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The effects of a sugar-sweetened beverage tax and a nutrient profiling tax based on Nutri-Score on consumer food purchases in a virtual supermarket: a randomised controlled trial

Part of: Sugary Drinks

Published online by Cambridge University Press:  03 November 2021

Michelle Eykelenboom Open the ORCID record for Michelle Eykelenboom [Opens in a new window] ,
Margreet R Olthof ,
Maartje M van Stralen ,
Sanne K Djojosoeparto ,
Maartje P Poelman Open the ORCID record for Maartje P Poelman [Opens in a new window] ,
Carlijn BM Kamphuis ,
Reina E Vellinga ,
Wilma E Waterlander ,
Carry M Renders  and
Ingrid HM Steenhuis
Michelle Eykelenboom*
Affiliation:
Department of Health Sciences, Faculty of Science, Vrije Universiteit Amsterdam, Amsterdam Public Health Research Institute, De Boelelaan 1085, 1081 HV Amsterdam, the Netherlands
Margreet R Olthof
Affiliation:
Department of Health Sciences, Faculty of Science, Vrije Universiteit Amsterdam, Amsterdam Public Health Research Institute, De Boelelaan 1085, 1081 HV Amsterdam, the Netherlands
Maartje M van Stralen
Affiliation:
Department of Health Sciences, Faculty of Science, Vrije Universiteit Amsterdam, Amsterdam Public Health Research Institute, De Boelelaan 1085, 1081 HV Amsterdam, the Netherlands
Sanne K Djojosoeparto
Affiliation:
Department of Human Geography and Spatial Planning, Faculty of Geosciences, Utrecht University, Utrecht, the Netherlands
Maartje P Poelman
Affiliation:
Chairgroup Consumption and Healthy Lifestyles, Department of Social Sciences, Wageningen University & Research, Wageningen, the Netherlands
Carlijn BM Kamphuis
Affiliation:
Department of Interdisciplinary Social Science, Faculty of Social and Behavioural Sciences, Utrecht University, Utrecht, the Netherlands
Reina E Vellinga
Affiliation:
National Institute for Public Health and the Environment (RIVM), Bilthoven, the Netherlands
Wilma E Waterlander
Affiliation:
Department of Public and Occupational Health, Amsterdam UMC, University of Amsterdam, Amsterdam Public Health Research Institute, Amsterdam, the Netherlands
Carry M Renders
Affiliation:
Department of Health Sciences, Faculty of Science, Vrije Universiteit Amsterdam, Amsterdam Public Health Research Institute, De Boelelaan 1085, 1081 HV Amsterdam, the Netherlands
Ingrid HM Steenhuis
Affiliation:
Department of Health Sciences, Faculty of Science, Vrije Universiteit Amsterdam, Amsterdam Public Health Research Institute, De Boelelaan 1085, 1081 HV Amsterdam, the Netherlands
*
*Corresponding author: Email [email protected]
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Abstract

Objective:

To investigate the effects of a sugar-sweetened beverage (SSB) tax and a nutrient profiling tax on consumer food purchases in a virtual supermarket.

Design:

A randomised controlled trial was conducted with a control condition with regular food prices (n 152), an SSB tax condition (n 130) and a nutrient profiling tax condition based on Nutri-Score (n 112). Participants completed a weekly grocery shop for their household. Primary outcome measures were SSB purchases (ordinal variable) and the overall healthiness of the total shopping basket (proportion of total unit food items classified as healthy). The secondary outcome measure was the energy (kcal) content of the total shopping basket. Data were analysed using regression analyses.

Setting:

Three-dimensional virtual supermarket.

Participants:

Dutch adults aged ≥18 years are being responsible for grocery shopping in their household (n 394).

