Packed lunches

In the UK, school children have the choice of a school meal served on school premises (and prepared either at school or in a central kitchen) or taking in a packed/bagged lunch to school. As already discussed, there are regional standards applied to school food served at school, both at lunchtime and at other times during the school day including breakfast and break time; but fewer restrictions are applied to packed lunches brought from home. Some schools apply their own restrictions on what can be brought into school such as prohibiting sugary drinks, confectionery and/or savoury snacks^{(Reference Evans, Greenwood and Thomas72)}. In the UK, a packed lunch typically includes a sandwich, savoury snack, a drink and a sweet snack such as yogurt or a biscuit/cookie^{(Reference Evans, Greenwood and Thomas72,73)} . Fewer than one in five children include vegetables in their packed lunch, and approximately half of children typically include fruit^{(Reference Evans, Melia and Rippin74)}.

Existing research indicates that diet quality while at school and over the whole day is worse for children who have packed lunches compared with those who have a school meal, particularly for primary school children aged 5–12 years. For example, analysis of data from children aged 6–8 years reported that children having packed lunches had lower daily intakes of water and vegetables^{(Reference Evans, Mandl and Christian69)} and higher daily intakes of sugars and salt^{(Reference Evans, Mandl and Christian69)} including sugary drinks and snacks. Analysis of British children from 5 to 18 years reported children having packed lunches consumed more ultra-processed foods⁽⁷³⁾. Similar findings are reported from the USA^{(Reference Johnston, Morena and El-Mubasher75)}. Data from older children attending secondary school are less consistent. Analysis of diet quality of British children aged 11–18 years concluded that children in this age group consuming a packed lunch had a higher quality diet than children having a hot school meal^{(Reference Taher, Ensaff and Evans76)}, reflecting lower adherence to SFS in secondary schools as previously described. There is evidence of a negative impact of packed lunches on health outcomes such as unhealthy weight gain in younger children. Evaluation of universal infant FSM in England which resulted in far fewer children consuming a packed lunch reported lower mean BMI for children receiving FSM between 4 and 7 years, albeit with small effects^{(Reference Holford and Rabe25)}. Published evaluations outside the UK such as in Japan have also reported healthier weights with higher consumption of school meals compared with food brought into school^{(Reference Miyawaki, Lee and Kobayashi77)}.

Improving the quality of packed lunches with interventions aimed at families is challenging and has had limited success^{(Reference Nathan, Janssen and Sutherland78)}. Organisations interested in children’s health such as School Food Matters (schoolfoodmatters.org/) support the funding of FSM for all primary school children, and in the absence of a national policy, some cities and regions are funding and implementing such policies themselves, as already discussed. Careful evaluation of these policies is needed to clarify the impact on children’s health and well-being and to provide sufficient information to help other regions follow suit, in particular, to identify any unintended consequences such as increases in inequalities in diet and health. Evaluation of quality and implementation of standards for food taken to day-care centres by preschool children is an additional area in need of research and regulation.

Holiday clubs and holiday activities and food programmes

Although holiday schemes that provide food and activities for children and young people are not new in the UK^{(Reference Mann, Long and Stretesky79)}, it is only since 2010 that this issue has received public attention^{(Reference Long, Defeyter and Stretesky80)}. While support is available to children from lower-income families through universal or means-tested FSM offerings and physical activity sessions during term time, concerns over ‘holiday hunger’ and a lack of free or low-cost activities provided during the school holidays led to a Parliamentary Inquiry and a School Holidays (Meals and Activities) Bill⁽⁸¹⁾. In 2018, the DfE launched the Holiday Activity and Food (HAF) Programme, with nationwide roll-out across all local authorities in England in 2021⁽⁸²⁾.

Non-HAF-funded holiday clubs do not have to follow SFS^{(Reference Crilley, Brownlee and Crilley83,Reference Mann, Crilley and Sattar84)} , although many may have chosen to^{(Reference Mann, Widdison and Sattar85)}. Under the HAF Programme, clubs are legally obliged to follow SFS in the same way that most schools in the UK should^{(Reference Crilley, Brownlee and Crilley83)}. Alongside issues that other institutions have in adhering to SFS, HAF holiday clubs work under additional constraints that may affect food provision. Some clubs run in schools aim to meet SFS through their standard food provision routes. Other clubs may not have a physical building or site at which they serve food. While a central catering provision may exist through the local council, other clubs may have food delivered from external caterers or provide food based on charitable donations^{(Reference Bates, Holley and Haycraft86)}. In both of these last instances, cold food offerings may be more likely in order to be realistic and adhere to food safety requirements. Clubs are also expected to provide culturally appropriate foods and ensure food allergies and other specific dietary requirements are catered for⁽⁸²⁾. These and other issues stretch the already economically lean model that most holiday clubs have to adhere to^{(Reference Holley, Mason and Haycraft87)}, with additional challenges to also deliver nutritional education noted^{(Reference Round, Shinwell and Stretesky88)}.

