Hostname: page-component-76fb5796d-22dnz Total loading time: 0 Render date: 2024-04-27T19:16:50.032Z Has data issue: false hasContentIssue false
  • English
  • Français

Child-directed marketing on packaged breakfast cereals in South Africa

Published online by Cambridge University Press:  04 August 2023

Alice S Khan Open the ORCID record for Alice S Khan [Opens in a new window] ,
Tamryn Frank Open the ORCID record for Tamryn Frank [Opens in a new window]  and
Rina Elizabeth Swart Open the ORCID record for Rina Elizabeth Swart [Opens in a new window]
Alice S Khan*
Affiliation:
Department of Dietetics and Nutrition, University of the Western Cape, Robert Sobukwe Road, Belville, 7535 Cape Town, South Africa
Tamryn Frank
Affiliation:
School of Public Health, University of the Western Cape, Robert Sobukwe Road, Belville, 7535 Cape Town, South Africa
Rina Elizabeth Swart
Affiliation:
Department of Dietetics and Nutrition, University of the Western Cape, Robert Sobukwe Road, Belville, 7535 Cape Town, South Africa
*
*Corresponding author: Email askhan@uwc.ac.za
Rights & Permissions [Opens in a new window]

Abstract

Objective:

Childhood obesity is on the rise in South Africa (SA), and child-directed marketing (CDM) is one of the contributing factors to children’s unhealthy food choices. This study assessed CDM on packaged breakfast cereals available in SA supermarkets and their nutritional quality.

Design:

Photographic images were examined in a descriptive quantitative study. A codebook of definitions of CDM was developed for this purpose. REDCap, an online research database, was used for data capturing, and SPSS was used for data analyses including cross-tabulations and one-way ANOVA.

Setting:

The current study was set in the Western Cape province of SA.

Subjects:

Photographic images of all packaged breakfast cereals sold in major retailers in the Western Cape province of SA in 2019 were studied.

Results:

CDM strategies were classified as direct (to the child) or indirect (through the parent). A total of 222 breakfast cereals were studied, of which 96·9 % had a nutritional or health claim, 95·0 % had illustrations, 75·2 % had product and consumption appeals, 10·8 % had characters, 10·8 % consisted of different appeals, 8·6 % alluded to fantasy and 7·7 % had role models. In breakfast cereals with direct CDM, the protein and fibre content was significantly lower than in breakfast cereals without direct CDM. This study found a significantly higher total carbohydrate and total sugar content in breakfast cereals with direct CDM than those without direct CDM.

Conclusion:

CDM was highly prevalent in breakfast cereals sold in SA. Regulations to curb the marketing of packaged foods high in nutrients of concern is recommended.

Keywords

Child-directed marketingDirect and indirect CDMBreakfast cerealsSouth Africa
Type
Research Paper
Information
Public Health Nutrition , Volume 26 , Issue 10 , October 2023 , pp. 2139 - 2148
Check for updates
Creative Commons
Creative Common License - CCCreative Common License - BYCreative Common License - NCCreative Common License - SA
This is an Open Access article, distributed under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike licence (http://creativecommons.org/licenses/by-nc-sa/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the same Creative Commons licence is used to distribute the re-used or adapted article and the original article is properly cited. The written permission of Cambridge University Press must be obtained prior to any commercial use.
Copyright
© The Author(s), 2023. Published by Cambridge University Press on behalf of The Nutrition Society

South Africa (SA) is burdened by communicable and non-communicable diseases, undernutrition and obesity. Nationally, stunting persists(Reference Said-Mohamed, Micklesfield and Pettifor1) whilst there is a concurrent increase in overweight and obesity among South African children(Reference Dukhi, Sartorius and Taylor2). Research has documented a tendency for childhood obesity to persist into young adulthood, leading to consequences such as CVD, mental health disorders and socio-economic burden(Reference Reilly, Methven and Mcdowell3). In SA, more than 1·3 million children aged 5–9 years and over 2·7 million children aged 10–19 years are predicted to be obese by 2030(Reference Lobstein and Brinsden4). This is an estimated 27·1 % increase in childhood obesity by 2030(Reference Lobstein and Brinsden4).

Obesity is a repercussion of urbanisation, changing food environments and lifestyle changes. Poverty also affects peoples’ food choices resulting in cheaper energy-dense foods being purchased and consumed(Reference Reilly, Methven and Mcdowell3,Reference Igumbor, Sanders and Puoane5) . SA has a vast proliferation of supermarkets and fast-food chains, even in communities of low socio-economic status when compared to the rest of sub-Saharan Africa and thus a thriving unhealthy food retail environment(Reference Otterbach, Oskorouchi and Rogan6).

The nutrition transition from traditional, healthy foods to ultra-processed foods has played a role in the increased rate of non-communicable disease-related morbidity and mortality(Reference Abrahams, Mchiza and Steyn7,Reference Pradeilles, Rousham and Norris8) . Children are growing up in obesogenic environments with energy excess caused by changing types, availability, affordability and marketing of foods(Reference Igumbor, Sanders and Puoane5). In SA, multinational food companies hold the majority of market share(Reference Igumbor, Sanders and Puoane5). Dietary preferences among youth exposed to food marketing, that promote ultra-processed, nutrient-poor food and beverages which are typically high in saturated fat, sugars and salt(Reference Cairns, Angus and Hastings9), lean towards choosing packaged branded foods(Reference Igumbor, Sanders and Puoane5). Availability of healthy food options are limited and expensive(Reference Labadarios, Mchiza and Steyn10), while unhealthy food options that are cheap, energy-dense and ultra-processed are available and preferred(Reference Armstrong, Lambert and Lambert11).