Results:

The SSB tax (OR = 1·62, (95 % CI 1·03, 2·54)) and the nutrient profiling tax (OR = 1·88, (95 %CI 1·17, 3·02)) increased the likelihood of being in a lower-level category of SSB purchases. The overall healthiness of the total shopping basket was higher (+2·7 percent point, (95 % CI 0·1, 5·3)), and the energy content was lower (−3301 kcal, (95 % CI −6425, −177)) for participants in the nutrient profiling tax condition than for those in the control condition. The SSB tax did not affect the overall healthiness and energy content of the total shopping basket (P > 0·05).

Conclusions:

A nutrient profiling tax targeting a wide range of foods and beverages with a low nutritional quality seems to have larger beneficial effects on consumer food purchases than taxation of SSB alone.

Keywords

Food policyNutri-scoreRandomised controlled trialSugar-sweetened beverage taxVirtual supermarket
Type
Research paper
Information
Public Health Nutrition , Volume 25 , Issue 4 , April 2022 , pp. 1105 - 1117
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Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
© The Author(s), 2021. Published by Cambridge University Press on behalf of The Nutrition Society

Over the past few decades, the prevalence of overweight and obesity has increased worldwide(1). This is alarming as overweight and obesity are associated with an increased risk of several non-communicable diseases including type 2 diabetes, cardiovascular diseases, musculoskeletal disorders and some types of cancer(1). In the European Union, more than half of the adult population are overweight(2). The fundamental cause of overweight and obesity is an imbalance between energy intake and energy expenditure(1). A major driver of a positive energy balance is an unhealthy dietary pattern with excess consumption of energy-dense, ultra-processed foods containing high levels of added sugar and saturated fat(1). The food environment plays a crucial role in food choice and a shift towards healthier dietary patterns requires interventions within the physical, sociocultural, political and economic food environment(3,Reference Swinburn, Egger and Raza4) .

In the economic food environment, food price is an important determinant of food choice(Reference Steenhuis, Waterlander and de Mul5). Fiscal policies form a promising strategy to stimulate healthy food choices(6). A policy that has received considerable attention in recent years is taxation of sugar-sweetened beverages (SSB). In 2016, the WHO recommended governments to tax SSB(7). The rationale for targeting SSB includes compelling evidence that the consumption of SSB is causally associated with weight gain and that SSB provide no nutritional value(Reference Malik, Pan and Willett8Reference Woodward-Lopez, Kao and Ritchie10). There is substantial evidence that taxation of SSB reduces purchases and consumption of SSB and stimulates the beverage industry to reformulate their products to reduce sugar content(Reference Teng, Jones and Mizdrak11Reference Thow, Downs and Jan13). Over forty countries worldwide have implemented an SSB tax in various forms(14). The World Cancer Research Fund International provides an overview of implemented SSB taxes(14). For example, a two-tiered specific excise tax implemented in 2018 in the UK, the Soft Drink Industry Levy (SDIL), applies different tax rates depending on the sugar content of beverages(14). Health-related food taxes targeting a wide range of unhealthy foods and beverages are only implemented in Mexico and Hungary(14). In Mexico, non-essential foods with an energy density of ≥275 kcal/100 g are taxed(14). The Hungarian ‘Public Health Product Tax’ targets products high in sugar, salt and/or caffeine(14).

Although the focus of most food tax initiatives has been on SSB, taxes targeting a wider range of unhealthy foods and beverages may have more beneficial effects on healthy food choice than taxation of SSB alone(Reference Thow, Downs and Mayes15,Reference Caro, Ng and Taillie16) . Waterlander et al. measured the effects of food price variations simulating different policies, including a beverage tax and three different nutrient taxes, on consumer food purchasing in a New Zealand virtual supermarket setting(Reference Waterlander, Jiang and Nghiem17). The beverage tax did not affect study outcomes, while the three nutrient taxes – a saturated fat tax, sugar tax and salt tax – all had independent, positive effects on healthy food purchases and their target nutrient. However, the saturated fat tax and salt tax also led to an increase in the purchases of sugar in products as a percentage of total purchased energy. A solution to such potential unintended substitution effects might be to target several nutrients and/or foods with one tax simultaneously, using a nutrient profiling model(6,18) . Poelman et al. measured the effects of a nutrient profiling tax based on the WXY(Reference Rayner, Scarborough and Boxer19) nutrient profiling model in a Dutch virtual supermarket(Reference Poelman, Kroeze and Waterlander20). Poelman et al. did not find significant effects on the purchases of kcal, sugar and saturated fat, likely as a consequence of low statistical power(Reference Poelman, Kroeze and Waterlander20).