Despite these challenges, findings to date broadly suggest that holiday clubs are successful across many outcomes. A recent evaluation of the largest HAF programme in England noted benefits in terms of mental health improvements in both attendees and their parents alongside benefits in relation to childcare provision and the ability of parents to work^{(Reference Defeyter, Stretesky and Pepper89)}. Dietary intake at Kitchen Social hubs was closer to the ideals of UK nutritional guidelines on attendance days than days young people did not attend^{(Reference Crilley, Brownlee and Crilley83)}. Recent HAF menu quality evaluation suggested that clubs on average adhered to approximately 70% of all SFS. However, an evaluation of lunch quality against energy and age-adjusted nutrient provision highlighted multiple areas for improvement, particularly in food provision for older attendees^{(Reference Vitale, Crossland and Shinwell90)}.

The next steps in progressing food provision in holiday clubs will ideally be informed by club providers and those involved in food provision, to ensure that realistic strategies are developed to tackle the areas for improvement noted to date. For older age groups, novel ‘HAF+’ models (co-designed with young people) are currently being trialled across England, with some programmes opting for a model that promotes young people’s choice and independence, supported by free transport and drop-in activities⁽⁹¹⁾. Early indications highlight positive uptake of the new scheme, with the likelihood of novel approaches required to ensure SFS are met⁽⁹²⁾.

Sustainable school food

Sustainable school meals with lower carbon footprint and less food waste have the potential to improve the environmental footprint of children’s diets^{(Reference Oostindjer, Aschemann-Witzel and Wang17)}. The WHO prescribes the promotion of healthy and sustainable food systems⁽⁹³⁾, although school food systems are not specifically mentioned in this report. The research consortium of the School Meals Coalition (https://schoolmealscoalition.org/) has recently drafted a white paper on sustainable school food systems titled ‘School Meals and Food Systems: Rethinking the consequences for climate, environment, biodiversity and food sovereignty’ which is likely to become a useful resource for policymakers⁽⁹⁴⁾. Existing SFS in the UK currently focus on health, promoting nutrient-dense foods such as fruit and vegetables and restricting nutrient-poor foods such as snack foods high in fats, sugars and/or salt, but do not consider environmental factors. The National Food Strategy, an independent review of the food system for the government, highlighted the importance of health, environment and equity (https://www.nationalfoodstrategy.org/), and it is likely that over the next decade, there will be more of a focus on standards that combine metrics for promoting health and sustainability in schools. While there is overlap in the recommendations for human and planetary health, for example, fruits and vegetables promote health while having low greenhouse gas emissions (GHGE), there are other foods that are not well aligned. Moderate amounts of red meat and dairy foods are needed to provide iron and calcium for growing children however animal-based foods have high carbon footprints. Additional environmental metrics such as water footprint and biodiversity impact also need to be considered rather than carbon footprint alone^{(Reference Jarmul, Dangour and Green95,Reference Latter and Wentworth96)} . This is due to challenges in balancing different environmental metrics, for example plant-based diets have lower GHGE but a higher water footprint^{(Reference Jarmul, Dangour and Green95)}.

Some countries, such as Sweden, are already making progress in taking a more holistic approach. The city of Uppsala in Sweden has set targets to reduce food waste in schools^{(Reference Osowski, Osowski and Johansson97)}. A school-based intervention, also in Sweden, successfully replaced some of the red meat within meals with pulses while maintaining adherence to nutrition standards and without increasing food waste^{(Reference Eustachio Colombo, Patterson and Lindroos98)}. Reducing meat and dairy waste is particularly important according to the Interparty Parliamentary Climate Change committee (https://www.ipcc.ch/report/sixth-assessment-report-cycle/) as, although there is more waste from plant-based foods in school meals^{(Reference Shanks, Banna and Serrano99)} the majority of food waste emissions come from animal-based food waste. It will be challenging for schools to implement guidelines that focus on both the environment and health. Published research from Vancouver emphasises the importance of a systems approach in schools in order to successfully combine different and, perhaps at times, competing priorities^{(Reference Rojas, Black and Orrego100)}.

