Global food systems need to become more sustainable, resilient and inclusive. To accelerate this transition, there is a need for scaling innovative strategies for improved Food and Nutrition Security (FNS), particularly for the poor and marginalised. Scaling, however, is not a straightforward or value-free process. The synthesis study examined which dilemmas influence Research for Impact projects that seek to contribute to FNS outcomes at scale, and how blind spots in scaling research and practice are tied to these dilemmas. Being aware of and tackling these blind spots at an early stage contributes to ‘responsible scaling’: not only focusing on technical and socio-economic, but also on ethical considerations about who will benefit or lose out. The findings presented in the full paper are based on insights from ten interdisciplinary research projects funded by NWO-WOTRO that were carried out in countries in East, Southern and the Horn of Africa between 2014–2020.
Supply chains have inherent risk given the number of actors that interface. While there are some chains that have low frequencies of unfavorable events, many continuously face uncertainty. Food production has many uncertainties along the global supply chain. The global nature of the large logistical networks increases its complexity. Two main sources of uncertainty arise: External and internal to the SC. External factors mainly come from nature (such as "El Niño" phenomenon) and from human activities (such as food and nutrition policy and standards). Internal factors mainly come from operations such as a cold chain disruption. Thus, one needs to minimize risk and improve resilience in order to achieve food security and sustainability. It is then imperative that risk management practices be integrated into the supply chain design and management process. This chapter presents an overview of the main risks involved in global food supply chains, as well as some techniques for risk management.
Background: Parents influence their children’s nutrition behavior. The relationship between parental influences and children’s nutrition behavior is often studied with a focus on the dyadic interaction between the parent and the child. However, parents and children are part of a broader system: the family. We investigated the relationship between the family nutrition climate (FNC), a family-level concept, and children’s nutrition behavior. Methods: Parents of primary school-aged children (N = 229) filled in the validated family nutrition climate (FNC) scale. This scale measures the families’ view on the consumption of healthy nutrition, consisting of four dierent concepts: value, communication, cohesion, and consensus. Parents also reported their children’s nutrition behavior (i.e., fruit, vegetable, water, candy, savory snack, and soda consumption). Multivariate linear regression analyses, correcting for potential confounders, were used to assess the relationship between the FNC scale (FNC-Total; model 1) and the dierent FNC subscales (model 2) and the child’s nutrition behavior. Results: FNC-Total was positively related to fruit and vegetable intake and negatively related to soda consumption. FNC-value was a significant predictor of vegetable (positive) and candy intake (negative), and FNC-communication was a significant predictor of soda consumption (negative). FNC-communication, FNC-cohesion, and FNC-consensus were significant predictors (positive, positive, and negative, respectively) of water consumption. Conclusions: The FNC is related to children’s nutrition behavior and especially to the consumption of healthy nutrition. These results imply the importance of taking the family-level influence into account when studying the influence of parents on children’s nutrition behavior. Trial registration: Dutch Trial Register NTR6716 (registration date 27 June 2017, retrospectively registered), METC163027, NL58554.068.16, Fonds NutsOhra project number 101.253.
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”.
Doel van dit project is om de verschillende ketenonderdelen te ondersteunen met betrekking tot het benutten van de eiwitrijke biomassa van kroos (Lemna) voor toepassingen in voedingsmiddelen. Aan eendenkroosteelt en de toepassing van de eiwitrijke biomassa in voedingsmiddelen is al het één en ander gebeurd in binnen- en buitenland, vaak op kleine schaal. De prakrijkrelevante innovatie waar nog het meest aan moet gebeuren is het bereiken van de markt van eendenkroos voor humane consumptie. Hoe kunnen B2C-bedrijven op eendenkrooseiwit gebaseerde voedingsmiddelen leveren, welke B2B is daarbij nodig, welke procestechnologische en sensorische (smaak-, kleur- en textuur-) elementen kunnen geoptimaliseerd worden? Tegelijk willen we in dit project de keten goed in beeld hebben om de teelt optimaal te laten aansluiten aan de marktvraag, de verteerbaarheid van het eiwit beter leren kennen en de business case voor elke schakel in de keten onderzoeken en optimaliseren. Hierbij worden de volgende resultaten opgeleverd die antwoord moeten geven op vragen die vanuit de deelnemende bedrijven aan de hogescholen in dit consortium zijn gesteld: Het opleveren van een duurzame teeltmethode voor de productie van food grade biomassa op industriële schaal van een bestaande vertical farm, inclusief inzicht in de business case en de milieu impact (Life cycle assessment). Een optimale bewerkingsmethode van de geproduceerde eiwitrijke biomassa door procestechnologische onderzoek, zoals drogen, extrusie en fermentatie. Inzicht in de nutritionele en functionele eigenschappen van het eiwit ingrediënt. Denk hierbij ook aan de voedselveiligheid en het belang van sensorisch onderzoek bij productontwikkeling. Samen met studenten en docent-onderzoekers zal bovenstaande kennis opgedaan worden, die relevant is voor de eiwittransitie in Nederland waarin nieuwe plantaardige eiwitten een steeds belangrijkere plek innemen. De opbrengst zal effectief gedissemineerd worden binnen het consortium via kenniscirculatie, tussen het consortium en de buitenwereld en in volle glorie naar de maatschappij, m.b.v. een breed scala aan communicatiemiddelen.
Unwanted tomatoes represent ~20% of the European market, meaning that ~3 million metric tons of tomatoes are wasted every year. On a national scale, this translates to 7000 tons of tomato waste every year. Considering the challenge that food spillage represents worldwide and that the Netherlands wants to be circular by 2050, it is important to find a way to circularize these tomatoes back into the food chain. Moreover, tomatoes are the largest greenhouse crop in the Netherlands, which means that reducing the waste of this crop will positively and significantly affect the circularity and sustainability of the Dutch food system. A way to bring these tomatoes back into the food chain is through fermentation with lactic acid bacteria (LAB), which are already used in many food applications. In this project, we will assemble a unique new mix (co-culture) of LAB bacteria, which will lead to a stable fermented product with low sugar, low pH and a fresh taste, without compromising its nutritional value. This fermentation will prevent the contamination of the product with other microorganisms, providing the product with a prolonged shelf life, and will have a positive impact on the health of the consumers. Up until now, only non-fermented products have been produced from rejected tomatoes. This solution allows for an in-between product that can be used towards many different applications. This process will be upscaled to pilot scale with our consortium partners HAN BioCentre, Keep Food Simple, LLTB and Kramer B.V. The aim is to optimize the process and taste the end result of the different fermentations, so the end product is an attractive, circular, and tasty fermented tomato paste. These results will help to advance the circularity and sustainability of our food system, both at a national and European level.
