized in the advertisement as an element that increases the quality of the final good. This paper aims at building a model that can explain the observed behaviour in the different food industries and that can give some insights about the future perspectives of the utilization of the water as a differentiation factor. To reach this goal, first we present a survey of the commercials of specific food industries (beverages, pasta, bread, fresh produce), in which the contribute of water to the product is shown. On the basis of empirical evidence, we argue that the propensity to use water as an element of differentiation is greater when greater are the degrees of technological knowledge, the consumers' perceptions, and the importance of the differentiation strategy in that specific industry. Since we expect that these three factors will increase over time, we also conclude that it is rational to experiment a generalized increase of the utilization of water in the commercials of food products. We also recommend to extend the analysis testing the results using a quantitative approach | Per effetto dell'aumento della competizione sui mercati nazionali e internazionali, l'industria alimentare è spinta a dedicare una crescente attenzione alle strategie di differenziazione. A tal fine, essa impiega gran parte delle risorse, delle conoscenze e della creatività a disposizione. In un tale contesto, anche l'acqua, una risorsa spesso interpretata come bene altamente omogeneo, risulta sempre più utilizzata nelle campagne promozionali dei prodotti alimentari per spiegare la maggiore qualità degli stessi. Il presente contributo ha l'intento di costruire un modello esplicativo di questi comportamenti tale da offrire, al contempo, indicazioni prospettiche circa il ruolo dell'acqua come elemento di differenziazione. Analizzando le pubblicità di alcuni specifici prodotti (bevande, pasta, pane, ortofrutta fresca), si argomenta che la propensione all'utilizzo dell'acqua come fattore di differenziazione in un determinato comparto alimentare è direttamente proporzionale al livello delle conoscenze tecnologiche, alla percezione del consumatore e alla rilevanza della strategia di differenziazione in quello stesso comparto. Considerando che, nel tempo, ciascuna delle tre determinanti è destinata a sperimentare un trend positivo, è lecito attendersi anche un crescente riferimento al contributo della risorsa acqua all'interno dei messaggi pubblicitari. L'impostazione prevalentemente teorica del presente contributo induce a considerare particolarmente interessante l'ipotesi di testare i risultati mediante un approccio prettamente quantitativo

Efficient use of water and nutrients in crop production are critical for sustainable water and crop production systems. Understanding the role of humans in ensuring water and nutrient use efficiency is therefore an important ingredient of sustainable development. Crop production functions are often defined either as functions of water and nutrient deficiency or are based on economic production theory that conceptualizes production as a result of economic activities that take in inputs such as water, capital and labor and produce crop biomass as output. This paper fills a gap by consistently treating water and nutrient use and human agency in crop production, thus providing a better understanding of the role humans play in crop production. Uptake of water and nutrients are two dominant biophysical processes of crop growth while human agency, including irrigation machine power, land-preparing machine power and human labor force, determine limits of water and nutrient resources that are accessible to crops. Two crops, i.e., winter wheat and rice, which account for the majority of food crop production are considered in a rapidly developing region of the world, Jiangsu Province, China, that is witnessing the phenomenon of rural to urban migration. Its production is modeled in two steps. First water and nutrient efficiencies, defined as the ratios of observed uptake to quantities applied, are modeled as functions of labor and machine power (representing human agency). In the second step, crop yields are modeled as functions of water and nutrient efficiencies multiplied by amounts of water and fertilizers applied. As a result, crop production is predicted by first simulating water and nutrient uptake efficiencies and then determining yield as a function of water and nutrients that are actually taken up by crops. Results show that modeled relationship between water use efficiency and human agency explains 68% of observed variance for wheat and 49% for rice. The modeled relationship between nutrient use efficiency and human agency explains 49% of the variance for wheat and 56% for rice. The modeled relationships between yields and actual uptakes in the second step explain even higher percentages of observed the variance: 73% for wheat and 84% for rice. Leave-one-out cross validation of yield predictions shows that relative errors are on average within 5% of the observed yields, reinforcing the robustness of the estimated relationship and of conceptualizing crop production as a composite function of bio-physical mechanism and human agency. Interpretations based on the model reveal that after 2005, mechanization gradually led to less labor being used relative to machinery to achieve same levels of water use efficiency. Labor and irrigation equipment, on the other hand, were found to be complimentary inputs to water use efficiency. While the results suggest interventions targeting machinery are most instrumental in increasing wheat productivity, they may exasperate rural – urban migration. Policy strategies for alleviating rural-urban migration while ensuring regional food security can nonetheless be devised where appropriate data are available.

