Vegetables: New Zealand Children Are Not Eating Enough

Introduction

Lifecourse Health—Plenty of Vegetables Every Day of Life

Recommendations that vegetables and fruit should be consumed every day, from the time solid food starts to complement breast milk, is based on convincing evidence of favorable health, growth, and development associated with their intake (1). For children, this includes the prevention of cardio-metabolic disease (2) and obesity (3). Vegetables are one important part of a lifelong dietary pattern that is lower in energy density and higher in nutrient density. Specifically, vegetables contribute essential fiber, vitamins and minerals and many health-promoting bioactive compounds. Replacing energy-dense foods with more water-rich vegetables (4) not only lowers energy density but increases the volume of food ingested and satiety while improving overall dietary pattern. By volume it is recommended that a variety of colored vegetables make up more than one quarter of all food consumed each day and this is the basis for the MyPlate communication tool (5).

Food-Based Dietary Guidelines

Globally, food-based dietary guidelines (FBDGs, rather than nutrient-based) encourage the consumption of a variety of vegetables and fruit (6) as part of a dietary pattern that provides the required nutrients to the general public. The focus of FBDGs are on food groups rather than nutrients and they emphasize the need to select a variety of foods within each food group. Foods are grouped by their nutrient profile. For example, there is a focus on foods grouped for their protein content such as fish, lean meat, soy products, eggs, nuts, seeds, and legumes. Another group of mainly carbohydrate foods such as rice, wheat, maize and potatoes make up a large portion of the global energy supply. For some populations, foods that contain calcium such as dairy and bones in fish are a focus. Finally, the food group with arguably the biggest variety, vegetables and fruit, receives much attention in guidelines (Table 1) and universal messages which emphasize eating more. Note that the term used currently is vegetables and fruit rather than fruit and vegetables to indicate the importance of vegetables and, now, the recognition that the most nutrient-dense part of a vegetable or fruit is next to the skin (7).

TABLE 1

Table 1. Food-based dietary guidelines relating to vegetables and fruit from selected countries.

Why Are Vegetables Healthy?

Vegetables are healthy if a variety are consumed as together they provide diverse combinations of essential nutrients and dietary fiber. The dietary diversity score devised by the FAO (8) is one proxy measure of nutrient adequacy and identifies 16 groups of foods. Four of these groups describe vegetable diversity and the importance of each group for diverse and essential nutrients. These four groups are 1. White tubers and roots which are good sources of energy and fiber; 2. “vitamin A rich vegetables and tubers: pumpkin, carrot, squash, or sweet potato that are orange inside, and other locally available vitamin A rich vegetables (e.g., red sweet pepper)”; 3. “dark green leafy vegetables, including wild forms and locally available, vitamin A rich leaves such as amaranth, cassava leaves, kale and spinach” which are also good sources of folate; 4. “other vegetables (e.g., tomato, onion, eggplant) and other locally available vegetables.” A higher dietary diversity score is associated with improved growth in children (9) and micronutrient status (10). Vegetables are good sources of the essential nutrients, dietary fiber, vitamins, and minerals. Dietary fiber, broadly described as carbohydrates that are not digested in the small intestine, has benefits to health associated with modifying the rate of transit through the bowel and delaying the absorption of nutrients such as glucose, binding, and excretion of bile acids, fermentation in the large intestine, and the production of butyrate and adding to stool bulk and improving laxation (11). Vegetables are good sources of viscous and non-viscous fibers and diets higher in fiber has been linked to cancer prevention, weight management, lower risk of heart disease and diabetes management and prevention (12).

In addition, beneficial health effects are derived from bioactive compounds such as phenolics, flavonols, flavonoids, capsaicinoids and carotenoids which are found for example in spinach, broccoli, lettuce, onions, pepper, and tomatoes.