In summary, there are challenges ahead for schools in balancing a complex range of requirements for both children and the planet. Good leadership and guidance will be needed to implement comprehensive SFS that take account of the benefits and downsides of foods and nutrients, inevitably involving some trade-offs to optimise both the planet and human health. It is a potential opportunity that, in contrast to health, there is often a substantial ‘pull’ from children and young people to improve the environment and combat climate change. This offers opportunities to introduce meaningful and acceptable change.

School food policy and food curriculum

Food education has become a critical area for policy reform and this has become evident following the publication of the Levelling Up white paper⁽⁴⁵⁾. The white paper described action in four ways: (1) schools will be encouraged to publish statements on the arrangements for their ‘whole school approach’ to school food, (2) the Department for Education (DfE) will work with the Food Standards Agency to pilot measures for greater compliance with standards, (3) offer of training and support to schools and (4) funding of £5 million to support food teachers so that children leave school with knowledge of how to cook. The school curriculum often focuses on cooking and health topics but reportedly less so on social-cultural issues, which also include inequity and sustainability^{(Reference Smith, Wells and Hawkes101)}. While research on food literacy^{(Reference Smith, Wells and Hawkes101)} has been explored comparatively in the form of policy analysis^{(Reference McCloat and Caraher102)}, little attention has been given to conceptualising food education^{(Reference Janhonen, Lalli, G, A and M103)}.

Food education has become an umbrella term covering a broad range of facets of our relationship with food^{(Reference Kauppinen and Palojoki104)}. The definition of ‘food education’ that is adopted here is: ‘education that supports learning about food, nutrition and the role that food plays in one’s life, relationships, culture, communities, environment and in history and society’^{(Reference Sutter, Matcalfe and Tucker105)}. A whole school food approach can include food education to support the other aspects of the school environment, leading, ultimately, to a school where food can be grown, harvested, cooked, taught and consumed and where food waste is considered. Discourses on food in schools centre around the nutritional purpose it serves^{(Reference Hansen and Kristensen106)}, and the sensory-centred perspective is less dominant. For example, taste education is particularly emphasised within a whole school food approach^{(Reference Leer and Wistoft107)} (discussed further in the next section). Learning about taste means that food choice is more than just making healthier choices, and a focus on taste can help develop children’s ability to make critical food choices and help them lead a life where they can make their own choices^{(Reference Earl and Lalli108)}. Food education shares similar thinking with ‘pedagogic meal’, ‘taste education’ and ‘food literacy’, and these have come to be used synonymously but all have their function in time, space and place. The term pedagogic meal refers to the potential for school meals to be used as a teaching occasion in which children learn about food and meals, particularly in a Swedish context^{(Reference Osowski, Goranzon and Fjellstrom109)}. Inspired by the SAPERE method that was developed in the 1970s out of a concern for children and their limited palates and diets⁽¹¹⁰⁾, taste education was developed to give children opportunities to explore food, using all five senses (sight, smell, touch, sound, taste) and their own personal food preferences⁽¹¹¹⁾. It aims to capture children’s curiosity and gives them the opportunity to discover new foods that they may not have tried at home in a non-pressured environment. By food literacy, Truman et al.^{(Reference Truman, Lane and Elliott112)} describe the idea of proficiency in food-related skills and knowledge. Within the UK, school food policy and a comprehensive food curriculum need further work at both conceptual and operational levels (https://www.nationalfoodstrategy.org/).

Whole school approaches to food

Schools are often described as unique settings to optimise diet quality, eating behaviours and food literacy. While this may be true, interventions that fail to consider the wider context or ‘school system’ are less likely to succeed than those that adopt multiple approaches to influence many factors that influence what and how children eat at school^{(Reference Bryant, Burton and O’Kane16,113–Reference Payan, Sloane and Illum115)} .

