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Food promoted on an online food delivery platform in a Brazilian metropolis during the coronavirus disease (COVID-19) pandemic: a longitudinal analysis

Published online by Cambridge University Press:  02 March 2022

Paula Martins Horta*
Affiliation:
Departamento de Nutrição, Universidade Federal de Minas Gerais, Belo Horizonte, Minas Gerais30130-100, Brasil
Juliana De Paula Matos
Affiliation:
Departamento de Nutrição, Universidade Federal de Minas Gerais, Belo Horizonte, Minas Gerais30130-100, Brasil
Larissa Loures Mendes
Affiliation:
Departamento de Nutrição, Universidade Federal de Minas Gerais, Belo Horizonte, Minas Gerais30130-100, Brasil
*
*Corresponding author: Email [email protected]
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Abstract

Objective:

To analyse food advertised on an online food delivery (OFD) platform during 16 weeks of the COVID-19 pandemic in Brazil.

Design:

Longitudinal study. We randomly selected foods advertised on the OFD app’s home page, classifying the food items into: water; natural juices and smoothies; vegetables; fruits; traditional meals and pasta; ultra-processed beverages; ice cream, candies, and salty packaged snacks; sandwiches; savoury snacks; and pizza. We also registered the marketing strategies used to promote the food items, such as photos, discounts, ‘combo deals’, and messages on healthiness, value for the money, tastiness, and pleasure.

Setting:

Belo Horizonte, Minas Gerais, Brazil.

Participants:

1593 food items.

Results:

In general, the OFD platform most commonly promoted traditional meals and pasta, ultra-processed beverages, and sandwiches – these food groups were offered 20–25 % of the time during the 16 weeks. There were no promotions for water during the whole period, and the least common promotions were those for natural juices and smoothies, vegetables, and fruits (< 5 %). The most common food promotion strategies were photos (> 80 %) and discounts (> 95 %), while approximately 30 % of the offers featured combo deals. Messages on tastiness, pleasure and value for the money varied from 15 % to 40 %.

Conclusion:

Although the OFD platform offered traditional meals and pasta, most of the foods and beverages advertised were unhealthy and promoted with persuasive strategies. This finding highlights a growing public health concern: an increase in unhealthy eating patterns during the pandemic.

Type
Research Paper
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 (https://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 included and the original work is properly cited. The written permission of Cambridge University Press must be obtained for commercial re-use.
Copyright
© The Author(s), 2022. Published by Cambridge University Press on behalf of The Nutrition Society

Downs et al. defined food environment as the ‘consumer interface with the food system that encompasses the availability, affordability, convenience, promotion and quality, and sustainability of foods and beverages in wild, cultivated, and built spaces that are influenced by the sociocultural and political environment and ecosystems within which they are embedded’(Reference Downs, Ahmed and Fanzo1).

Under this definition, food environments are dynamic and change over time(Reference Downs, Ahmed and Fanzo1). Advances in digital technologies, especially the Internet and smartphones, have globalised our everyday food environments and updated diners’ takeout options with ghost kitchens and elaborate online food delivery (OFD) platforms(Reference Granheim, Løvhaug and Terragni2) (e.g. UberEATS, iFood), applications or websites that connect consumers, restaurants, and riders (also known as drivers or couriers); people read restaurants’ menus online, order food and receive it at home or a place of their choosing(Reference Chen, Liang and Liao3,Reference Williams, Tushev and Ebrahimi4) . Currently, the main users of OFD platforms are young people in urban or dense residential settings with higher educational qualifications and income(Reference Bates, Reeve and Trevena5Reference Dana, Hart and McAleese7).

Studies from many parts of the world have highlighted the wide range of unhealthy food items on offer on these platforms and their frequent use of strategies that promote unhealthy eating practices(Reference Horta, Souza and Rocha8Reference Poelman, Thornton and Zenk11). For example, many platforms use a combination of marketing strategies such as special offers, recommendations and ‘combo’ deals to maximise consumers’ purchases. The marketing strategies invest heavily in machine learning-based algorithms that analyse consumer histories and behaviours(12).

