Identifying Eating Occasion-Based Opportunities to Improve the Overall Diets of Australian Adolescents

Adequate nutrition throughout adolescence is important for ensuring optimal growth, development and health [1,2,3]. The nutritional requirements of adolescents increase markedly from childhood, with comparatively higher requirements for almost all macro- and micronutrients [4]. Despite the importance of adolescent nutrition, large percentages of 14–18 years old are at risk for inadequate intakes of calcium (90% of girls, 71% of boys), magnesium (72% of girls, 61% of boys), iron (40% of girls, 8% of boys), and vitamin A (27% of girls, 33% of boys) [5]. The quality of the diet in this age group is also poor, with low intakes of fruits, vegetables, dairy, and lean protein sources, as well as excessive intakes of sodium, free sugars and the highest proportion of energy from discretionary foods (41%)—foods not necessary for a healthy diet—among all age groups in Australia [6,7,8]. Examining the dietary intakes of the multiple eating occasions that comprise the total daily food and nutrient intakes may identify new opportunities for more targeted recommendations and strategies to help improve the dietary intakes of adolescents.

Previous analyses of individual eating occasions have provided insights for improving overall dietary intake. Breakfast consumption has long been associated with higher diet quality in adolescence, with breakfast consumers consistently having higher intakes of several key nutrients compared to those that skip breakfast [9,10]. A cross-sectional study of European adolescents also found that the nutritional quality of breakfast tends to worsen with increasing age. Lunch consumption has also been associated with higher micronutrient intakes among adolescents in the US, but differences between intakes of discretionary energy (added sugars and solid fats) were not shown between lunch consumers and lunch skippers [11]. While it has been previously reported that almost all adolescents in Australia consume dinner [12], the type of evening meal has been shown to be associated with total diet quality. Consumption of commercially prepared meals was associated with a lower Dietary Guideline Index score in young Australian adults [13].

Inherently, examining individual eating occasions in the context of the total diet does not provide a complete perspective on the impact that each eating occasion has on total daily intake, and subsequently, the potential opportunities to improve overall dietary quality. Examining multiple components of each eating occasion (e.g., percentage of consumers, nutrient density, and foods and beverages consumed) can further identify more specific areas to target to improve dietary intake. Therefore, the aim of this study was to take a holistic approach to investigate how food and nutrient intakes at multiple eating occasions contribute to the total daily intake of Australian adolescents. It is not expected that all nutrients and foods should be equally distributed across all eating occasions; however, by examining how each eating occasion contributes to the total daily diet, new opportunities to improve dietary intakes of adolescents in Australia may be identified. Specifically, we aimed to assess the intake of the top shortfall nutrients (calcium, magnesium, iron and vitamin A) as well as the top foods and nutrients recommended by the Dietary Guidelines to limit (saturated fat, free sugars, sodium and total discretionary food intake) by eating occasion.

Given the large percentages of adolescents in Australia at risk for inadequate intakes of micronutrients and excessive intakes of less healthful dietary components, this study utilised a holistic dietary analysis approach, by examining all eating occasions across the day, to determine if the whole diet is of poor quality, or just certain eating occasions. For each eating occasion, examining the prevalence of consumers, the quality of the eating occasion (nutrient density) and the top foods and beverages consumed, provided insights into why certain eating occasions contributed larger or smaller amounts of nutrients, and identified potential opportunities to improve dietary intake among Australian adolescents. The key opportunities identified were to develop strategies to increase breakfast consumption, given the high quality of breakfasts consumed; improve the nutrient quality of lunch, particularly the sodium content; promote the consumption of dairy milk, fruit, and a greater variety of vegetables at both lunch and dinner; a focus on decreasing sweetened beverage consumption at lunch, dinner and at other eating occasions; and promoting healthy foods and beverages at other eating occasions, or non-main meal eating occasions, with the encouragement of fruit and dairy milk intake, while focusing on strategies that decrease consumption of discretionary foods and beverages, including those that are the top sources of free sugars.