The WHO describes schools that deliver whole school approaches as ‘Health Promoting Schools’ (HPS) with key attributes that input into the school curriculum, change school ethos, improve school environments and engage with families and communities. This is not solely focused on the food, though is often operated via interventions that change school food environments and outcomes that are focused on diet and nutrition. Evidence on the effectiveness of HPS is inconsistent, with reviews highlighting a lack of robust methods and limited long-term data. Within these, studies that choose to focus on a single component of change often produce minimal effects (e.g. promotion of diet quality through only changing types of food on offer). Likely impact may differ depending on the setting, with one review^{(Reference McHugh, Hurst and Bethel116)} showing that studies that optimised their school food environment had limited effect on fruit and vegetable intake, whereas another review of both primary and secondary schools demonstrated an effect^{(Reference Langford, Bonell and Jones117,Reference Jones, Pitt and Oxford118)} .

Whole school approaches to food are not a new phenomenon (though perhaps only more recently coined in this way). In 2006, the UK School Food Trust was tasked with transforming school food and food skills so that they met SFS, increased school meal uptake, reduced diet-related inequalities and improved skill and food education. Wide partnerships were developed across multiple stakeholders to offer the best chance of making system-level changes in schools. These were mapped out into four key areas: (1) positive customer experience, (2) positive mindset, (3) economic viability of services and (4) positive infrastructure and capacity. Evidence on the impact of these has since been tested using a range of methods, with observational data showing effects, particularly on school meal uptake and randomised controlled trial data indicating that positive food experiences at lunchtime lead to improved performance and behaviour^{(Reference Nelson114,Reference Golley, Baines and Bassett119)} .

As public health capitalises more and more on systems science^{(Reference Carey, Malbon and Carey120,Reference Kiekens and Dierckx de Casterle121)} (through our understanding of the complexity of behaviour change and a greater understanding of the multiple factors that interrelate to influence appetite regulation), our ability to understand the school food system improves and provides opportunities to engage across the whole system in a disruptive way that doesn’t result in equilibrium (where one policy is diluted by other counteractive actions (balancing feedback loop)). This understanding has the potential to develop interventions that can influence at levels that have the greatest chance of impact (though reinforcing feedback loops and a focus on key areas of change (leverage points)). However, while these approaches continue to be advocated in policy (e.g. UK government Levelling up White paper⁽⁴⁵⁾), they are rarely implemented in practice and are not mandated or indeed monitored. To have the potential for demonstrable effects, there is a clear need for a better understanding of local and wider influences on the school food system and how these might enable or limit the potential of whole school approaches to food to promote healthy food choices by children across the school day. Recent evidence provides insights into primary school food systems through a study that co-designed a primary school systems map, highlighting key leverage points with the greatest chance of enacting change^{(Reference Bryant, Burton and O’Kane16)}. For example, by identifying and acknowledging the wider external factors that influence school leadership prioritisation of school food (e.g. governors, Ofsted), there are opportunities to develop and evaluate interventions that can lead to positive system disruption. Based on this systems map^{(Reference Bryant, Burton and O’Kane16)}, the CONNECTS-Food website has been developed as a free resource to help primary schools develop their whole school approach to food policy (www.connects-food.com). The resource was developed by researchers working in partnership with GENIUS.

While the SFS offer an avenue for schools to consider school food provision^{(Reference Long and Danechi43)}, this is often conceptualised as ensuring compliance with the food offer and less about delivering whole school approaches to food. At the time of writing, a pilot study is underway in eighteen local authorities across England to determine the ability of environmental health officers to monitor school food with a focus on adherence to SFS⁽¹²²⁾, but this is therefore very much school canteen-focused and not yet considering whole school approaches to food. UK government provides guidance to support school leaders to consider wider areas, such as contracting, staff involvement at lunchtime, improving environments and general advice on whole school approaches to food, yet, without a mandate (and under competing priorities within schools), these are unlikely to be embedded into school food policies and unlikely to have an appreciable population-level impact.

School food system components not yet considered

The school food system, as considered by GENIUS, did not consider the school fringe environment. However, the food environment beyond the school gate will also have an influence on the dietary intake of children, particularly older children, those who can leave the school grounds at lunchtime and those who travel to and from school independently^{(Reference Clark, Quigg, Wong, Richards, Black and Skidmore123,Reference Simon, Kwan, Angelescu, Shih and Fielding124)} . Planning restrictions to reduce fast food outlets close to schools have been discussed and implemented by some UK local authorities and regions^{(Reference Burgoine, Forouhi and Griffin125,126)} ; any such changes need to be carefully evaluated. GENIUS considered the school food in nursery, primary and secondary settings but focused principally on primary and secondary settings in mainstream schools, and there were other parts of the education system that were completely unexplored. These include the food offering and opportunities for intervention in further and higher education; important settings as they can involve students living independently for the first time. Similarly, schools that are not mainstream, for example, specialist schools, recently highlighted by a main funder⁽¹²⁷⁾, have yet to be explored regarding school food provision and opportunities for intervention. Likewise, experiences of children with special education needs within mainstream education, for whom mealtimes can be quite a stressful experience, are relatively understudied.