Marketing negatively influences children’s food knowledge, preferences, consumption, diet quality and health(Reference Kelly, Vandevijvere and Ng12). Children and adolescents are most vulnerable to the effects of marketing due to limited cognitive and executive skills(Reference Stoltze, Reyes and Smith13). This results in increased preference towards unhealthy products, and purchase requests for these products, resulting in the development of unhealthy dietary patterns(Reference Qutteina, De Backer and Smits14). Advertisements are shown to positively affect attitudes towards branded foods and discourage healthy food choices(Reference Qutteina, De Backer and Smits14). Studies show that media characters on packaging alters a child’s perception of taste and child-targeted advertising impacts family purchases of snacks and meal preparations(Reference Kovic, Noel and Ungemack15). Marketing strategies on packaging are designed to influence consumers at point of purchase and during consumption(Reference Stoltze, Reyes and Smith13). An American study found that two-thirds of packaged food marketing was in the cereals, fruit snacks, meal products, frozen desserts and candy categories(Reference Harris, Schwartz and Brownell16).

Product packaging is a powerful food marketing technique(Reference Elliott17) and on package marketing targets children directly, and indirectly, via their parents(Reference Hawkes18). Packaging attracts consumers’ attention, positions a product within a specific category and communicates brand identity(Reference Omez, Martin-Consuegra and Molina19). Packaging becomes a critical factor in consumers’ purchase decision as it communicates to them in the store when they are making a decision(Reference Omez, Martin-Consuegra and Molina19). Visual and child-oriented elements of breakfast cereal packaging such as images, brand mascots, brand logos, licensed characters and premiums trigger an increased purchase influence in younger children(Reference Hota and Charry20). Illustrations(Reference Stoltze, Barker and Kanter21), animations or cartoon characters, games and gifts within packaging are techniques used to market packaged products to children(Reference Hawkes18).

Apart from regulated nutritional information, marketers control most of the information on food packages and FoP features and have the potential to influence a large proportion of consumers’ food choices and therefore affect the health of a population(Reference Russell, Burke and Waller22). Amongst packaged foods, studies have shown that many of the packaged breakfast cereals are unhealthy and typically higher in sugar while low in protein and fibre(Reference Chun, Louie and Dunford23,Reference Allemandi, Castronuovo and Tiscornia24) . On-package marketing cues, both visual and text, promoting product qualities such as taste, texture or fun elements such as enjoyment are targeted to children, and children perceive these products as tastier than a plain product(Reference Enax, Weber and Ahlers25). Another technique used is the notion of fantasy or creating a magical mood through visual cues or text to appeal to children(Reference Stoltze, Reyes and Smith13).

In SA, breakfast cereal consumption of both hot and ready-to-eat (RTE) cereals has increased by more than 42·9 % between 1999 and 2012(Reference Ronquest-Ross, Vink and Sigge26). Of the top five most frequently advertised food and beverage categories on television in SA, breakfast cereals were number one at 15 % of all advertisements(Reference Kelly, Vandevijvere and Ng12). Processed breakfast cereals have become increasingly popular with consumption of hot cereals (primarily instant hot cereals) increasing by 67 % and RTE cereals by 50 % between 2005 and 2019(Reference Swart and Sambu27). Maize porridge contributed most to total food intake in grams among children 1 to < 10 years of age in the Western Cape and Gauteng provinces in SA(Reference Senekal, Nel and Malczyk28).There is a paucity of evidence from SA on marketing of packaged foods to children. Studies in other countries show that packaged breakfast cereals are unhealthy and high in nutrients of concern(Reference Chun, Louie and Dunford23,Reference Devi, Eyles and Rayner29,Reference Schwartz, Vartanian and Wharton30) .

The purpose of this study was to investigate and describe the nature and extent of child-directed marketing (CDM) on packaged breakfast cereals sold in supermarkets in SA and understand their nutritional content and quality.

Materials and methods

Study design and sample

In this cross-sectional study, photographic evidence of 222 breakfast cereal packaging collected in 2019 was studied and the types of CDM on these packages were categorised and coded for quantitative analysis using a codebook. Additionally, nutrient content information of these products was recorded to allow for a quantitative comparison of nutrients of concern.

A total sample of 223 breakfast cereals were obtained from eight supermarkets within three suburbs in the Western Cape province of SA representing the six largest retail chains in SA. Only one breakfast cereal was excluded for not having a nutritional information label on package bringing the total sample to 222. The supermarkets are situated in different socio-economic areas and selected to account for variation in stock as supermarkets in different socio-economic areas may carry different selections of products. Durbanville was included as the middle-class suburb, whereas Khayelitsha and Langa were included as low-income suburbs.

Codebook development

Procedural guidance in selecting appropriate strategies to include was taken from published CDM studies(Reference Cairns, Angus and Hastings9,Reference Stoltze, Barker and Kanter21,Reference Elliott31) and adapted to develop a codebook for the South African context. A generic codebook was designed to capture all on-package CDM observed on any packaged food item to allow for wider application of the codebook to other food categories. The development of the codebook was an iterative process of refinement through constant engagement with the literature, nutrition and research experts in SA, as well as international experts on mass media effects and CDM. A pilot study of ten breakfast cereals was undertaken to specify robust parameters defining an inherently subjective concept of CDM strategies, categories and subcategories.