Understanding environmental impacts of complete food supply chains is important for the food industry to help devise strategies for reducing the impacts of current and future products. Breakfast cereals are one of the most important foods consumed in many countries, but their environmental impacts are currently unknown. Therefore, this study explores the environmental sustainability issues in the food–energy–water nexus by considering breakfast cereals manufactured by one of the world’s largest producers, Kellogg Europe. A life cycle assessment has been carried out for these purposes with the aim of helping the Company to integrate environmental sustainability considerations into the design of their products and packaging. The results indicate that the average global warming potential (GWP) of Kellogg’s breakfast cereals is 2.64 kg CO2 eq. per kg of product. The main GWP hotspots are the ingredients (48%) and energy used in the manufacturing process (23%); packaging and transport contribute 15% each. Rice is the single largest contributor to the GWP of the ingredients (38%). The manufacturing stage is the main contributor of primary energy demand (34%), while the ingredients are responsible for more than 90% of the water footprint. The ingredients are also the main contributors to most other environmental impacts, including land use (97%), depletion of elements (61%), eutrophication (71%), human toxicity (54%) and photochemical smog (50%). The impacts from packaging are high for freshwater and marine toxicity. The contribution of transport is significant for depletion of elements and fossil resources (23%), acidification (32%), ozone depletion (28%) and photochemical smog (24%). Improvement opportunities explored in the paper include better agricultural practices, recipe modifications, improved energy efficiency of manufacturing processes and use of alternative packaging. Impacts from consumption are also discussed.

There is increasing interest in the development of Coenzyme Q10 (CoQ10) ingredients appropriate for functional food formulations, due to its potential health effects. The present work reported that food proteins including milk and soy proteins can effectively perform as vehicles to remarkably improve water dispersibility, stability and even bioaccessibility of CoQ10. The improvement was mainly due to the formation of protein-CoQ10 complexes, through hydrophobic interactions. The formation of complexes with CoQ10 distinctly changed the physicochemical properties of food protein particles that seemed to be more favorable for their colloidal stability. The complexation remarkably improved the stability against UV exposure or in vitro digestion, and bioaccessibility of CoQ10. In contrast, milk proteins (sodium caseinate and whey protein concentrate) were more appropriate to perform as vehicles for improved bioaccessibility of CoQ10 than soy protein isolate. The findings provide an effective strategy to improve the delivery and bioaccessibility of CoQ10 for the formulation of functional foods enriched with CoQ10.

In the present study, production and using possibilities of powder of macaroni boiling water (PMBW) were investigated. After cooking process of macaroni, firstly pre-drying was carried out at 50 °C in a drying oven and then lyophilization process was conducted to obtain final powder product. Physicochemical characterizations like total dry matter, ash, fat, protein, pH, aw and color properties were carried out and also technological properties of sample were determined. Both macaroni boiling water and the final powder product were examined in terms of microbiological analyses. It was found that macaroni boiling water had to be processed in 6 h after cooking if the cooking water was stored at room temperature. Also, the duration of 12 h after cooking was found to be limit level for microbiological safety of cooking water if it was stored at +4 °C. Besides, scanning electron micrographs of particles and fatty acid and mineral profile of the final powder product were determined. Macaroni boiling water is a by-product having a lot of nutrients and in this study it was proved that utilization of this by-product may be feasible. The macaroni boiling water can be used as a food ingredient and also as an enrichment agent.

Gels are viscoelastic systems built up with a liquid phase entrapped in a three-dimensional network, which can behave as carriers for bioactive food ingredients. Many attempts have been made to design gel structures in the water phase (hydrogels, emulsion gels, bigels) or oil phase (organogels, bigels) in order to improve their delivery performances. Hydrogels are originated from proteins or polysaccharides, which are suitable for the delivery of hydrophilic ingredients. Organogels are mainly built up with the self-assembling of gelator molecules in the oil phase, and they offer good carriers for lipophilic ingredients. Emulsion gels and bigels, containing both aqueous and oil domains, can provide accommodations for lipophilic and hydrophilic ingredients simultaneously. Gel structures (e.g. rheology, texture, water holding capacity, swelling ratio) can be modulated by choosing different gelators, modifying gelation techniques, and the involvement of other ingredients (e.g. oils, emulsifiers, minerals, acids), which then alter the diffusion and release of the bioactive ingredients incorporated. Various studies have proved that gel-based delivery systems are able to improve the stability and bioavailability of many bioactive food ingredients. This review provides a state-to-art overview of different gel-based delivery systems, highlighting the significance of structure–functionality relationship, to provide advanced knowledge for the design of novel functional foods.

Plants and algae are the main sources of natural bioactive compounds used in the food and pharmaceutical industries. It is very important to achieve an efficient and safe technique to recover bioactive compounds while maintaining their quality and properties. Subcritical water extraction is the most promising engineering approach that offers an environmentally friendly technique for extracting various compounds from plants and algae. Application of pressurized water and high temperature in subcritical phase is able to modify the dielectric constant and polarity of the solvent which then contributes to a better extraction process. The technique improves the mass transfer rate and preserves the biological potency of the extracts. This article reviews current studies on the extraction of bioactive compounds from various species of plants and algae using the subcritical water technique and discusses its effects and benefits for the food and pharmaceutical industries.