Replacing fresh homemade dishes and meals with ultra-processed foods ordered online can worsen physical health by leading to weight gain and the risk of developing chronic conditions such as obesity, hypertension and diabetes(Reference Dana, Hart and McAleese7,Reference Stephens, Miller and Militello13) . Reliance on OFD platforms can negatively impact human diets, making them a worrisome public health issue(Reference Halloran, Faiz and Chatterjee14). Although OFD platforms are part of many people’s modern food systems, they are not considered in many countries’ current nutrition policies and regulations(12,Reference Halloran, Faiz and Chatterjee14) .

Concerns about the health impacts of OFD platforms increased dramatically during the pandemic. Since the first case recorded in Wuhan, China, countries of all continents have implemented protection measures to prevent further spread of the new coronavirus (SARS-CoV-2) that resulted in less physical contact between people(Reference Wang, Horby and Hayden15). These measures favoured the OFD platforms, since the delivery process is contactless(Reference Mehrolia, Alagarsamy and Solaikutty16,Reference Zhao and Bacao17) . In addition, OFD platforms have started several new initiatives to increase people’s use of their app during the pandemic, such as supplying essentials to consumers, offering COVID-19 insurance to delivery partners, setting up pandemic relief funds and strictly adhering to hygiene standards at restaurants for all steps, including preparing, cooking and packaging of food(Reference Kumar and Shah18).

Thus, clarifying OFD platforms’ food environment during the pandemic is an important public health research issue. Brazil was hit hard by the COVID-19 pandemic(Reference Tang, Serdan and Masi19), and this directly contributed to the 15 % increase in the number of downloads of OFD platforms registered in the first 2 weeks of March 2020(20). A previous study has already described the food advertised on an OFD platform in twenty-seven cities during the pandemic’s 13th and 14th weeks(Reference Horta, Matos and Mendes21). The present study advances in this subject by analysing the food items that have been continually offered and the combination of marketing strategies on the country’s most popular OFD platform. We collected data in Belo Horizonte, Brazil’s sixth-largest city with an estimated population of 5 million in its metropolitan region(22).

Methodology

This longitudinal study investigated food advertised on an OFD platform in Belo Horizonte, Brazil, for 16 weeks of the pandemic (from 6 April to 26 July 2020). We started our data collection from the same data point as in the previous study describing food advertised in twenty-seven Brazilian cities(20).

The OFD platform studied is a national company established in 2011, currently the biggest food tech company in Latin America. In 2019, the platform delivered an average of 13 million orders per month countrywide, and this number reached 39 million in March 2020, when more than 1·5 million downloads of its app were registered.

Context of the study: COVID-19 pandemic in Belo Horizonte

Brazil confirmed its first case of COVID-19 on 26 February 2020 in São Paulo. By 22 March, all states had at least one case(23). Belo Horizonte confirmed its first case on 16 March 2020.

The COVID-19 context in Belo Horizonte during the study period is synthesised in Fig. 1(a) for the number of cases and Fig. 1(b) for the number of deaths due to the disease. Each information was available on the Belo Horizonte City Hall website (www.pbh.gov.br).

Fig. 1 The COVID-19 context in Belo Horizonte during the study period

Regarding the measures implemented by the city mayor to control the spread of the disease, during the study period, all bars, restaurants, cafeterias and other food outlets selling ready-to-eat meals remained closed for dining in – only takeaway and delivery were provided. After the third week of the study, City Hall declared a state of calamity (Table 1).

Table 1 Municipal decrees specifying the protection measures implemented to contain the spread of the SARS-CoV-2 virus in Belo Horizonte

During the entire period of data collection, bars and restaurants were prohibited from opening for patrons; only delivery and takeaway services were allowed.

Data collection

This study considered all the foods advertised on the app home page during the study period; we did not include items advertised only in the restaurants’ full menus. Data collection took place on two randomly selected days (one weekday and one weekend day) from each week of the study period, providing 6372 advertised foods. On each selected day, we recorded the offers shown during lunch (11.00 to 13.00) and dinner (18.00 to 21.00). All the data were collected from the app’s home page in a single moment using a screen capture tool and saved as PDF files for analysis.

A sample of the food promotions (n 1593; 25 %) was selected through a randomisation process stratified by the day of the week and mealtime.