Child-directed marketing categories

CDM was defined as marketing techniques targeting children under the age of 18 years (aligned to the definition by the SA Constitution as a child), consisting of the following CDM strategies: illustrations (includes ingredients, fruit, vegetable, animal, object or imaginary creature), characters (includes personified animal, object or imaginary creature), role models (includes youth or non-youth celebrities, sports athletes or superheroes), different appeals (includes school, toy, family, sports, social media, cross-promotions and gift references), fantasy, product (quality enhancements, traditional, improved product, affordability, comparison to competitor and money back guarantees) and consumption appeals (positive emotional appeals and consumption suggestions). Two types of CDM were identified: direct and indirect. Direct CDM is defined as any marketing technique used to target children directly, while indirect CDM is defined as marketing to children via the parents or primary caregiver. While a superhero on a breakfast cereal package is CDM directly targeting children, a nutritional claim or product affordability aspect is directed at a parent although the product is targeting children. A full definitions list is available to readers by email request.

Data collection and entry

Photographs of all packaged breakfast cereals that contained a barcode and nutritional information were collected in stores. Photographs were taken of the front of pack, nutrition facts panel, barcode, package size, ingredients, manufacturer and distributor. The photographs were stored on SharePoint, a web-based collaborative platform that integrates with Microsoft Office. The corresponding data extracted from the photographs were entered, quality-checked, cleaned and stored in a secure, password-protected Research Electronic Data Capture (REDCap) project.

A team of seven graduates with nutrition training and previous experience in capturing nutritional information of packaged food items were trained as coders for CDM. The training was an iterative process with two rounds of data entry whereby each coder entered ten products in each round followed by discussions to streamline definitions of the variables of interest to improve both inter- and intra-coder reliability. One coder entered all 223 breakfast cereals’ CDM data into REDCap. All 223 breakfast cereals were divided among the other six coders to study CDM data on the FoP as per the predetermined criteria for CDM on packaged breakfast cereals and re-enter into REDCap as double entry. The independent coders’ entries were compared in Microsoft Excel, and there was a 5 % difference which was resolved through discussion until consensus was reached.

Statistical analysis

Descriptive statistics were run to determine the frequency of marketing strategies, categories and specific subcategories. The nutritional composition of RTE breakfast cereals including energy, protein, total sugar, free sugar, saturated fat, fibre, Na and carbohydrates was compared across breakfast cereals by direct CDM usage to understand if there was a significant difference in the nutritional content in breakfast cereals where direct CDM was used. Products requiring preparation were excluded from analyses as the packaged product do not reflect the nutritional composition of the product that will be consumed. The presence of non-sugar sweeteners was documented. One-way ANOVA tests were used to determine the differences in nutritional composition of breakfast cereals with direct CDM and without direct CDM and to compare the nutritional composition of breakfast cereals by the number of CDM strategies used. Cross-tabulation and chi-squared tests were used to understand the differences in the prevalence of RTE breakfast cereals in those with direct CDM and those without direct CDM. P-value less than 0·05 was taken as significant. Statistical Package for Social Sciences (SPSS) version 27 (2020) was used for analysis.

Results

Summary of child-directed marketing strategies observed

Overall, seven on-package CDM strategies were identified. Within the seven strategies, seventeen categories were identified. The summary of this is found in Fig. 1. The most frequently used CDM strategies were nutrition and health claims (96·9 %), followed by illustrations (95·0 %) and then product and consumption appeals (75·2 %).

Fig. 1 A graphical representation of the prevalence of the seven marketing strategies and their categories on South African packaged breakfast cereals. *Strategies are not divided into categories but only on subcategory level.

Of the seventeen CDM categories, the top four categories were nutritional claims which appeared on 95·5 % of the products, followed by illustrations (95·0 %), health claims (67·6 %) and product appeals (66·2 %). Consumption appeals was the fifth most used CDM category (25·2 %). Less frequently used CDM categories were characters (10·8 %), fantasy (8·6 %), non-youth (7·2 %) and family (5·0 %). Six of the CDM categories had minimal presence (less than 3·5 % of breakfast cereals). No products made any reference to toys or cross-promotions.

Amongst the health claims, portion consumption recommendation (71·2 %) is most common, which was coded as the depiction of the cereal product in a bowl. This was followed by health purity (40·1 %) claims such as being gluten-free, lactose-free and free of preservatives. Nature images (39·6 %), cue on health benefits or reduction of risk (32·0 %) and health seals from professional bodies (18·5 %) were also present on breakfast cereals.

Of the 67·6 % of nutritional claims present, the most prevalent was presence of fibre (32·4 %), followed by text cues suggesting the breakfast cereal is a good source of nutrients (24·8 %) and the addition of vitamins other than vitamin C (19·8 %). The addition of vitamin C (0·5 %) was the least prevalent nutritional claim, and claims on the reduction of salt, saturated fat, trans fat and cholesterol were also less prevalent at 3·2 % for all four.

Summary of direct and indirect child-directed marketing strategies observed

Of the 222 breakfast cereals studied, 153 (69·0 %) used direct CDM (those directly targeted at children) on their packaging. Only one product with direct CDM had no indirect CDM (those targeted at children via parents and caregivers) present, and almost all (221, 99·5 %) products had indirect CDM on packaging.

Nutrition claims, health claims, certain illustrations (product, ingredient, fruit and vegetable) and product appeals (except taste and texture) are considered as indirect CDM. For the remainder of the results, the focus will be on direct CDM. Table 1 depicts the number and percentage of products using one or more direct CDM strategies. Forty-one per cent (41·2 %) of breakfast cereals containing direct CDM use multiple direct CDM strategies on packaging. Of the 153 cereals with direct CDM, 20·9 % used two strategies, 11·8 % used three strategies and 8·5 % used four or more strategies.