The network has focused on food, food in schools and dietary intake of pupils, but this needs to be considered alongside other lifestyle behaviours, for example, physical activity with the International Society for Physical Activity and Health recognising whole school approaches as one of the ‘eight investments that work for physical activity’ and the school environment as an ideal setting in which to increase physical activity and reduce time in sedentary behaviours^{(Reference Milton, Cavill and Chalkley128)}. A systematic review and meta-analysis by Jacob et al.^{(Reference Jacob, Hardy-Johnson and Inskip129)} found that health education interventions delivered within the school setting that target the biological, psychosocial, environmental and behavioural have the potential to positively influence health behaviours such as diet and physical activity^{(Reference Jacob, Hardy-Johnson and Inskip129)}. Such combined health education approaches ultimately fulfil and embed the Health Promoting Schools ethics in the UK system.

Finally, literature on the legacy of the COVID-19 pandemic is only starting to emerge^{(Reference McIntyre, Adamson and Nelson40)}. COVID-19 affected children’s eating habits due to a change in routine, for example, due to being home-schooled or a change to eating times in schools and classroom bubbles. The variety of foods available was reduced as a direct response to the restrictions in schools. Many adaptations due to the COVID-19 pandemic caused changes to working practices, such as kitchen bubbles and kitchen operations, for example, increased cleaning and staff–pupil interactions. The classroom bubbling system changed where children and staff ate in schools, which meant that social interactions changed. The various changes also impacted staff working in schools, leading to stress and anxiety. Positives were that schools and regions provided various forms of support for pupils (e.g. through voucher schemes). Teamwork and communication among staff in and out of schools improved and agile working, flexibility and pragmatic decisions were required⁽¹³⁰⁾.

Sustaining the GENIUS network

The final workstream of the original plan was to sustain the network. To facilitate this, social network analysis methods were used to visualise the interactions and engagements among the co-investigators (co-Is) of the GENUS network, to provide an indication of the success of the network in forming new relationships and collaborations within school food. An online survey was disseminated among named co-Is from the original GENIUS proposal in September 2022. Participants were asked to identify other names of co-Is they engage with and estimate how long they had had a working relationship with regarding school food. The duration of relationships was summarised, and online mapping software (https://kumu.io/) was used to input survey data to map the network; an illustration of the approach is shown in Fig. 1.

Figure 1. Illustration of the interactions within the GENIUS network. Each element/circle is a named co-I; arrows/connections indicate the relationship; the size of the image is determined by degree (i.e. number of connections).

Such an approach suggested that 50.4% of all relationships identified were formed within the timeline of the GENIUS project (<5 years), suggesting an impact of the network on networking activity.

Going forward, feedback was also sought from network members about future plans (n = 39); 68.4% of respondents stated that participation in the GENIUS network had helped them develop new relationships or collaborations in the area of school food. Interacting and networking with individuals in roles and institutions similar to and different from their own and accessing new resources, information, knowledge, expertise and training were considered the most useful opportunities for members. In the interim period, a Nutrition Society Special Interest Group has been established to allow ongoing networking activities, alongside ongoing social media and email circulation, but in the longer term, an online knowledge hub is planned to allow ease of networking, maintain the sense of community, allow ample participation and distributed management and host curated information that anyone can access and use. This is not yet funded, but any developments will be announced via GENIUS communications and updated on the website (https://geniusschoolfoodnetwork.com/). In the meantime, a series of research grants been achieved (e.g. https://www.qub.ac.uk/research-centres/CentreforPublicHealth/Research/PublicHealthNutrition/CANTEENStudy/ and https://www.connects-food.com/), some of which have been alluded to within this review. The scoping review of school-based intervention outcomes used is in progress (and the review protocol has been registered with PROSPERO, the International Prospective Register of Systematic Reviews (CRD42021240446)). Once this is completed, that will be the basis of the core outcome set development and accompanying intervention development and evaluation framework outlined as medium-term objectives within Table 1, although these are funding dependent.