Food items featured were classified into the following food groups: water; natural juices and smoothies; vegetables; fruits; traditional meals (dishes made predominantly with unprocessed or minimally processed foods commonly find in Brazil) and pasta; ultra-processed beverages; ice cream, candies, and salty packaged snacks; sandwiches; savoury snacks; and pizza (Table 2). We then identified these groups as predominantly healthy or unhealthy based on whether they contained ultra-processed foods according to the NOVA food classification system(Reference Monteiro, Levy and Claro24,Reference Monteiro, Cannon and Levy25) and the Ministry of Health’s Dietary Guidelines for the Brazilian Population(26).

Table 2 Description of the food groups advertised on the OFD platform

OFD, online food delivery.

We also investigated the marketing strategies used to persuade users to buy food items based on previous frameworks about advertising strategies with different media(Reference Kelly, King and Baur27,Reference Tatlow-Golden, Jewell and Zhiteneva28) . The various strategies leverage the power of advertising with endorsements and influencers (e.g. licensed characters, celebrities and awards), premium offers (e.g. buy-one-get-one-free offers, gifts, collectables and limited editions), and claims (e.g. messages emphasising sensory-based characteristics such as flavour, taste, aroma; descriptions of the benefits of using/consuming the product)(Reference Kelly, King and Baur27,Reference Tatlow-Golden, Jewell and Zhiteneva28) . We considered adaptations of these strategies by the OFD platforms in our data collection, and we investigated the use of photos, discounts, ‘combo deals’ (combinations of food items and drinks offered at a discount), and messages on healthiness, value for the money, tastiness, and pleasure (Table 3).

Table 3 Marketing strategies used on the OFD platform to persuade users to buy food items

OFD, online food delivery.

Data analysis

We double-coded all the food items in a spreadsheet through two independent assessments. The coding was checked for agreement, and all divergences were resolved by a third researcher.

Data analysis was performed using the Stata software, version 12.0 (StataCorp LLC). We conducted descriptive statistics to describe how much each food group featured in the offers (%) and the marketing strategies employed on the OFD platform during the study period. Analysis stratified by mealtime and day of the week was also applied, and the results are presented in the supplementary material.

Results

In general, the OFD platform most commonly promoted traditional meals and pasta, ultra-processed beverages, and sandwiches – these food groups were offered 20–25 % of the time during the 16 weeks (Fig. 2(a), (b) and (c)). Pizza was also frequently offered (10–15 %) on the platform. Sandwiches, pizza and traditional meals offers varied the most during the study period, although we did not identify any clear pattern (Fig. 2(a)).

Fig. 2 Characterisation of the food groups promoted on an online food delivery platform during the COVID-19 pandemic in Belo Horizonte

Also, there were no promotions for water during the whole period, and those featuring natural juices and smoothies, vegetables, and fruits were least common (<5 %) (Fig. 2(b) and (c)).

During the study period, the most common marketing food promotion strategies on the OFD platform were photos (> 80 %) and discounts (> 95 %), and approximately 30 % featured combos (Fig. 3(a)). The platform promoted foods’ value for the money and messages on tastiness and pleasure more often than the healthiness of the foods (Fig. 3(b)).

Fig. 3 Food promotion marketing strategies on an online food delivery platform during the COVID-19 pandemic in Belo Horizonte

During the study period, offers of traditional meals and pasta led during the lunch hours (24–46·9 %). During the dinner hours, ultra-processed beverages (18·4–32 %) and sandwiches (18–40 %) were the most common food items promoted. Regardless of the time, the least common offers were for water, natural juices and smoothies, vegetables, and fruits. We found no significant differences between the weekday and weekends food offers. In both periods, the most promoted food items were traditional meals and pasta, ultra-processed beverages, and sandwiches. We also found no significant differences in the marketing strategies used during the different mealtimes or days of the week and significant variations in the behaviour of the variables during the study period (Supplementary material).

Discussion

This study revealed that during the 16 weeks of the COVID-19 pandemic in a Brazilian metropolis, except for traditional meals and pasta, the promotions on the OFD platform primarily featured unhealthy foods and beverages. The app promoted sandwiches, pizza and ultra-processed beverages more frequently than water, natural juices and smoothies, vegetables, and fruits. The most frequently used typical marketing strategies to persuade consumers to buy the food items were photos, discounts and claims about tastiness, pleasure and value for the money.