Table 1 Percentage of products using one or more direct child-directed marketing (CDM) strategies

Nutrient composition of ready-to-eat breakfast cereals using and not using direct child-directed marketing

The overall nutrient content of RTE breakfast cereals is presented in Table 2. All nutrient analysis was conducted per 100 g. Statistically significant differences between products with and without direct CDM were identified for five nutrients. The mean protein content (9·74 g ± 3·33; P < 0·00) and mean fibre content (7·85 g ± 4·73; P < 0·00) were statistically significantly lower in breakfast cereals with direct CDM than in breakfast cereals without direct CDM which had protein (12·53 g ± 4·47) and fibre (12·36 g ± 7·03), respectively. The mean total sugar content (17·17 g ± 10·08; P = 0·01) and mean free sugar content (17·17 g ± 10·08; P = 0·01) of breakfast cereals with direct CDM were statistically significantly higher than those without direct CDM (11·24 g ± 6·72; P = 0·01 for both). The mean carbohydrate content (60·55 g ± 16·26; P = 0·01) was also statistically significantly higher in breakfast cereals with direct CDM than in breakfast cereals without direct CDM (52·23 g ± 20·55). No significant differences were found in breakfast cereals with direct CDM for mean energy content (1597·20 g ± 307·17; P = 0·22), mean saturated fat content (3·62 g ± 4·42; P = 0·26) and mean Na content (155·99 g ± 132·91; P = 0·88) when compared to those without direct CDM (energy: 1667·00 g ± 298·95; P = 0·22, saturated fat:4·71 g ± 6·53; P = 0·26, and Na: 159·91 g ± 155·25; P = 0·88). None of the breakfast cereals contained non-sugar sweeteners. All RTE breakfast cereals had indirect CDM present. See detailed information on the nutrient content of RTE breakfast cereals in online Supplementary Table S1.

Table 2 Nutritional composition per 100 g of RTE breakfast cereals with and without direct child-directed marketing (CDM)

RTE, ready-to-eat.

One-way ANOVA classification of nutrient content by the number for breakfast cereals with direct CDM and without direct CDM is used. P < 0·05 is taken as statistically significant. Nutrient content of breakfast cereals is normally distributed.

* One breakfast cereal using direct CDM did not contain a protein value on the nutritional facts panel.

Nutrient composition of ready-to-eat breakfast cereals by the number of direct child-directed marketing strategies used

Nutritional composition of RTE breakfast cereals by number of direct CDM strategies was compared in two groups (less than three strategies, and three or more strategies). Less than three strategies were found on 79·7 % of breakfast cereals with direct CDM, and a dichotomous grouping of less than three and three or more was used to determine the intensity of CDM strategies. There were no statistically significant differences in the mean carbohydrate or fibre content. However, means were statistically higher in those with more than three strategies for total sugar, free sugar and Na and significantly higher in those with less than three strategies for total energy, protein and saturated fat, as shown in Table 3.

Table 3 Nutritional composition per 100 g of RTE breakfast cereals with less than three and three or more direct child-directed marketing (CDM) strategies

RTE, ready-to-eat.

One-way ANOVA classification of nutrient content of RTE breakfast cereals by the number of CDM strategies is used. P < 0·05 is taken as statistically significant. Nutrient content of breakfast cereals is normally distributed.

* One breakfast cereal using direct CDM did not contain a protein value on the nutritional facts panel.

Discussion

Child-directed marketing strategies

This study describes the observed CDM strategies and the nutritional composition of packaged RTE breakfast cereals sold at major South African retailers in 2019. CDM was present on 95 % of breakfast cereals analysed with direct CDM strategies, that is, those strategies directed primarily at the child him/herself rather than the adult parent or caretaker, present on the majority (69 %) of packaged breakfast cereals.

Elsewhere, CDM prevalence on breakfast cereals is lower in Guatemala at 50·9 %(Reference Soo, Letona and Chacon32), in Chile at 35·7 %(Reference Stoltze, Reyes and Smith13) and in USA at 31 %(Reference Song, Halvorsen and Harley33). The pervasiveness of CDM in SA and Guatemala is aligned with evidence that points to more aggressive marketing strategies used by multinational companies in low- and middle-income countries resulting in more rapid rising consumption of unhealthy foods than has occurred previously in high-income countries(Reference Stuckler, Mckee and Ebrahim34). Chile has introduced effective regulations to restrict CDM(Reference Stoltze, Reyes and Smith13), and this explains their lower prevalence of CDM.

Just under half (41·2 %) of the products in this study with CDM made use of multiple CDM strategies. Products with multiple direct CDM strategies had a higher sugar and Na content. This is similar to another study that found when more on-package marketing techniques are featured on a product, the product has a lower nutritional quality(Reference Aerts and Smits35).

Illustrations as a strategy was the most predominantly (95 %) used on-package CDM, of which animal illustration (16·7 %), object illustration (12·2 %) and imaginary creature illustration (2·7 %) were the direct CDM illustrations strategies used. Among visual marketing tactics, illustrations in general have been shown to negatively influence children’s choice of food products towards non-core foods(Reference Hallez, Qutteina and Raedschelders36). Cues of emotional consumption appeal (13·1 %) pertaining to enjoyment, pleasure and creating a positive mood was the most used consumption appeal type noticed.