While breakfast contributed the least number of kilojoules to the total day (15%), partially due to having the greatest prevalence of skippers, breakfast contributed a relatively larger proportion of all shortfall nutrients for its energy contribution. The high micronutrient density and low contribution from discretionary energy and sodium to the total day at breakfast, provides an opportunity to promote breakfast consumption among adolescents in Australia. These findings are consistent with previous studies that showed that breakfast consumption is associated with higher daily nutrient intakes among children and adolescents [9,19,20]. A recent systematic literature review of meal skipping studies in young adults found a lack of time to be consistently the primary reason given for meal skipping [21]. This is comparable with research that includes Australian adolescents, that found a lack of time and not being hungry in the morning as the most common reasons for skipping breakfast [22,23]. There have been a number of intervention studies designed to increase breakfast consumption, with mixed results. A 2011 systematic review of 11 intervention studies, almost all of which were done on children and adolescents, found that only three of these studies resulted in an increase in breakfast consumption at follow-up [24]. No study on food provision alone was found to increase breakfast consumption frequency, but food provision has been shown to improve breakfast quality, and the frequency increased when it was promoted with persuasive messages about the health benefits of breakfast. This finding is consistent with research that food scarcity is not a common reason for breakfast skipping [25], and with research that suggests positive attitudes about breakfast consumption are associated with actual consumption [26]. In Australia, a large-scale national breakfast promotion campaign was associated with reduced rates of breakfast skipping in Australian school students [27]. A systematic literature review of family correlates and breakfast consumption in children and adolescents found that parental breakfast eating and living in two-parent families were the most consistent factors associated with breakfast consumption [28]. The evidence suggests that a family-focused nutrition education program is potentially the most effective method for modifying breakfast frequency among adolescents.

The quality of the lunch meal presents an opportunity to improve adolescents’ lunch intakes by increasing calcium, iron, magnesium, and vitamin A, while decreasing discretionary foods and beverages, particularly those high in sodium. Lunch was the second most skipped meal in this study. Studies in the US have shown that skipping lunch is associated with lower daily nutrient intakes [11], and therefore, promoting lunch consumption among adolescents in Australia could be an effective strategy, if the quality of the lunch meal is improved, by focusing on food and beverage choices that have higher contents of the shortfall micronutrients. In Australia, an analysis of the 1995 National Nutrition Survey found that 86% of Australian school children aged 5 to 15 years brought their lunch from home and 40% of their energy intake was consumed during school hours [29]. More recent evidence shows that the canteen is also used by 95% of children to supplement food brought from home [30]. Research indicates that most Australian school lunches contain a sandwich, piece of fruit and multiple snacks [29,31,32], and there appears to be an increase in fruit, packaged snacks, muesli/fruit bars, cakes, and biscuits in the lunch box [32]. Further analysis of both in- and out-of-school lunches is needed to provide insights for strategies to improve dietary intakes at the lunch meal. Lunch may be improved by limiting sweetened beverage access, providing lower sodium food choices, and increasing the amount of vegetables and dairy being consumed. Ongoing campaigns for healthier lunch boxes have been implemented [33] and have shown to be effective at promoting fruit and water in the lunch boxes of primary school children in Australia [34]. Perhaps the ‘lunch box’ in the Australian culture is a limiting factor in nutrient-dense lunches, which inherently limits the type and availability of foods that can be brought from home. Re-heating facilities and access to refrigeration at schools may be considered as a strategy to increase the variety of foods that can be consumed during school and the 2010 National Healthy School Canteen Guidelines has been established to provide national guidance and training to assist canteen managers to encourage healthier food and drink choices at school canteens in Australia [35]. A barrier for initiatives to increase the access to re-heating and refrigeration in schools may be the cost of additional facilities; however, there is a growing body of evidence highlighting substantial economic savings with dietary changes that result in disease risk reduction [36,37,38,39]. The provision of re-heating facilities and access to refrigeration at schools as part of a Government funded program aimed at promoting healthy eating in schools, may even have potential to bring cost savings in the long-term. School meal programs have been shown to improve lunch quality [40,41], and perhaps Australian adolescents would benefit from a national school lunch program, campaigns to improve the contents of packed lunches, or improvements in options available in the canteens.