As previously mentioned, a study characterised food advertising on OFD platforms in 27 Brazilian cities(20). Our results aligned with that study’s finding that the main foods promoted on Brazil’s OFD platforms were traditional meals and pasta, bread-based items (like burgers), pizza and ultra-processed beverages; moreover, the marketing strategies identified by the two studies were also similar(20). However, our investigation went further by adding information about the longitudinal pattern of food advertising on OFD platforms in Brazil during the pandemic.

Although any foods available on the OFD menus could be promoted with discounts, combo deals or other incentivising methods, the OFD platform chose specific food types from the menus for incentive promotions. We found that except for traditional meals and pasta dishes made with fresh and minimally processed foods such as rice, beans, meat and vegetables, the OFD platforms chose to promote predominantly unhealthy foods.

Internationally, other studies have found similar results, suggesting that the OFD platform environment does not promote healthiness. In Canada, the quality of food on offer in the menus of twelve restaurants on four popular OFD platforms was considered poor (HEI-2015 score ranged from 19·95 to 50·78 out of 100)(Reference Brar and Minaker9). In Australia and New Zealand, the most popular food outlets registered on one OFD platform have been classified as ‘unhealthy’, with 85·9 % of all popular menu items being discretionary(Reference Partridge, Gibson and Roy10). In addition, a study has compared OFD meal options in three cities of high-income countries and found burger, pizza and Italian food items in the top ten most common meals on the app(Reference Poelman, Thornton and Zenk11).

OFD platforms use various marketing strategies to enhance user experiences and increase food purchase intentions. If the experience is good, it will stimulate consumers to use the app whenever they desire a satisfying meal(Reference Chen, Liang and Liao3). Previous studies have shown that cost savings, convenience, varied choices, information availability, lack of social contact and customised goods or services are important factors influencing utilitarian value in online shopping(Reference Chen, Liang and Liao3,Reference Yeo, Goh and Rezaei29) . Therefore, discounts (frequently applied in the form of coupons), message on economy and combos are strategies that offer the consumer savings in terms of both cost and time. In addition, hand-picking multiple food items for a combo can give the consumer the feeling that it has been made exclusively for him/her. Furthermore, the use of messages on tastiness and pleasure improves the sensory, imaginative and emotional experience while buying(Reference Chen, Liang and Liao3). The use of photos is another strategy that offers consumers more sensory enjoyment and anticipates the experience they may have if they choose the illustrated meal.

Clever marketing strategies increase people’s use of OFD platforms and, consequently, their consumption of the unhealthy foods featured by the apps. Eating poorly increases the likelihood of developing (or aggravating) chronic conditions, an important risk factor for severe COVID-19 symptoms(Reference Gold, Sehayek and Gabrielli30). Increased reliance on OFD platforms use can lead to over-ordering, resulting in overeating and food waste. The increased delivery traffic also means increased greenhouse gas emissions, which impact the global community and sustainability(Reference Li, Mirosa and Bremer31,Reference Sharma, Dhir and Talwar32) . Thus, designing interventions or public policies aimed at improving OFD platforms from the perspective of people’s health, and the conscious use of these apps are urgent.

Food outlets could provide consumers with information on the energy content of their dishes and drinks and rank their food according to nutritional profile models or other nutritional recommendations by health organisations; they could also increase the proportion of healthier items on their menus(Reference Dana, Hart and McAleese7) and try different strategies to promote the consumption of fresh foods. Although many consumers are concerned about freshness, since the pandemic, buying fresh food items online is gradually becoming the norm worldwide; sellers use packaging that keeps food safe and fresh during transit and displays its freshness to reassure consumers(Reference Liu and Lin33).

Another way to promote healthy eating through OFD platforms is creating a digital interface that encourages or ‘nudges’ users towards healthier choices, for example, by setting healthy items as the default, restructuring the menu to highlight healthier options using methods such as promotional tagging or recommending a healthier alternative to a previously ordered meal(Reference Bates, Reeve and Trevena5). OFD platforms could also provide filters that enable users to refine their searches according to specific nutrition-related criteria(Reference Dana, Hart and McAleese7).