In Europe, the nutrient profiling model Nutri-Score has been adopted for front-of-pack labelling purposes in France, Belgium, Spain, Germany, Switzerland and Luxembourg and is currently being discussed in many other countries, such as in the Netherlands(Reference Dréano-Trécant, Egnell and Hercberg21). Nutri-Score is based on the British Food Standards Agency nutrient profiling system and presents the nutritional quality of food and beverage products on a five-point, colour-coded scale(22). In addition to front-of-pack labelling purposes, Nutri-Score could also be helpful in determining which foods and beverages should be subject to health-related food taxes(6). To the best of our knowledge, there have not been randomised controlled intervention studies investigating the effects of taxation of SSB alone and taxation of a wider range of unhealthy foods and beverages by the use of the Nutri-Score on consumer food purchases. As part of the European Policy Evaluation Network(Reference Lakerveld, Woods and Hebestreit23), the aim of this study was therefore to investigate the effects of an SSB tax based on a scheme similar to an enacted European SSB tax – the UK’s SDIL – and a nutrient profiling tax based on Nutri-Score on SSB purchases and healthy food purchases in a virtual supermarket setting.

Methods

Study design

A randomised controlled trial was conducted in which participants were randomly assigned to one of the following conditions in the virtual supermarket: (i) a control condition with regular food prices; (ii) an experimental condition with a two-tiered SSB tax or (iii) an experimental condition with a nutrient profiling tax based on Nutri-Score(22). In the Netherlands, regular food prices include a value-added tax rate of 9 % that applies to all food and beverage products(24). Moreover, a consumption tax of €0·0883/l applies to fruit and vegetable juices, soft drinks and mineral water, with no distinction between SSB and sugar-free beverages (e.g. water or non-caloric sweetened beverages)(25). To reflect a real-world situation in which people would likely be aware of the implementation of food taxes(Reference Alvarez-Sanchez, Contento and Jimenez-Aguilar26,Reference Chetty, Looney and Kroft27) , participants in the experimental conditions were informed about the tax before entering the virtual supermarket with a notification. The notification was tailored to the condition; ‘In the virtual supermarket, beverages high in sugar are taxed’ or ‘In the virtual supermarket, unhealthy products high in sugar, fat and/or salt (such as biscuits, sweets, snacks and soft drinks) are taxed’. Participants in the control condition did not receive such a notification.

In the experimental condition with SSB taxation, beverages were taxed on a scheme similar to the UK’s SDIL. This meant that beverages containing 5–8 g of sugar/100 ml were additionally taxed €0·21/l and beverages containing 8 g of sugar or more per 100 ml were additionally taxed €0·28/l(14). In line with the SDIL, the tax was not applied to milk-based drinks, milk substitute drinks, alcohol substitute drinks and 100 % fruit juices without added sugar(14). We selected the SDIL because it is regarded as an effective SSB tax in Europe with its tiered tax system and relatively high tax rate(14). The implementation of the SDIL accelerated the decline in the sale of sugar from soft drinks in the UK as a result of changes in consumer purchasing and action by the SSB industry to reduce sugar in products(Reference Bandy, Scarborough and Harrington28). In the virtual supermarket, the SSB tax corresponded to an average price increase of 22 % for the beverages liable for the tax. In total, 34 SSB (6 % of the stock of the virtual supermarket and 40 % of the non-alcoholic beverages) were taxed (see Table 1). The prices of other products were identical to the control condition.