There is a renewed focus on hidden hunger which describes micronutrient deficiencies (13) which may be present with obesity, another form of malnutrition. In children this will impact on growth, and development. Whole vegetables and fruits not only enhance consumers' bioactive stores (14) but also improve micronutrient status. Thus, there is a synergistic impact on health derived from the combination of vitamins, minerals, flavonoids, phenolics, pigments, peptides polysaccharides, and fibre (soluble and insoluble) because of the consumption of whole or minimally processed vegetables. Prebiotics such as the oligosaccharides inulin and fructo-oligosaccharides (15) found in vegetables and fruits have been shown to stimulate growth of probiotic bacteria (bifidobacteria and lactic acid bacteria) in the colon which favorably enhances the function of the gastrointestinal and immune systems (16). This unique property of prebiotics is attributed to their ability to resist digestion in the small intestine, eventually undergoing fermentation in the colon. In addition, prebiotics have been shown to increase the absorption of calcium and magnesium, influence blood glucose levels, and improve plasma lipids (16) and laxation.

The need to promote the consumption of vegetables and other plant-based foods compared to animal-based products, such as beef, is warranted due to the more favorable impact of plant rather than animal agriculture on the planet (17). For example, to raise cattle, large quantities of water are required both to produce the grass or feed for the cattle and for the cattle to drink. Cattle emit green-house gases and may pollute the water system. In contrast, vegetable cultivation requires a relatively small amount of water, could be done without pesticides, absorbs carbon dioxide from the atmosphere, and produces oxygen. An intensification of vegetable production is a sustainable way to support populations to meet dietary guidelines, reduce food insecurity, improve health and provide some amelioration to adverse climate change (18).

Consumption—Are Children Eating Their Vegetables?

Worldwide the consumption of fruit and vegetables is low (19) and dependent on household income. Miller and colleagues calculated, with data from 18 countries and 143,305 participants, that in low-income countries three servings of vegetables and two servings of fruit each day for each household member would cost 52% of the household income while in upper-middle income countries the cost was 2%. Vegetables and fruits were more expensive for rural households and consumption decreased as cost increased.

NZ as a Case Study

New Zealand is a world leader in the production of diverse nutrients and foods (20). In New Zealand from 2012 to 2017 the hectares devoted to growing onions increased by 5% but potatoes, buttercup/squash, peas and sweetcorn reduced by 18, 15, 40, and 17%. The number of dairy cattle increased 1%. Currently, 27% of New Zealand children are living in income poverty and 12% of children are living in material hardship which means among other factors reduced access to vegetables and fruit and/or going to school hungry. Food security which includes having time, money and resources to access and prepare food is a substantial and complex problem. From a study that measured the relative change in price of healthier and less healthy foods over 10 years in New Zealand, the authors reported that the price of wholesome healthy foods and minimally processed foods were cheaper in summer compared to less healthy foods and processed foods (21). At the same time the vegetable price index rose from 700 to 900 between 2006 and 2018- an increase of 35%; fruit rose 60% in the same time (22). In the same period, bread and cereals rose 19% and overall the food price index rose 33%.

Over the last 16 years only slightly more than half the children in New Zealand are consuming 3 or more serves of vegetables each day (Table 2). At the same time, more than half are consuming sugary drinks and fast foods at least once a week (24). Some groups, such as Pacific Island children, are eating less vegetables than the general population of children. In New Zealand, the most commonly consumed vegetables are potato, potato fries, kumara (sweet potato), carrots, broccoli, peas, lettuce, cauliflower, cabbage, tomatoes, and corn(23). Onions are frequently added to recipes (30). Overall, approximately 25% of the daily dietary fiber intake (median 19g/day) is derived from vegetables (23).

TABLE 2

Table 2. Proportions of New Zealand children meeting the vegetable guideline of three or more serves of vegetables a day.