Nevertheless, numerous studies have identified the limitations of self-regulatory measures(34), suggesting that government regulation might also be needed. Few governments have established policies regulating food and beverage choices on OFD platforms. As of 2022, UK restaurant chains must display the calorie information of non-prepacked food and drink items prepared for immediate consumption, including menus on OFD platforms(Reference Halloran, Faiz and Chatterjee14). Other strategies for regulation include nutrition labelling for all food sold on the platforms and limiting the use of price promotions and combo deals on unhealthy foods, which are common food marketing tactics.

We also need to regulate the use of individual data to personalise food offers. OFD platforms can communicate directly with consumers through mobile phone or social media; based on what marketers know about them, some are offered rewards, discounts and tailored advertising messages – this affects their right to be protected from such practices(Reference Montgomery, Chester and Nixon35). Until recently, Brazil did not have an appropriate legislation to regulate data privacy on the Internet, and many doubts about its applicability remain(Reference Fornasier and Knebel36). In accordance with Muangmee et al.(Reference Muangmee, Kot and Meekaewkunchorn37), users’ security in terms of sensitive data must be protected on OFD platforms, just as doors, windows and walls serve as barriers to intrusion in the physical restaurant setting. Therefore, we consider it important to protect sociodemographic information and data about user navigation on multiple devices to prevent OFD platforms from sending tailored messages that encourage unhealthy eating.

Discussions on the future of OFD platforms should also include examining the digital food environment in a post-pandemic world. The pandemic accelerated transformations in the food retail industry, with virtual points of purchase making both healthy and unhealthy foods more accessible and convenient(Reference Montgomery, Chester and Nixon35). We identified opportunities for improving the healthiness of Brazil’s OFD platforms. However, equitable access to these services must be guaranteed for all social groups. The expansion of digital food retail services has spotlighted the digital divide: OFDs provide improved food access to people living in wealthy, well-connected neighbourhoods but limited options for people with fewer resources and those living in less centralised areas(Reference Montgomery, Chester and Nixon35,Reference Chang, Green and Cummins38) . Future investigations should address the gaps in OFD platform access in Brazil. Also, future studies could provide information about how individuals respond to food offers on OFD platforms and the consequences of this exposure on their health.

Finally, our results study’s limitations need to be addressed. We studied only the foods advertised on the app’s home page; users encounter other options when they access the restaurant’s full menu and the OFD platform’s social media pages. Furthermore, we studied only one platform. In addition, although longitudinal, during the entire study period, food outlets remained shut, and we could not evaluate how the digital food environment changed after restaurants and bars reopened for patrons. However, these aspects notwithstanding, for the first time, a longitudinal study described food promotions on OFD platforms, especially during the COVID-19 pandemic when people have been more exposed to the digital environment and vulnerable to unhealthy eating choices.

Acknowledgements

Acknowledgements: None. Financial support: J.P.M. has a scholarship from CAPES (Coordenação de Aperfeiçoamento de Pessoal de Nível Superior) (grant 001). This study was supported by Pró-reitoria de Pesquisa da Universidade Federal de Minas Gerais (PRPq/UFMG) (grant 03/2022). Conflict of interest: There are no conflicts of interest. Authorship: P.M.H. made substantial contributions to the conception or design of the work, participated in the interpretation of data for the work and draft the article; J.P.M. made substantial contributions to the conception or design of the work, participated in the acquisition, analysis and interpretation of data for the work, and revise it critically for important intellectual content; L.L.M. made substantial contributions to the conception or design of the work, participated in the interpretation of data for the work and revise it critically for important intellectual content. All authors gave final approval of the version to be published. Ethics of human subject participation: This study does not involve human participant.

Supplementary material

For supplementary material/s referred to in this article, please visit https://doi.org/10.1017/S1368980022000489