Table 1 Overview of food categories and the number of taxed products in the experimental conditions in the virtual supermarket

* Classification from the Dutch food composition database (NEVO)(33).

Detailed information can be found in Supplemental Table S1.

In the nutrient profiling tax condition, taxation of energy-dense, nutrient-poor foods and beverages was based on the nutrient profiling scheme Nutri-Score(22). The five-point, colour-coded scale of Nutri-Score ranges from most healthy (dark green, associated with the letter ‘A’) to least healthy (red, associated with the letter ‘E’)(Reference Dréano-Trécant, Egnell and Hercberg21). In this study, food and beverage products with the label ‘D’ or ‘E’ were classified as unhealthy. The prices of these products were increased by 20 % based on previous scientific evidence suggesting that such price increases would be needed to have meaningful effects on purchases, consumption and ultimately population health(6,Reference Powell, Chriqui and Khan12) . In total, 224 food and beverage products (39 % of the stock of the virtual supermarket) were taxed (see Table 1). Similar to the SSB tax condition, 34 SSB were taxed in the nutrient profiling tax condition. The prices of other products were identical to the control condition.

Setting: the virtual supermarket

The present study was conducted in a Dutch virtual supermarket(Reference Waterlander, Scarpa and Lentz29), which is a three-dimensional software application that simulates the in-store environment of a real supermarket. A validation study showed that food purchasing behaviour in the virtual supermarket is comparable to real-life food purchasing behaviour(Reference Waterlander, Jiang and Steenhuis30). Shopping in the virtual supermarket closely mirrors a real-life supermarket experience; participants can move along supermarket aisles and place products in their basket with a single mouse click. More detailed information on the main features of the software application can be found elsewhere(Reference Waterlander, Scarpa and Lentz29).

The original version of the Dutch virtual supermarket(Reference Waterlander, Scarpa and Lentz29) has been updated between January 2019 and March 2020 for the purpose of this study. The software update included several new features to create a more realistic simulation of a real-life supermarket experience (e.g. in-store signage, cash register shelves and ambient supermarket sound effects) and to facilitate the use of the software (e.g. a tutorial prior to the experiment). In addition, twenty products (e.g. meat substitutes and freshly baked bakery products) were added to the stock of the virtual supermarket to align with the changed stock over the past years. The identification of new products was conducted by the research team and based on the stock of the leading supermarket chain in the Netherlands and the most frequently consumed foods according to the most recent Dutch National Food Consumption Survey (2012–2016)(Reference van Rossum, Buurma-Rethans and Dinnissen31). Since we did not have access to sales data, the number and type of products within food and beverage categories as shown on the website of the leading supermarket chain were used to model the usual stock. Moreover, for the specific purpose of this trial, forty-eight non-alcoholic beverages (of which twenty-six SSB) were added. We included different package sizes and selected the supermarket’s own-brand and the most common premium brand for the beverages, which enabled us to investigate potential shifts from more expensive premium brand beverages to cheaper supermarket’s own-brand beverages as a consequence of the taxes in the experimental conditions(Reference Chriqui, Chaloupka and Powell32). No distinction was made between different brands for other food categories. The updated virtual supermarket contained 580 food products, including 119 beverages. Food prices were updated using the website of the leading supermarket chain in February 2020. Each product was priced with the average price of the supermarket’s own brand and the most common premium brand of that product weighted for pack size, with the exception of the non-alcoholic beverages which were priced depending on the brand. Moreover, information on the nutritional composition of the products was updated using the online Dutch Food Composition Database (NEVO) version 2019(33). Nutri-Scores were calculated using a calculation tool of the French National Public Health Agency(22). The updated virtual supermarket was pilot-tested on a heterogeneous population of Dutch adults (n 13) who were asked for feedback on the download instructions and software manuals, user-friendliness of the software as well as the closing questionnaire. Based on the feedback, we improved the lay-out of the instructions, the display settings for the visibility of products on bottom shelves and the phrasing of questions in the closing questionnaire. All study materials were developed in Dutch language proficiency level B1, which is understood by the vast majority of the population(34).