Children depend on their parents and caregivers for food and in low income families there is a tendency to buy more energy dense food, to get the most calories for the money, rather than nutrient dense foods such as vegetables and fruit (31). Food, especially healthier food, is the first essential that low income families compromise on in times of hardship, exacerbating existing nutritional deficiencies resulting from general lack of money (32). As children grow, the overall volume of food intake increases but there is a fall in the quantity of fruit and vegetables and an increase in other foods such as—energy-dense and low cost breakfast cereal and/or convenience foods. We demonstrated this in the longitudinal Pacific Islands Families study between child ages 4 and 6 years (27). In New Zealand, for families living in more highly deprived areas increases in fruits and vegetable prices especially around their off-season compel them to substitute the purchase of healthier whole fruit and vegetables with cheap energy-dense nutrient-poor products. The weight of vegetables required each week for a family of 6 is 12.6 kg (3 serves × 100g × 7 days × 6 people) and provides one fifth to one third of the energy that uncooked rice or pasta which in addition are more robust to transport and have a longer storage time.

Health Promotion and the Way Forward

Messages and actions concerning vegetable consumption within New Zealand and globally are consistent but the barriers are persistent. In addition to cost, the perishability and therefore waste of most fresh whole fruits and vegetables discourages purchase. Frozen and canned vegetables may be a better option and should be included more explicitly in health promotion messages. There are other food processing techniques such as chilling, modified atmospheres, edible coatings that enhance the shelf-life of whole vegetables (33) but they add cost and the addition of packaging presents other problems. Drying and freeze drying are also options but require controlled storage conditions.

Locally grown vegetables are the ideal and every city should have dedicated land for market gardens. In addition, community, school and home vegetable gardens and cooperatives are proliferating in New Zealand. New Zealand is fortunate in that it has a temperate climate which allows a continuous source of vegetables throughout the year. In secondary schools (school years 9 to 13), it has been shown that children attending a school with a garden had a lower body mass index and also reported less fast food consumption (34).

More collaboration between industry, retail, government, and not-for-profit organizations promoting public health is required (35). In addition, town planning, land use, reduction in price and increase in availability of vegetables and equitable and culturally targeted actions to improve vegetable intake for children are required. Further, fruits and vegetables could be targeted separately rather than together, and vegetables could be included in cooking education.

To improve conditions on a micro level, upstream policies such as a “living wage” (36), affordable housing, and land-use planning are required. Global dietary solutions, including an agricultural shift to producing more and at the same time consuming more vegetables and plant-based foods throughout the lifecourse, would reduce green-house gases, reduce land clearing, and help prevent diet-related disease. This is a global challenge.

Author Contributions

ER led the conception and writing of the manuscript, SJ-M, FS, and IA contributed and critically revised the manuscript. All authors approved the final manuscript.

Funding

The work was produced as part of the role of an academic employed at the Auckland University of Technology.

Conflict of Interest Statement

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

References

1. World Health Organization (2005). Fruit and Vegetables for Health: Report of a Joint FAO/WHO Workshop. Kobe: WHO.

2. Funtikova AN, Navarro E, Bawaked RA, Fito M, Schroder H. Impact of diet on cardiometabolic health in children and adolescents. Nutr J. (2015) 14:118.

PubMed Abstract | Google Scholar

3. Ledoux TA, Hingle MD, Baranowski T. Relationship of fruit and vegetable intake with adiposity: a systematic review. Obes Rev. (2011) 12:e143–50.

PubMed Abstract | Google Scholar

4. Rolls BJ. Dietary energy density: applying behavioural science to weight management. Nutr Bull. (2017) 42:246–53.

PubMed Abstract | Google Scholar

5. United States Department of Agriculture (2018). What is Myplate?. Available online at: https://www.choosemyplate.gov/MyPlate (Accessed September 5, 2018).

6. Food and Agricultural Organisation of the United Nations (2018). Food-Based Dietary Guidelines. Available online at: http://www.fao.org/nutrition/nutrition-education/food-dietary-guidelines/en/ (Accessed September 6, 2018).

