This paper quantifies output from 11 annual conferences held by the European Federation of Food Science and Technology (EFFoST) in the period 2010–2020 on a range of themes in food science/technology, innovation, sustainability, valorisation, food safety, food and health, food properties, consumer aspects and related areas. Summaries of the 11 conferences have been published in a series of 11 reports published in Trends in Food Science and Technology. Collated outputs from the 11 conferences were 283 plenary/keynote lectures, 982 theme lectures, 3196 posters and 4710 attendees. This represents a very large dissemination effort by any standard and augers well for the status of food science and technology in Europe and also more globally. Special sessions are a feature of recent EFFoST conferences, consisting of discussion platforms/forums with chairpersons and ‘hot topics’ for debate. Two examples are (i) the OLEUM project which aims to better guarantee olive oil quality and authenticity, and (ii) the valorisation of side streams. Foremost among special sessions are those for young scientists. The Young EFFoST Day provides opportunity for young food professionals to expand their competencies and networking in food science. It is a day for young scientists managed by young scientists. Networking between conference attendees at posters sessions, coffee and lunch breaks is a key part of each conference, which facilitates information exchange and the framing of new collaborative projects.
With contributions from over 30 international legal scholars, this topical Research Handbook on International Food Law provides a reflective and crucial examination of the rules, power dynamics, legal doctrines, societal norms, and frameworks that govern the modern global food system. The Research Handbook analyses the interlinkages between producers and consumers of food, as well as the environmental effects of the global food network and the repercussions on human health. Chapters explore the development of food law and governance strategies, the regulation of novel foods, including insects, and the application of technology and science in food production, such as genetically engineered food. The insightful contributions examine the legal challenges facing the global food system and suggest practical recommendations for future research and reform. Providing a comprehensive and interdisciplinary perspective on the complex legal landscape of food production and consumption, this Research Handbook will be essential reading for students and scholars of food law, consumer law, public international law, and regulation and governance, as well as food system advocates, international lawyers, and policymakers.
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Aeres University of Applied Sciences has placed internationalisation as a key driver in its overall strategy. By prioritising the internationalisation of education and educational consultancy the university has created solid opportunities for students, lecturers, and partners at regional, national, and international levels. Currently, more strategic development on internationalisation in applied research at Aeres is needed. There is an opportunity to utilise highly proficient researchers, state-of-the-art facilities, and an impressive national research portfolio, and for this, there is a need to develop international research agenda, a key priority for AeresResearch4EU. To address this need, Aeres University of Applied Sciences aims to strengthen its internationalisation efforts with its research activities, opening the door to many opportunities, and most importantly, creating an international research agenda spanning the university's three locations. The main objectives of AeresResearch4EU are to analyse the existing research strategy and professorships and develop them towards a global research agenda for the European Union. By focusing on international research projects, Aeres can further enhance its reputation as a leading institution for applied research in agriculture, food, environment, and green technologies. AeresResearch4EU aims to create new partnerships and collaborations with researchers and institutions across Europe, allowing Aeres to contribute to developing innovative and sustainable solutions to global challenges. With its strong commitment to internationalisation and its focus on applied research, Aeres University of Applied Sciences is poised to become an essential player in the European research landscape.
Chemical preservation is an important process that prevents foods, personal care products, woods and household products, such as paints and coatings, from undesirable change or decomposition by microbial growth. To date, many different chemical preservatives are commercially available, but they are also associated with health threats and severe negative environmental impact. The demand for novel, safe, and green chemical preservatives is growing, and this process is further accelerated by the European Green Deal. It is expected that by the year of 2050 (or even as soon as 2035), all preservatives that do not meet the ‘safe-by-design’ and ‘biodegradability’ criteria are banned from production and use. To meet these European goals, there is a large need for the development of green, circular, and bio-degradable antimicrobial compounds that can serve as alternatives for the currently available biocidals/ preservatives. Anthocyanins, derived from fruits and flowers, meet these sustainability goals. Furthermore, preliminary research at the Hanze University of Applied Science has confirmed the antimicrobial efficacy of rose and tulip anthocyanin extracts against an array of microbial species. Therefore, these molecules have the potential to serve as novel, sustainable chemical preservatives. In the current project we develop a strategy consisting of fractionation and state-of-the-art characterization methods of individual anthocyanins and subsequent in vitro screening to identify anthocyanin-molecules with potent antimicrobial efficacy for application in paints, coatings and other products. To our knowledge this is the first attempt that combines in-depth chemical characterization of individual anthocyanins in relation to their antimicrobial efficacy. Once developed, this strategy will allow us to single out anthocyanin molecules with antimicrobial properties and give us insight in structure-activity relations of individual anthocyanins. Our approach is the first step towards the development of anthocyanin molecules as novel, circular and biodegradable non-toxic plant-based preservatives.
The seaweed aquaculture sector, aimed at cultivation of macroalgal biomass to be converted into commercial applications, can be placed within a sustainable and circular economy framework. This bio-based sector has the potential to aid the European Union meet multiple EU Bioeconomy Strategy, EU Green Deal and Blue Growth Strategy objectives. Seaweeds play a crucial ecological role within the marine environment and provide several ecosystem services, from the take up of excess nutrients from surrounding seawater to oxygen production and potentially carbon sequestration. Sea lettuce, Ulva spp., is a green seaweed, growing wild in the Atlantic Ocean and North Sea. Sea lettuce has a high nutritional value and is a promising source for food, animal feed, cosmetics and more. Sea lettuce, when produced in controlled conditions like aquaculture, can supplement our diet with healthy and safe proteins, fibres and vitamins. However, at this moment, Sea lettuce is hardly exploited as resource because of its unfamiliarity but also lack of knowledge about its growth cycle, its interaction with microbiota and eventually, possible applications. Even, it is unknown which Ulva species are available for aquaculture (algaculture) and how these species can contribute to a sustainable aquaculture biomass production. The AQULVA project aims to investigate which Ulva species are available in the North Sea and Wadden Sea which can be utilised in onshore aquaculture production. Modern genomic, microbiomic and metabolomic profiling techniques alongside ecophysiological production research must reveal suitable Ulva selections with high nutritional value for sustainable onshore biomass production. Selected Ulva spp lines will be used for production of healthy and safe foods, anti-aging cosmetics and added value animal feed supplements for dairy farming. This applied research is in cooperation with a network of SME’s, Research Institutes and Universities of Applied Science and is liaised with EU initiatives like the EU-COST action “SeaWheat”.