Participants and recruitment

Participants were eligible for inclusion in the study if they met the following criteria: (i) being 18 years or older; (ii) being familiar with the Dutch language; (iii) being largely/totally responsible for grocery shopping in their household and (iv) having access to a laptop or computer. Participants were recruited between June and August 2020 using one of the largest online research panels in the Netherlands with more than 100 000 members (Panel Inzicht)(35). Participation was rewarded with panel member points that could be redeemed for cash (€4·00). We aimed to recruit a sample with an equal distribution of participants with a low (elementary, lower secondary or lower vocational), moderate (higher secondary or intermediate vocational) and high (higher vocational or university) educational level by applying quotas. The classification of educational level was based on the standard classification from Statistics Netherlands (CBS)(36). An a priori sample size estimation indicated that 327 participants (109 per intervention group) would be required to detect a difference of 0·8 l SSB purchases/household per week with 80 % power at a two-sided 5 % level of significance(Reference Waterlander, Ni Mhurchu and Steenhuis37,Reference Swinburn, Sacks and Lo38) . The recruitment was continued until the required number of 109 participants was achieved for all research conditions. This approach resulted in some of the research conditions in a number of participants that was higher than required. Due to lower than expected recruitment in the first 2 months, particularly among those with a low educational level, additional efforts were undertaken to promote the recruitment in August (e.g. by means of additional reminders and an instruction video).

The trial protocol was registered at the Netherlands Trial Register (registration number NL8616). In parallel with the recruitment for this study, we recruited participants for experimental conditions for another project which aims to evaluate the effects of a meat tax, an information nudge and a combination of both on consumer meat purchases (Netherlands Trial Register registration number NL8628). The data from participants in the control condition were used as a reference to measure the effects of all experimental conditions. As the participants in the control condition conducted a grocery shopping task without being exposed to an intervention and without being aware of the purpose of the study, the use of data from participants in the control condition as a reference for two different research questions could not have affected their purchasing behaviour in the virtual supermarket.

Procedures

The entire study was executed online. The eligibility screening, informed consent and randomisation procedure were conducted by the research panel, who had no involvement in the study design, analysis of the data or interpretation of the results. Random subsamples of panel members were sent an email invitation to participate in the study. Following eligibility screening and informed consent, participants received a download link and a log-in code to enter the virtual supermarket. Participants were randomised using a computer-generated list of log-in codes. The log-in codes corresponded with random allocation to one of the research conditions. Before entering the virtual supermarket, participants were asked about their household size and household composition (i.e. the number of people in the age categories 0–4 years, 4–9 years, 9–14 years and 14 years or older) to allocate a household-specific weekly grocery shopping budget according to data provided by the National Institute for Family Finance Information(39). For a two-adult-household, this budget was 89 euros, whereas for a household with two adults and two children in the age of 9–14 years, the budget was 117 euros. Participants were instructed to conduct a typical weekly grocery shop for their household in the virtual supermarket. Moreover, participants in the experimental conditions received the tax notification. To help participants to become familiar with the software, participants had to complete a tutorial prior to the experiment in which they had to find three pre-determined products in the virtual supermarket. Next, participants were able to conduct their weekly grocery shop for their household. When finished shopping, participants moved to the cash register and completed a closing questionnaire. Participants did not actually receive the purchases they made.

Measures

Primary outcome measures were SSB purchases in l/household per week and overall healthiness of the total weekly food shopping basket (proportion of total unit food items with a Nutri-Score label ‘A’, ‘B’ or ‘C’). The secondary outcome measure was the energy (kcal) content of the total weekly food shopping basket. Information on the number of total unit food items purchased, own-brand SSB purchases as a proportion of total SSB purchases and SSB purchases as a proportion of total non-alcoholic beverage purchases was also collected.