Given the high proportion of daily energy and low percent of skippers at dinner, nutrient intake at dinner can also be targeted to improve overall intake. One strategy would be to encourage the consumption of a wider variety of vegetables, in addition to the potatoes which were popular. Further, a much greater proportion of adolescents consumed sweetened beverages at dinner (23%) compared to milk (5%). Switching the type of beverage consumed at dinner may help increase calcium intake and potentially decrease intake of sweetened beverages and consequently, free sugars. Given that burgers and pizza were top contributors to calcium and iron intakes, it is necessary to find ways to lower the sodium content of these foods. One approach would be to promote intake of home cooked meals, as commercially prepared meals (e.g., takeaway food, pre-packaged, restaurant) were associated with a poorer diet quality [42]. Again, a family focused approach would be beneficial. Parental presence at the evening meal is positively and consistently associated with the diet quality of adolescents [43,44,45] and the frequency of a family meal during adolescence has been shown to predict dietary quality several years later [46].

Other eating occasions combined contributed a large proportion of daily energy, were top contributors of calcium, magnesium, and vitamin A, and provided discretionary energy, including free sugars. While some food groups (e.g., dairy desserts) might contribute both shortfall nutrients and added sugars, the results showed that the choices at other eating occasions combined were both healthful (e.g., waters, fruit, dairy milk) and less healthful (e.g., sweetened beverages, chocolate and chocolate-based confectionery and desserts). These occasions fall outside main meals and are typically classified as snacking. Snacking has been associated with higher energy, lower fruit and vegetable intake, higher sweetened beverage consumption, and more frequent fast-food intakes in a recent analysis of the diets of U.S. adolescents [47]. In Australia, previous research has shown that adolescents consumed half of their total daily intake of added sugars at non-main meal occasions, which was similarly defined as all eating occasions other than breakfast, lunch and dinner [48]. Intuitively, the act of snacking does not have to be associated with lower quality diets or higher calorie intakes, depending on the type of snacks chosen. Preliminary evidence for this has shown that energy-dense and nutrient-poor snacks were positively associated with body mass index z-score, whereas, the total number of snacks consumed per day were inversely related to body mass index z-score [47]. Given that other eating occasions combined contributed a significant proportion of daily intakes of shortfall nutrients, specifically calcium, promotion of more healthful choices and focusing on lowering intakes of sweetened beverages, savoury snacks, desserts, and confectionery at eating occasions other than breakfast, lunch and dinner, is warranted.

With respect to daily intakes of specific micronutrients, 40% of adolescent girls and 8% of adolescent boys were at risk for inadequate intakes of iron. While protein intakes were adequate in these subpopulations [5], the top two sources of iron were from plant-based, iron fortified sources (breakfast cereals and breads and bread rolls). With regard to higher iron bioavailability and density, animal-based protein sources may be another strategy to address iron intake, particularly among females, as it has been previously shown to be a less popular food choice among Australian children and adolescents [49] and avoided by young female adults [50,51]. Research also shows that children are more likely to consume vegetables in the evening meal if they also consume meat [52]. Therefore, promoting animal-based sources high in iron at the evening meal, with greater vegetable variety, including vegetables that are also high in iron, may help address low iron intakes and improve diet quality.

Australian adolescents had low intakes of foods and beverages that are particularly high in magnesium, such as nuts, which have been shown among both adolescents and adults in the US to be associated with a lower likelihood of being below the Estimated Average Requirement (EAR) for magnesium [53] and with more nutrient-rich diets [54]. Consumption of nut and seed products among Australian adolescents was 12%, with the highest proportion of consumers at breakfast (5%) followed by lunch (3%). Despite bans on nuts in some schools, the National Healthy School Canteen Guidelines recommends un-salted, un-roasted or dry-roasted nuts as a nutritious food that should be on the canteen menu every day (if your school allows them) [35]. Consumption of dark leafy vegetables, beans and other magnesium-dense foods were not in the top five food group sources, but also present opportunities to increase magnesium intakes at all eating occasions.