References

Downs, SM, Ahmed, S, Fanzo, J et al. (2020) Food environment typology: advancing an expanded definition, framework, and methodological approach for improved characterization of wild, cultivated, and built food environments toward sustainable diets. Foods 9, 532.CrossRefGoogle ScholarPubMed
Granheim, SI, Løvhaug, AL, Terragni, L et al. (2022) Mapping the digital food environment: a systematic scoping review. Obes Rev 23, e13356.CrossRefGoogle ScholarPubMed
Chen, H-S, Liang, C-H, Liao, S-Y et al. (2020) Consumer attitudes and purchase intentions toward food delivery platform services. Sustainability 12, 10177.CrossRefGoogle Scholar
Williams, G, Tushev, M, Ebrahimi, F et al. (2020) Modeling user concerns in Sharing Economy: the case of food delivery apps. Autom Softw Eng 27, 229263.CrossRefGoogle Scholar
Bates, S, Reeve, B & Trevena, H (2020) A narrative review of online food delivery in Australia: challenges and opportunities for public health nutrition policy. Public Health Nutr. doi: 10.1017/S1368980020000701.CrossRefGoogle ScholarPubMed
Keeble, M, Adams, J, Sacks, G et al. (2020) Use of online food delivery services to order food prepared away-from-home and associated sociodemographic characteristics: a cross-sectional, multi-country analysis. Int J Environ Res Public Health 17, 5190.CrossRefGoogle ScholarPubMed
Dana, LM, Hart, E, McAleese, A et al. (2021) Factors associated with ordering food via online meal ordering services. Public Health Nutr 24, 57045709.CrossRefGoogle ScholarPubMed
Horta, PM, Souza, JPM, Rocha, LL et al. (2021) Digital food environment of a Brazilian metropolis: food availability and marketing strategies used by delivery apps. Public Health Nutr 24, 544548.CrossRefGoogle ScholarPubMed
Brar, K & Minaker, LM (2021) Geographic reach and nutritional quality of foods available from mobile online food delivery service applications: novel opportunities for retail food environment surveillance. BMC Public Health 21, 458.CrossRefGoogle ScholarPubMed
Partridge, SR, Gibson, AA, Roy, R et al. (2020) Junk food on demand: a cross-sectional analysis of the nutritional quality of popular online food delivery outlets in Australia and New Zealand. Nutrients 12, 3107.CrossRefGoogle ScholarPubMed
Poelman, MP, Thornton, L & Zenk, SN (2020) A cross-sectional comparison of meal delivery options in three international cities. Eur J Clin Nutr 74, 14651473.CrossRefGoogle ScholarPubMed
World Health Organization (2021) Slide to Order: A Food Systems Approach to Meals Delivery Apps: WHO European Office for the Prevention and Control of Noncommunicable Diseases. Copenhagen: WHO Regional Office for Europe.Google Scholar
Stephens, J, Miller, H & Militello, L (2020) Food delivery apps and the negative health impacts for Americans. Front Nutr 7, 14.CrossRefGoogle ScholarPubMed
Halloran, A, Faiz, M, Chatterjee, S et al. (2022) The cost of convenience: potential linkages between noncommunicable diseases and meal delivery apps. Lancet Reg Health 12, 100293.Google ScholarPubMed
Wang, C, Horby, PW, Hayden, FG et al. (2020) A novel coronavirus outbreak of global health concern. Lancet 395, 470473.CrossRefGoogle ScholarPubMed
Mehrolia, S, Alagarsamy, S & Solaikutty, VM (2021) Customers response to online food delivery services during COVID-19 outbreak using binary logistic regression. Int J Consum Stud 45, 396408.CrossRefGoogle Scholar
Zhao, Y & Bacao, F (2020) What factors determining customer continuingly using food delivery apps during 2019 novel coronavirus pandemic period? Int J Hosp Manag 91, 102683.CrossRefGoogle ScholarPubMed
Kumar, S & Shah, A (2021) Revisiting food delivery apps during COVID-19 pandemic? Investigating the roles of emotions. J Retailing Consum Serv 62, 102595.CrossRefGoogle Scholar
Tang, Y, Serdan, T, Masi, LN et al. (2020) Epidemiology of COVID-19 in Brazil: using a mathematical model to estimate the outbreak peak and temporal evolution. Emerging Microbes Infect 9, 14531456.CrossRefGoogle ScholarPubMed
Statista (2021) Changes in Number of Delivery App Downloads during the Coronavirus (COVID-19) Outbreak in Brazil in March 2020. https://www.statista.com/statistics/1108909/change-delivery-apps-brazil/ (accessed July 2020).Google Scholar