In the closing questionnaire, participants reported on demographic characteristics (see Table 2). Moreover, several questions on factors that may influence shopping behaviour were included. Participants were asked about their understanding of the virtual supermarket and the comparability of their purchases in the virtual supermarket with real-life purchases on a five-point Likert scale ranging from 1 ‘strongly disagree’ to 5 ‘strongly agree’. Acceptability of health-related food taxes was assessed using the items ‘I support imposing an SSB tax in the Netherlands (i.e. a tax on regular soft drinks, fruit juices with added sugar, sports drinks, energy drinks and flavoured water with added sugar)’ and ‘I support imposing a tax on unhealthy foods in the Netherlands (e.g. on products high in sugar, fat and/or salt, such as biscuits, sweets, snacks and soft drinks)’ indicated on a five-point Likert scale ranging from 1 ‘strongly disagree’ to 5 ‘strongly agree’. The acceptability variables were grouped into three categories: ‘Disagree’ (response options 1 and 2), ‘Neither’ (response option 3) and ‘Agree’ (response options 4 and 5). In an open-ended question, participants were asked whether they purchased different foods and/or beverages due to COVID-19. Answers were categorised into ‘Yes’ and ‘No’ by the research team. Price awareness was assessed using the items ‘To what extent did you notice prices in the virtual supermarket’ and ‘To what extent did prices influence your choices in the virtual supermarket’ indicated on a seven-point Likert scale ranging from 1 ‘not at all’ to 7 ‘extremely’. Finally, participants in the experimental conditions were asked whether they noticed the tax notification and to what extent this notification influenced their choices in the virtual supermarket on a seven-point Likert scale ranging from 1 ‘not at all’ to 7 ‘extremely’.

Table 2 Descriptive statistics of the study participants

* n 386.

The median gross monthly income in the Netherlands (2018) is €4450(56).

Measured by one item ‘The program was easy to understand’ indicated on a five-point Likert scale ranging from 1 ‘strongly disagree’ to 5 ‘strongly agree’.

§ Measured by one item ‘The products I have purchased in the virtual supermarket are comparable to my regular food purchases in real-life’ indicated on a five-point Likert scale ranging from 1 ‘strongly agree’ to 5 ‘strongly agree’.

Measured by two items ‘To what extent did you notice prices in the virtual supermarket?’ and ‘To what extent did prices influence your choices in the virtual supermarket?’ indicated on a seven-point Likert scale ranging from 1 ‘not at all’ to 7 ‘extremely’.

Measured by one item ‘To what extent did the notification influence your choices in the virtual supermarket?’ indicated on a seven-point Likert scale ranging from 1 ‘not at all’ to 7 ‘extremely’.

** Measured by one item ‘I support imposing an SSB tax in the Netherlands (e.g. on regular soft drinks, fruit juices with added sugar, sports drinks, energy drinks and flavoured water with added sugar)’ indicated on a five point-Likert scale ranging from 1 ‘strongly disagree’ to 5 ‘strongly agree’.

†† Measured by one item ‘I support imposing a tax on unhealthy foods in the Netherlands (e.g. on products high in sugar, fat and/or salt, such as biscuits, sweets, snacks and soft drinks)’ indicated on a five point-Likert scale ranging from 1 ‘strongly disagree’ to 5 ‘strongly agree’.

Statistical analyses

Descriptive statistics were used to characterise the sample. Outcome measures were assessed for an adequate normal distribution. Due to the highly skewed distribution of SSB purchases, this outcome was transformed into an ordinal variable. As a large proportion of the participants did not purchase any SSB in the virtual supermarket, ‘0 l’ was the first category of this ordinal variable. Eyeballing of the data revealed that SSB purchases followed an exponential distribution. Therefore, the ranges of the subsequent categories were doubled in size to fit the data and to optimise the distribution of participants across the different categories: ‘0·75–1·5 l’, ‘1·5–3 l’, ‘3–6 l’ and ‘6 l or more’. None of the participants purchased between 0 and 0·75 l of SSB. The ordinal variable was analysed using an ordinal regression analysis, which enabled us to investigate whether being in the experimental conditions increased the likelihood of having a lower level of SSB purchases as compared to the control condition. The overall healthiness and energy content of the total weekly food shopping basket followed a normal distribution and were analysed using linear regression analyses.