There are several strengths and limitations to this study. The use of population means in this study identifies opportunities to improve the dietary quality of the population as a whole, but not necessarily the best strategies for individuals who are at risk for inadequate nutrient intakes and who would benefit the most from increasing the quality of their diets. Given that the micronutrient requirements of individuals are not available, it is not possible to target the behaviours of individuals that are not meeting their shortfall nutrient targets. The large percentages of adolescents at risk for inadequate intakes of shortfall nutrients, and the excessive intake of discretionary energy, including free sugars and sodium, provides confidence that the opportunities identified, if addressed, would benefit both the population as a whole, and those individuals at risk. However, it is possible that some individuals with the greatest needs for dietary improvements would not benefit from some of the strategies derived from this study (e.g., individuals with inadequate intakes of shortfall nutrients that habitually consume a high-quality breakfast and/or lunch). Similarly, due to the breadth of the analysis, we did not examine if the potential strategies identified for the population as a whole differed by other factors, such as sex or socioeconomic status.

Further, the opportunities identified in this study are numerically the top approaches to improve intakes, but not necessarily the most feasible or practical, from a dietary behaviour standpoint. It is possible that some other strategies may be easier to implement and therefore could have a greater impact on dietary quality. Implementation should take into account both the feasibility and potential effectiveness to improve dietary intakes of adolescents in Australia. Due to the self-reported dietary intake data and under-reporting of energy intake among adolescents in the 2011–2012 NNPAS [55], interpretation of absolute values should be made with caution. This analysis focused on relative comparisons across eating occasions and relies on the assumption that miss-reporting was proportionally similar across eating occasions, and that any deviations would not severely bias the population means. One particular concern would be that the micronutrient densities of other eating occasions could be overestimated given the potential for adolescents to under-report less healthful foods and beverages; however, the analyses by food groups confirms that top sources of calcium and magnesium were consumed at other eating occasions.

A strength of this analysis is that multiple strategies were identified at each eating occasion to improve overall dietary intakes, the use of a representative sample of adolescents, the examination of eating occasions across the day, rather than the focus on a single occasion (such as breakfast), and the use of multiple variables (i.e., the prevalence of consumers, nutrient density, nutrient contribution, food groups) provide a full picture of the eating occasion relative to the total day’s intake. Given the relatively small contributions to the total day for individual food and beverage groups, multiple strategies are needed to have a significant impact on the dietary quality of adolescents in Australia. The use of self-reported eating occasions allows for interventions to be communicated using the same terminology as adolescents use to report their food intake, although a more objective measure of meal classification, such as time of day, may have provided different results, particularly with respect to the food groups being consumed. Not only were the top food group sources of the shortfall micronutrients by eating occasion investigated, but the prevalence of consumers of all food groups. This provided context to identify, not only what adolescents were eating, but also what they were not eating. Lastly, due to the complexity of the analysis, it was not possible to identify other eating occasions on their own. These eating occasions such as ‘beverage’ and ‘snack’ could have nutrient densities that are superior to one another, and further analysis of their breakdown may give insights as to which occasions have better nutrient contributions and profiles.

In conclusion, this study identified eating occasion-specific opportunities with the potential to improve dietary intakes by increasing intake of shortfall nutrients among Australian adolescents. The key opportunities identified were increasing the number of adolescents consuming breakfast; increasing the quality of the lunch meal; promoting a wider variety of, and increasing, vegetable intake at lunch and dinner; increasing dairy milk intake and decreasing sweetened beverage intakes at all eating occasions, with a focus on lunch, dinner and other eating occasions; increasing fruit consumption at lunch and at other eating occasions; increasing intake of magnesium rich foods like nuts; and a focus on improving choices available, and made, outside of main meal eating occasions.