Horta, PM, Matos, JP & Mendes, LL (2020) Digital food environment during the coronavirus disease 2019 (COVID-19) pandemic in Brazil: an analysis of food advertising in an online food delivery platform. Br J Nutr 126, 767772.CrossRefGoogle Scholar
IBGE (2020) The Brazilian Institute of Geography and Statistics. Belo Horizonte – Minas Gerais. https://cidades.ibge.gov.br/brasil/mg/belo-horizonte/panorama (accessed December 2020).Google Scholar
Brasil Coronavírus (2020) Coronavirus. https://covid.saude.gov.br/ (accessed July 2020).Google Scholar
Monteiro, CA, Levy, RB, Claro, RM et al. (2010) A new classification of foods based on the extent and purpose of their processing. Cad Saude Publica 26, 20392049.CrossRefGoogle ScholarPubMed
Monteiro, CA, Cannon, G, Levy, RB et al. (2016) NOVA. The star shines bright. World Nutr 7, 2838.Google Scholar
Ministry of Health (2014) Dietary Guidelines for the Brazilian Population. Brasília: Ministry of Health.Google Scholar
Kelly, B, King, L, Baur, L et al. (2013) Monitoring food and non-alcoholic beverage promotions to children. Obes Rev 14, 5969.CrossRefGoogle ScholarPubMed
Tatlow-Golden, M, Jewell, J, Zhiteneva, O et al. (2021) Rising to the challenge: introducing protocols to monitor food marketing to children from the World Health Organization Regional Office for Europe. Obe Rev 22, e13212.Google Scholar
Yeo, VCS, Goh, S-K & Rezaei, S (2017) Consumer experiences, attitude and behavioral intention toward online food delivery (OFD) services. J Retailing Consum Serv 35, 150162.CrossRefGoogle Scholar
Gold, MS, Sehayek, D, Gabrielli, S et al. (2020) COVID-19 and comorbidities: a systematic review and meta-analysis. Postgrad Med 132, 749755.CrossRefGoogle ScholarPubMed
Li, C, Mirosa, M & Bremer, P (2020) Review of online food delivery platforms and their impacts on sustainability. Sustainability 12, 5528.CrossRefGoogle Scholar
Sharma, R, Dhir, A, Talwar, S et al. (2021) Over-ordering and food waste: the use of food delivery apps during a pandemic. Int J Hosp Manag 96, 102977.CrossRefGoogle Scholar
Liu, CF & Lin, CH (2020) Online food shopping: a conceptual analysis for research propositions. Front Psychol 11, 583768.CrossRefGoogle ScholarPubMed
World Cancer Research Fund International (2020) Building Momentum: Lessons on Implementing Robust Restrictions of Food and Non-Alcoholic Beverage Marketing to Children. https://wcrf.org/buildingmomentum (accessed January 2020).Google Scholar
Montgomery, K, Chester, J, Nixon, L et al. (2019) Big Data and the transformation of food and beverage marketing: undermining efforts to reduce obesity? Crit Public Health 29, 110117.CrossRefGoogle Scholar
Fornasier, MO & Knebel, NMP (2021) The data holder as the subject of law in capitalism of surveillance and data commercialization in the General Data Protecion Act. Rev Direito e Práx 12, 10021033.CrossRefGoogle Scholar
Muangmee, C, Kot, S, Meekaewkunchorn, N et al. (2021) Factors determining the behavioral intention of using food delivery apps during COVID-19 pandemics. J Theor Appl Electron Commerce Res 16, 12971310.CrossRefGoogle Scholar
Chang, M, Green, L & Cummins, S (2021) All change. Has COVID-19 transformed the way we need to plan for a healthier and more equitable food environment. Urban Des Int 26, 291295.CrossRefGoogle Scholar
Figure 0

Fig. 1 The COVID-19 context in Belo Horizonte during the study period

Figure 1

Table 1 Municipal decrees specifying the protection measures implemented to contain the spread of the SARS-CoV-2 virus in Belo Horizonte

Figure 2

Table 2 Description of the food groups advertised on the OFD platform

Figure 3

Table 3 Marketing strategies used on the OFD platform to persuade users to buy food items

Figure 4

Fig. 2 Characterisation of the food groups promoted on an online food delivery platform during the COVID-19 pandemic in Belo Horizonte

Figure 5

Fig. 3 Food promotion marketing strategies on an online food delivery platform during the COVID-19 pandemic in Belo Horizonte

Supplementary material: File

Horta et al. supplementary material

Tables S1-S4

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