Effect modification by educational level was tested for the primary outcomes as the literature suggests that lower socioeconomic groups may be more responsive to food taxes and more likely reduce their purchases of taxed products as a result(6). Effect modification was tested by including educational level and interaction terms between the research conditions and educational level in the unadjusted regression models. If an interaction term was statistically significant, stratified analyses were planned for educational level. If no effect modification was present, it was planned to add educational level as a covariate to the analyses. Covariates were added to the unadjusted regression models. Two models were made; model 1 was adjusted for household size as it was proven to be a strong predictor of the outcomes, and model 2 was additionally adjusted for sex, educational level and BMI to correct for imbalances in randomisation. Participants with extreme outliers (more than 3 * IQR below Q1 or above Q3) in any of the outcomes were excluded from all analyses. Moreover, participants who purchased less than or equal to five different products in the virtual supermarket were excluded from the analyses as this was considered implausible for a weekly grocery shop. Statistical analyses were performed using the software IBM SPSS Statistics 26.0. All statistical tests were two-sided and values of P < 0·05 were considered statistically significant.

Results

Between June and August 2020, 150 514 panel members were invited to participate of whom 12 901 participants (8·6 %) completed the screening questionnaire (Fig. 1). A total of 5524 participants (42·8 % of those who completed the screening questionnaire) were eligible for inclusion of whom 2744 participants were randomly assigned to one of the research conditions of this study and 2780 participants to one of the research conditions of another project (Netherlands Trial Register registration number NL8628). Overall, 404 participants (14·7 % of those randomly assigned to this study) completed their shop in the virtual supermarket. The mean age of participants that completed their shop was lower than that of participants that did not complete their shop (see online Supplemental Table S2). Moreover, they more often had a high educational level. The final sample included 394 participants. The characteristics of these participants are presented in Table 2.

Fig. 1 Flowchart of enrolment and allocation of the study participants. *2780 participants were randomised for the purpose of another project (Netherlands Trial Register registration number NL8628)

Effect modification

None of the interactions terms was statistically significant (P > 0·05). The results were therefore not stratified by educational level.

SSB purchases

Descriptive statistics of the consumer food purchases in the virtual supermarket are presented in Table 3. In the fully adjusted models, the likelihood of being in a lower-level category of SSB purchases was 1·62 times higher (95 % CI 1·03, 2·54) in the SSB tax condition compared with the control condition (Table 4). In the nutrient profiling tax condition, the likelihood of being in a lower-level category of SSB purchases was 1·88 times higher (95 % CI 1·17, 3·02) compared with the control condition (Table 4).

Table 3 Descriptive statistics of the consumer food purchases in the virtual supermarket

* 218.

347.

Table 4 Effects of the experimental conditions on the likelihood of being in a lower-level category of SSB purchases using ordinal regression analyses

* P < 0·05.

Adjusted for household size.

Adjusted for household size, sex, educational level and BMI.

§ Compared with the control condition.

Overall healthiness and energy content of the total weekly food shopping basket

In the fully adjusted models, the proportion of total unit food items classified as healthy was on average 2·7 percent point (95 % CI 0·1, 5·3) higher for participants in the nutrient profiling tax condition than for those in the control condition (Table 5). The total amount of kcal purchased was on average 3301 kcal (95 % CI −6425, −177) lower for participants in the nutrient profiling tax condition than for those in the control condition (Table 5). The SSB tax did not affect the overall healthiness and energy content of the total weekly food shopping basket (Table 5).