Character strategies which were defined as personified animals, objects or imaginary creatures in this study were present on 10·8 % of breakfast cereals. This strategy was less prevalent on South African breakfast cereals when compared to Guatemala (31 %)(Reference Soo, Letona and Chacon32), Belgium (18·8 %)(Reference Vermote, Bonnewyn and Matthys37), Chile (29·7 %)(Reference Stoltze, Reyes and Smith13) and Argentina (29 %)(Reference Allemandi, Castronuovo and Tiscornia24). Although SA does not have regulations on marketing, the SA National Department of Health’s draft R429(38) of 2014 recommends that images directed at children and the inclusion of toys should not be used to advertise foods containing nutrients of concern above nutrient cut-off points, and this may account for the low use of character strategies. Character strategy in this study relates to cartoon characters or promotional characters as referred to in several studies. The use of characters on products is shown to increase purchase request from children(Reference Connor39). Characters make packaged foods more appealing to children, while health and nutritional claims reassure the parent in their choice to purchase these items for their children(Reference Elliott17). A Mexican study found that claims were displayed more frequently in less healthy cereals as classified by the United Kingdom Nutrient Profiling Model (UKNPM)(Reference Nieto, Rincon-Gallardo Patiño and Tolentino-Mayo40).The use of characters and media branding could be a strategy to positively influence children’s food preferences towards fruits and vegetables(Reference Kraak and Story41).

Fantasy strategy defined as a display of fantastical or magical effects was found on 8·6 % of breakfast cereals. Role models (7·7 %) constituting of non-youth (7·2 %) which are adult role models and youth who looked like a child younger than 13 years of age (3·2 %) were observed. This was slightly lower than role models observed in Chile (9·52 %)(Reference Stoltze, Reyes and Smith13). Family (5 %) reference to image or text about family situations was also observed.

None of the breakfast cereals sold in SA made any reference to toys or cross-promotions which contrasts with Chile with 6 % toy reference and 3·6 % cross-promotions. The draft R429(38) proposing prohibition on the use of toys to promote foods high in nutrients of concern may account for the absence of toys in breakfast cereals packaging. This is encouraging as the use of gifts, toys and cross-promotions as marketing techniques have been shown to influence purchase decisions(Reference Stoltze, Reyes and Smith13).

Health and nutitional claims

South African breakfast cereals have a high prevalence of health and nutritional claims. UK and Argentina show a lower prevalence of health claims but a higher prevalence of nutritional claims when compared to SA(Reference Allemandi, Castronuovo and Tiscornia24).

Front-of-package nutritional claims on children’s cereals are potentially misleading, especially when placed on products with a high amount of nutrients of concern(Reference Harris, Thompson and Schwartz42). Food marketing is likely to directly address parents to promote foods for children’s consumption(Reference Hebden, King and Kelly43) leading to an increased consumption of breakfast cereals high in nutrients of concern. Portion recommendations have been shown to influence parent’s purchase choice the most(Reference Russell, Burke and Waller22). Visual cues such as nature images are also shown to influence parents’ purchase choice(Reference Russell, Burke and Waller22).

Dietary patterns need to change, and an environment should be created that encourages the increased intake of nutritious and traditional foods while reducing the intake of packaged unhealthy foods. This requires regulation of the food industry to curb harmful CDM which entices children towards unhealthier choices(Reference Hawkes, Smith and Jewell44).

Statistically significant differences were noted in four nutrients: protein, fibre, total sugar and total carbohydates. In breakfast cereals with direct CDM, the protein and fibre content was significantly lower than in breakfast cereals without direct CDM. This finding was similar to studies in New Zealand(Reference Devi, Eyles and Rayner29), Australia(Reference Chun, Louie and Dunford23) and the USA(Reference Schwartz, Vartanian and Wharton30). RTE breakfast cereals in SA with a higher dose of direct CDM (using three or more direct CDM strategies) had significantly lower amounts of energy when compared those with less than three direct CDM strategies. This is in contrast to finding in New Zealand and Australia where ‘cereals for kids’ had a marginally higher energy density when compared to other breakfast cereals(Reference Chun, Louie and Dunford23,Reference Devi, Eyles and Rayner29) .

The mean total sugar content was significantly higher in breakfast cereals with CDM compared to those without CDM. Similarly, significantly high sugar content was found in breakfast cereals with CDM in New Zealand(Reference Devi, Eyles and Rayner29), Australia(Reference Chun, Louie and Dunford23), Guatemala(Reference Soo, Letona and Chacon32) and the USA(Reference Schwartz, Vartanian and Wharton30). Foods high in sugar have a negative impact on children’s nutrition preferences, purchase behaviour, consumption patterns and diet-related health(Reference Kelly, Vandevijvere and Ng12), and excessive consumption has been linked to adverse health outcomes, such as dental caries, CVD and metabolic disorders.

There was no significant differences noted in the Na content of breakfast cereals with direct CDM when compared to those without direct CDM, which was similar to Guatemala(Reference Soo, Letona and Chacon32) but different to New Zealand(Reference Devi, Eyles and Rayner29) where the Na content was significantly higher. This could be a positive effect of the implementation of the South African Na regulation (R214)(45) which restricted breakfast cereal Na levels to below 500 mg/100 g in June 2016. Although this study was conducted in 2019, data collection was completed before the stricter Na limits (400 mg/100 g) of phase two of the R214 were implemented in SA in June 2019. Further reductions in Na levels may be likely.

It is concerning that breakfast cereals marketed to children are substantially higher in sugar, a nutrient if consumed in excess is associated with poor health outcomes and free sugar is excessively consumed by South African children(Reference Igumbor, Sanders and Puoane5,Reference Steyn, Nel and Malczyk46) . Although protein content in breakfast cereals with direct CDM is low compared to those without direct CDM, adequate intake of protein among South African children(Reference Steyn, Nel and Malczyk46) causes some concern. Given SA’s burden of undernutrition and stunting, adequate protein intake is important(Reference Abrahams, Mchiza and Steyn7). The lower fibre content of breakfast cereals with direct CDM is worrisome as majority of South African children from 1 to 9 years of age have a very low fibre intake(Reference Steyn, Nel and Malczyk46) and fibre intake is linked with good health outcomes(Reference Wentzel-Viljoen, Lee and Laubscher47) and shown to reduce elevated cholesterol, blood pressure and obesity risk among adolescents(Reference Fulgoni, Brauchla and Fleige48). Fibre intake is linked to the prevention of non-communicable diseases and improved immunity(Reference Wentzel-Viljoen, Lee and Laubscher47). This study finds the nutritional content of breakfast cereals marketed to children to be unhealthier than those not targeted to children and yet more than 95 % of all breakfast cereals carry a health or nutritional claim. This is misleading to parents who may assume, due to on-package marketing, that these products are healthy and fit for children’s consumption and thereby influence their purchase decision(Reference Kovic, Noel and Ungemack15,Reference Russell, Burke and Waller22) .