7. Rickman JC, Bruhn CM, Barrett DM. Nutritional comparison of fresh, frozen, and canned fruits and vegetables II. Vitamin A and carotenoids, vitamin E, minerals and fiber. J Sci Food Agric. (2007) 87:1185–96. doi: 10.1002/jsfa.2824

CrossRef Full Text | Google Scholar

8. Food and Agricultural Organisation of the United Nations and European Union. Guidelines for Measuring Household and Individual Dietary Diversity (2013). Available online at: http://www.fao.org/3/a-i1983e.pdf (Accessed September 2018).

9. Arimond M, Ruel MT. Dietary diversity is associated with child nutritional status: evidence from 11 demographic and health surveys. J Nutr. (2004) 134:2579–85. doi: 10.1093/jn/134.10.2579

PubMed Abstract | CrossRef Full Text | Google Scholar

10. Zhao W, Yu K, Tan S, Zheng Y, Zhao A, Wang P, et al. Dietary diversity scores: an indicator of micronutrient inadequacy instead of obesity for Chinese children. BMC Public Health (2017) 17:440. doi: 10.1186/s12889-017-4381-x

PubMed Abstract | CrossRef Full Text | Google Scholar

11. Blackwood AD, Salter J, Dettmar PW, Chaplin MF. Dietary fibre, physicochemical properties and their relationship to health. J R Soc Promot Health (2000) 120:242–7. doi: 10.1177/146642400012000412

PubMed Abstract | CrossRef Full Text | Google Scholar

12. Kendall CW, Esfahani A, Jenkins DJ. The link between dietary fibre and human health. Food Hydrocolloids (2010) 24:42–8. doi: 10.1016/j.foodhyd.2009.08.002

CrossRef Full Text | Google Scholar

13. Muthayya S, Rah JH, Sugimoto JD, Roos FF, Kraemer K, Black RE. The global hidden hunger indices and maps: an advocacy tool for action. PLoS ONE (2013) 8:e67860. doi: 10.1371/journal.pone.0067860

PubMed Abstract | CrossRef Full Text | Google Scholar

14. Shashirekha MN, Mallikarjuna SE, Rajarathnam S. Status of bioactive compounds in foods, with focus on fruits and vegetables. Crit Rev Food Sci Nutr (2015) 55:1324–39. doi: 10.1080/10408398.2012.692736

PubMed Abstract | CrossRef Full Text | Google Scholar

15. Slavin J. Fiber and prebiotics: mechanisms and health benefits. Nutrients (2013) 5:1417–35. doi: 10.3390/nu5041417

PubMed Abstract | CrossRef Full Text | Google Scholar

16. Al-Sheraji SH, Ismail A, Manap MY, Mustafa S, Yusof RM, Hassan FA. Prebiotics as functional foods: a review. J Funct Foods (2013) 5:1542–53. doi: 10.1016/j.jff.2013.08.009

CrossRef Full Text | Google Scholar

17. Rizvi S, Pagnutti C, Fraser E, Bauch CT, Anand M. Global land use implications of dietary trends. PLoS ONE (2018) 13:e0200781. doi: 10.1371/journal.pone.0200781

CrossRef Full Text | Google Scholar

18. Tilman D, Clark M. Global diets link environmental sustainability and human health. Nature (2014) 515:518–22. doi: 10.1038/nature13959

PubMed Abstract | CrossRef Full Text | Google Scholar

19. Miller V, Yusuf S, Chow CK, Dehghan M, Corsi DJ, Lock K, et al. Availability, affordability, and consumption of fruits and vegetables in 18 countries across income levels: findings from the Prospective Urban Rural Epidemiology (PURE) study. Lancet Glob Health (2016) 4:e695–703. doi: 10.1016/S2214-109X(16)30186-3

PubMed Abstract | CrossRef Full Text | Google Scholar

20. Herrero M, Thornton PK, Power B, Bogard JR, Remans R, Fritz S, et al. Farming and the geography of nutrient production for human use: a transdisciplinary analysis. Lancet Planet Health (2017) 1:e33–e42. doi: 10.1016/S2542-5196(17)30007-4

PubMed Abstract | CrossRef Full Text | Google Scholar

21. Mackay S, Vandevijvere S, Lee A. Ten-year trends in the price differential between healthier and less healthy foods in New Zealand. Nutr Diet. (2018). doi: 10.1111/1747-0080.12457. [Epub ahead of print].