Although any one single food cannot necessarily be identified as the cause of obesity, but rather the overall dietary intake, the proliferation of products as well as increased consumption of these products high in nutrients such as sugar and saturated fat are likely to contribute to obesity unless the consumption of these items is accompanied by a reduction in overall energy, sugar and saturated fat from other food products.

Regulations

Given the excessive use of marketing techniques and high sugar content of breakfast cereals found in this study, implementing restrictions on the marketing of unhealthy packaged breakfast cereals is important. The Advertising Standards Authority (ASA) initiated the South African Marketing to Children pledge in 2008 which was signed by members of the major food corporations in 2009. This volunatry pledge is the only form of regulation that exists in SA as an industry self-regulation effort and remains ineffective. The pledge violation by Coco-Cola Beverages South Africa (CCBSA) not to advertise or sell SSB around school premises is a clear indicator of the ineffectiveness of self-regulation(Reference Erzse, Christofides and Stacey49). Neither the current draft R429 nor the draft Department of Communications and Digital Technology Audio- and Audio-Visual Content Services Policy Framework (AAVCS) white paper are adequate to curb unhealthy food marketing to children(50). R429 could be strengthened by regulating CDM on packaging, among various forms of media and the internet. AAVCS could expand on food-related maketing to children rather than promoting industry self-regulation.

Chile has one of the highest obesity rates worldwide and introduced their marketing to children regulation in 2016(Reference Kelly, Vandevijvere and Ng12) and within 7 months of regulation implementation there was a significant reduction in CDM in products with high levels of nutrients of concern and calories(Reference Stoltze, Reyes and Smith13).

Recommendations

CDM is known to influence purchase choices and has been linked to increased intake of unhealthy foods(Reference Kelly, Vandevijvere and Ng12), and thus the presence of CDM strategies on South African breakfast cereals is cause for concern. CDM strategies such as illustrations could be utilised on healthier breakfast cereals to attract children to healthier choices(Reference Hallez, Qutteina and Raedschelders36). Based on the results of this study, it is advisable to consider government-led, mandatory regulations restricting CDM of pre-packaged breakfast cereals and other pre-packaged foodstuffs typically high in sugar, saturated fat and Na and implementing front-of-pack labels that could increase the awareness of the ‘high-in’ nutrients of concern on breakfast cereals.

Further research is required on the pester power of children and the influences on parents to purchase breakfast cereals and other packaged food products with undesirable nutrient profiles when it contains CDM, in SA. Differentiation in pester power between younger children and adolescents may also be beneficial. The prevalence and benefit of CDM on fresh produce and packaged foods without excessive amounts of nutrients of concern should be explored.

Limitations

Data were collected from large, established supermarket chains, and hence CDM on breakfast cereal products informally imported and sold in stores in ethnic enclaves around SA (Indian enclave, Somalian enclave and Chinese enclave to name a few) was not captured. Another potential limitation is the exclusion of specific brands if they are sold exclusively in a province other than the Western Cape. The lack of adequate photographic evidence of the back of packs and sides of packs limited the study to the FoP.

Conclusions

CDM was commonly observed on breakfast cereal packaging in SA. The nutritional composition of breakfast cereals with CDM is significantly higher in nutrients of concern to limit compared to those not marketed to children. Overall children’s breakfast cereals with CDM are less nutritious with significantly less protein and fibre while containing significantly high levels of sugar. There is an urgent need for regulation of the food industry to protect children from unhealthy food products with a combination of CDM on products and harmful nutritional compositions. South African children deserve better.

Acknowledgements

The authors wish to thank Tyler Coates, Sikhumbule Joni, Aneeqah Latief, Zintle Nelani, Sharna Solomon and Morongoa Tlhako for their dedication during the photographic data collection and categorisation of CDM. The authors also wish to thank Shu Wen Ng, Jessica Ostrowski, Bridget Hollingsworth and Stephanie Stewart for technical support. Francesca Dillman Carpentier is especially thanked for her expert advice on CDM concepts and nuances. The unknown peer reviewers are thanked for their critical review of this manuscript. The School of Public Health at the University of the Western Cape is thanked for their administrative support of the project.

Financial support

This research was funded by Bloomberg Philanthropies sub-agreement #5 108 311. AK received scholarship support from DSI/NRF Centre of Excellence in Food Security (UID 91 490), and TF received scholarship support from the International Research Development Canada (IDRC) Project number 108 425–001.

Conflict of interest

The authors declare no conflict of interest. The funders had no role in the design of the study, in the collection, analyses, or interpretation of data, in the writing of the manuscript, or in the decision to publish the results.

Authorship

A.S.K., T.F. and R.E.S. conceptualised and planned the methodology for the manuscript; the first draft was written by A.K., while review and editing were performed by T.F. and R.E.S. All authors have read and agreed to the published version of the manuscript.

Ethics of human subject participation

This study was approved by the Humanities and Social Sciences Research Ethics Committee of the University of the Western Cape (ethics reference number HS20–4–3).

Supplementary material

For supplementary material accompanying this paper visit https://doi.org/10.1017/S1368980023001507

References

Said-Mohamed, R, Micklesfield, LK, Pettifor, JM et al. (2015) Has the prevalence of stunting in South African children changed in 40 years? A systematic review. BMC Public Health 15, 534534.Google Scholar
Dukhi, N, Sartorius, B & Taylor, M (2020) A behavioural change intervention study for the prevention of childhood obesity in South Africa: protocol for a randomized controlled trial. BMC Public Health 20, 179179.Google Scholar
Reilly, JJ, Methven, E, Mcdowell, ZC et al. (2003) Health consequences of obesity. Arch Dis Child 88, 748752.Google Scholar
Lobstein, T & Brinsden, H (2019) Global Atlas on Childhood Obesity; available at https://www.worldobesity.org/membersarea/global-atlas-on-childhood-obesity (accessed June 2021).Google Scholar
Igumbor, EU, Sanders, D, Puoane, TR et al. (2012) ‘Big Food,’ the consumer food environment, health, and the policy response in South Africa. PLoS Med 9, e1001253e1001253.Google Scholar
Otterbach, S, Oskorouchi, HR, Rogan, M et al. (2021) Using Google data to measure the role of Big Food and fast food in South Africa’s obesity epidemic. World Dev 140, 105368.Google Scholar
Abrahams, Z, Mchiza, Z & Steyn, NP (2011) Diet and mortality rates in Sub-Saharan Africa: stages in the nutrition transition. BMC Public Health 11, 112.Google Scholar
Pradeilles, R, Rousham, EK, Norris, SA et al. (2016) Community readiness for adolescents’ overweight and obesity prevention is low in urban South Africa: a case study. BMC Public Health 16, 763763.Google Scholar
Cairns, G, Angus, K, Hastings, G et al. (2012) Systematic reviews of the evidence on the nature, extent and effects of food marketing to children. A retrospective summary. Appetite 62, 209215.Google Scholar
Labadarios, D, Mchiza, ZJR, Steyn, NP et al. (2011) Food security in South Africa: a review of national surveys. Bull World Health Organ 89, 891899.Google Scholar
Armstrong, MEG, Lambert, MI & Lambert, EV (2011) Secular trends in the prevalence of stunting, overweight and obesity among South African children (1994–2004). Eur J Clin Nutr 65, 835840.Google Scholar
Kelly, B, Vandevijvere, S, Ng, S et al. (2019) Global benchmarking of children’s exposure to television advertising of unhealthy foods and beverages across 22 countries. Int J Environ Res Public Health 20, 116128.Google Scholar
Stoltze, FM, Reyes, M, Smith, TL et al. (2019) Prevalence of child-directed marketing on breakfast cereal packages before and after Chile’s food marketing law: a pre-and post-quantitative content analysis. Int J Environ Res Public Health 16, 4501.Google Scholar
Qutteina, Y, De Backer, C & Smits, T (2019) Media food marketing and eating outcomes among pre-adolescents and adolescents: a systematic review and meta-analysis. Obes Rev 20, 17081719.Google Scholar
Kovic, Y, Noel, JK, Ungemack, JA et al. (2018) The impact of junk food marketing regulations on food sales: an ecological study. Obes Rev 19, 761769.Google Scholar
Harris, JL, Schwartz, MB & Brownell, KD (2010) Marketing foods to children and adolescents: licensed characters and other promotions on packaged foods in the supermarket. Public Health Nutr 13, 409417.Google Scholar
Elliott, C (2019) Tracking kids’ food: comparing the nutritional value and marketing appeals of child-targeted supermarket products over time. Nutrients 11, 1850.Google Scholar
Hawkes, C (2010) Food packaging: the medium is the message. Public Health Nutr 13, 297299.Google Scholar
Omez, MG, Martin-Consuegra, D & Molina, A (2015) The importance of packaging in purchase and usage behaviour. Int J Consum Stud 39, 203211.Google Scholar
Hota, M & Charry, K (2014) The impact of visual and child-oriented packaging elements v. information on children’s purchase influence across various age groups. Int J Retail Distrib Manage 42, 10691082.Google Scholar
Stoltze, FM, Barker, JO, Kanter, R et al. (2017) Prevalence of child-directed and general audience marketing strategies on the front of beverage packaging: the case of Chile. Public Health Nutr 21, 454464.Google Scholar
Russell, CG, Burke, PF, Waller, DS et al. (2017) The impact of front-of-pack marketing attributes v. nutrition and health information on parents’ food choices. Appetite 116, 323338.Google Scholar
Chun, J, Louie, Y, Dunford, EK et al. (2012) Nutritional quality of Australian breakfast cereals. Are they improving? Appetite 59, 464470.Google Scholar
Allemandi, L, Castronuovo, L, Tiscornia, MV et al. (2020) Nutritional quality, child-oriented marketing and health/nutrition claims on sweet biscuit, breakfast cereal and dairy-based dessert packs in Argentina. Cad Saude Publica 36, e00196619.Google Scholar
Enax, L, Weber, B, Ahlers, M et al. (2015) Food packaging cues influence taste perception and increase effort provision for a recommended snack product in children. Front Psychol 1, 882882.Google Scholar
Ronquest-Ross, LC, Vink, N & Sigge, GO (2015) Food consumption changes in South Africa since 1994. S Afr J Sci 111, 112.Google Scholar
Swart, R & Sambu, W (2022) Foods Procured, Nutritional Status and Dietary Intake of People Living in South Africa: Desktop Review; available at https://foodsecurity.ac.za/publications/foods-procured-nutritional-status-and-dietary-intake-of-people-living-in-south-africa-desktop-review/ (accessed October 2022).Google Scholar