PubMed Abstract | CrossRef Full Text | Google Scholar

22. Statistics New Zealand. Consumers Price Index Visualisation (2018). Available online at: http://archive.stats.govt.nz/datavisualisation/cpi.html? (Accessed September 11, 2018).

23. Ministry of Health (2003). “NZ Food, NZ Children. Key Results of the 2002 National Children's Nutrition Survey”. Wellington: Ministry of Health.

24. Ministry of Health (2018). New Zealand Health Survey. Available online at: https://minhealthnz.shinyapps.io/nz-health-survey-2016-17-annual-data-explorer (Accessed September 11, 2018).

25. Bristow S. Toddler Food and Activity Patterns and Body Composition: A Study of the Offspring of Mothers Treated for Gestational Diabetes. MPhil, Auckland University of Technology (2010).

26. Rush E, Paterson J, Obolonkin VV. Food frequency information – relationships to body composition and apparent growth in 4-year-old children in the Pacific Island Family study. N Z Med J. (2008) 121:63–71.

PubMed Abstract | Google Scholar

27. Savila F, Obolonkin V, Rush E. Tracking food consumption frequency of children from age 4 to 6 years: the Pacific Islands Families study. N Z Med J. (2015) 128:16–24. Available online at: http://www.nzma.org.nz/journal/read-the-journal/all-issues/2010-2019/2015/vol-128-no-1420-21-august-2015/6621

PubMed Abstract | Google Scholar

28. Savila F. The Home Environment, Food Consumption and Physical Growth Among Pacific Islands Children in South Auckland, New Zealand. Ph.D thesis, Auckland University of Technology, Auckland (2017).

29. Ministry of Health. Food and Nutrition Guidelines for Healthy Children and Young People (Aged 2–18 years): A Background Paper. Partial Revision February 2015. Wellington: Ministry of Health (2012).

30. Massey Dietetic Students. Year 7 and 8 New Zealand Food Survey (2017). Massey University. Available online at: https://www.vegetables.co.nz/assets/Research/Year-7-and-8-New-Zealand-Food-Survey-Final-L-Henderson.pdf (Accessed December 7, 2018).

31. Burns C, Cook K, Mavoa H. Role of expendable income and price in food choice by low income families. Appetite (2013) 71:209–17. doi: 10.1016/j.appet.2013.08.018

PubMed Abstract | CrossRef Full Text | Google Scholar

32. Cheer T, Kearns R, Murphy L. Housing policy, poverty, and culture:‘discounting'decisions among Pacific peoples in Auckland, New Zealand. Environ Plann C (2002) 20:497–516. doi: 10.1068/c04r

CrossRef Full Text | Google Scholar

33. Silberbauer A, Schmid M. Packaging Concepts for Ready-to-Eat Food: Recent Progress. J Package Technol Res (2017) 1:113–26. doi: 10.1007/s41783-017-0019-9

CrossRef Full Text | Google Scholar

34. Utter J, Denny S, Dyson B. School gardens and adolescent nutrition and BMI: results from a national, multilevel study. Prev Med. (2016) 83:1–4. doi: 10.1016/j.ypmed.2015.11.022

PubMed Abstract | CrossRef Full Text | Google Scholar

35. Rekhy R, Mcconchie R. Promoting consumption of fruit and vegetables for better health. Have campaigns delivered on the goals? Appetite (2014) 79:113–23. doi: 10.1016/j.appet.2014.04.012

PubMed Abstract | CrossRef Full Text

36. Carr SC, Parker J, Arrowsmith J, Watters P, Jones H. Can a ‘living wage' springboard human capability? An exploratory study from New Zealand. Lab Indus. (2016) 26:24–39. doi: 10.1080/10301763.2016.1152533

CrossRef Full Text | Google Scholar