Senekal, M, Nel, J, Malczyk, S et al. (2020) Provincial dietary intake study (Pdis): micronutrient intakes of children in a representative/random sample of 1–< 10-year-old children in two economically active and urbanized provinces in South Africa. Int J Environ Res Public Health 17, 127.Google Scholar
Devi, A, Eyles, H, Rayner, M et al. (2014) Nutritional quality, labelling and promotion of breakfast cereals on the New Zealand market. Appetite 81, 253260.Google Scholar
Schwartz, MB, Vartanian, LR, Wharton, CM et al. (2008) Examining the nutritional quality of breakfast cereals marketed to children. J Am Diet Assoc 108, 702705.Google Scholar
Elliott, CD (2012) Packaging fun: analyzing supermarket food messages targeted at children. Can J Commun 37, 303318.Google Scholar
Soo, J, Letona, P, Chacon, V et al. (2016) Nutritional quality and child-oriented marketing of breakfast cereals in Guatemala. Int J Obes 40, 3944.Google Scholar
Song, H, Halvorsen, B & Harley, A (2014) Marketing cereal to children: content analysis of messages on children’s and adults’ cereal packages. Int J Consum Stud 38, 571577.Google Scholar
Stuckler, D, Mckee, M, Ebrahim, S et al. (2012) Manufacturing epidemics: the role of global producers in increased consumption of unhealthy commodities including processed foods, alcohol, and tobacco. PLoS Med 9, e1001235.Google Scholar
Aerts, G & Smits, T (2019) Child-targeted on-pack communications in Belgian supermarkets: associations with nutritional value and type of brand. Health Promot Int 34, 7181.Google Scholar
Hallez, L, Qutteina, Y, Raedschelders, M et al. (2020) That’s my cue to eat: a systematic review of the persuasiveness of front-of-pack cues on food packages for children v. adults. Nutrients 12, 1062.Google Scholar
Vermote, M, Bonnewyn, S, Matthys, C et al. (2020) Nutritional content, labelling and marketing of breakfast cereals on the Belgian market and their reformulation in anticipation of the implementation of the nutri-score front-of-pack labelling system. Nutrients 12, 884.Google Scholar
South Africa (2014) Proposed R429 Labelling Regulations, Foodstuffs Cosmetics and Disinfectants Act 1972. South Africa: Government Gazette.Google Scholar
Connor, SM (2006) Food-related advertising on preschool television: building brand recognition in young viewers. Pediatrics 118, 14781485.Google Scholar
Nieto, C, Rincon-Gallardo Patiño, S, Tolentino-Mayo, L et al. (2017) Characterization of breakfast cereals available in the Mexican market: sodium and sugar content. Nutrients 9, 884.Google Scholar
Kraak, VI & Story, M (2015) Influence of food companies’ brand mascots and entertainment companies’ cartoon media characters on children’s diet and health: a systematic review and research needs. Obes Rev 16, 107126.Google Scholar
Harris, JL, Thompson, JM, Schwartz, MB et al. (2011) Nutrition-related claims on children’s cereals: what do they mean to parents and do they influence willingness to buy? Public Health Nutr 14, 22072212.Google Scholar
Hebden, L, King, L & Kelly, B (2011) Art of persuasion: an analysis of techniques used to market foods to children. J Paediatr Child Health 47, 776782.Google Scholar
Hawkes, C, Smith, TG, Jewell, J et al. (2015) Smart food policies for obesity prevention. Lancet 385, 24102421.Google Scholar
South Africa (2017) Regulations Relating to the Reduction of Sodium in Certain Foodstuffs and Related Matters. South Africa: Government Gazette.Google Scholar
Steyn, NP, Nel, JH, Malczyk, S et al. (2020) Provincial dietary intake study (PDIS): energy and macronutrient intakes of children in a representative/random sample of 1–< 10-year-old children in two economically active and urbanized provinces in South Africa. Int J Environ Res Public Health 17, 1717.Google Scholar
Wentzel-Viljoen, E, Lee, S, Laubscher, R et al. (2018) Accelerated nutrition transition in the North West Province of South Africa: results from the Prospective Urban and Rural Epidemiology (PURE-NWP-SA) cohort study, 2005 to 2010. Public Health Nutr 21, 26302641.Google Scholar
Fulgoni, VL, Brauchla, M, Fleige, L et al. (2020) Association of whole-grain and dietary fiber intake with cardiometabolic risk in children and adolescents. Nutr Health 26, 243251.Google Scholar
Erzse, A, Christofides, N, Stacey, N et al. (2021) Availability and advertising of sugar sweetened beverages in South African public primary schools following a voluntary pledge by a major beverage company: a mixed methods study. Glob Health Action 14, 1898130.Google Scholar
South Africa (2020) Draft White Paper on Audio Visual and Audiovisual Content Services Policy Framework: A New Vision for South Africa 2020. South Africa: Government Gazette.Google Scholar
Figure 0

Fig. 1 A graphical representation of the prevalence of the seven marketing strategies and their categories on South African packaged breakfast cereals. *Strategies are not divided into categories but only on subcategory level.

Figure 1

Table 1 Percentage of products using one or more direct child-directed marketing (CDM) strategies

Figure 2

Table 2 Nutritional composition per 100 g of RTE breakfast cereals with and without direct child-directed marketing (CDM)

Figure 3

Table 3 Nutritional composition per 100 g of RTE breakfast cereals with less than three and three or more direct child-directed marketing (CDM) strategies

Supplementary material: File

Khan et al. supplementary material

Khan et al. supplementary material

Download Khan et al. supplementary material(File)
File 11.4 KB