Table 5 Effects of the experimental conditions on the overall healthiness and energy content of the total weekly food shopping basket using linear regression analyses

* P < 0·05

Adjusted for household size.

Adjusted for household size, sex, educational level and BMI.

§ Compared with the control condition.

Discussion

This study aimed to investigate the effects of an SSB tax and a nutrient profiling tax based on Nutri-Score on SSB purchases and healthy food purchases in a virtual supermarket. We demonstrated that the nutrient profiling tax is effective in decreasing SSB purchases as well as in increasing the overall healthiness and decreasing the energy content of the total weekly food shopping basket; in case of an SSB tax, effects were only observed on SSB purchases.

The observed reduction in SSB purchases as a result of the SSB tax is in line with previously conducted experimental, modelling and real-world evaluation studies(Reference Teng, Jones and Mizdrak11Reference Thow, Downs and Jan13). Although we statistically did not observe significant effects of the SSB tax on the overall healthiness and energy content of the total weekly food shopping basket, the outcomes were in the expected direction (i.e. a higher proportion of total unit food items classified as healthy and a lower amount of kcal purchased). This finding is consistent with the results of a randomised controlled trial in a New Zealand virtual supermarket setting reported by Waterlander et al. (Reference Waterlander, Jiang and Nghiem17). A likely explanation for the lack of significant effects of the SSB tax on the overall healthiness and energy content of the total weekly food shopping basket is that SSB purchases account for only a small part of total food purchases(Reference Waterlander, Jiang and Nghiem17), resulting in limited statistical power. Also, SSB might have been substituted with other less healthy and/or high-calorie products. Research on substitution and complementary effects of an SSB tax has been inconclusive. While substitution to other high-calorie beverages such as milk(Reference Caro, Ng and Taillie16,Reference Fletcher, Frisvold and Tefft40) and fruit juices(Reference Finkelstein, Zhen and Bilger41) was found in some studies, others reported no substitution to other beverages(Reference Caro, Ng and Bonilla42) or substitution to low-calorie beverages such as diet soft drinks(Reference Allcott, Lockwood and Taubinsky43), coffee and tea(Reference Waterlander, Ni Mhurchu and Steenhuis37,Reference Segovia, Orellana and Sarmiento44) . There is no evidence for substitution to sugary foods such as sweets, candies, cookies and desserts(Reference Caro, Ng and Taillie16,Reference Waterlander, Ni Mhurchu and Steenhuis37,Reference Finkelstein, Zhen and Bilger41,Reference Caro, Ng and Bonilla42) .

The nutrient profiling tax decreased SSB purchases while it also beneficially affected the overall healthiness and energy content of the total weekly food shopping basket. Compared with the control condition, the nutrient profiling tax decreased the energy content of the total weekly food shopping basket with 3301 kcal/household per week, which would translate into a difference of 205 kcal/person per d based on a mean household size of 2·3 persons. As the Dutch National Food Consumption Survey 2012–2016 showed that Dutch people consume on average 2192 kcal/d(45), this would implicate a substantial reduction in kcal purchased. Our findings are consistent with a modelling study utilising Chilean expenditure data by Caro et al. (Reference Caro, Ng and Taillie16). Caro et al. showed that a 30 % tax on all unhealthy foods and beverages (i.e. exceeding thresholds on added sugar, saturated fat and sodium and for which marketing is restricted based on a Chilean law) seems more effective in reducing purchases of calories than an SSB tax(Reference Caro, Ng and Taillie16). A systematic review by Thow et al. showed that seven of the eight studies on nutrient profiling taxes found reductions in target food consumption(Reference Thow, Downs and Jan13). Nutrient profiling taxes targeting several nutrients and/or foods with one tax simultaneously might yield the best results in improving diets as those taxes are not likely to have unintended substitution effects(Reference Thow, Downs and Jan13,Reference Waterlander, Jiang and Nghiem17) .

Although this study provides insight into the effects of an SSB tax and a nutrient profiling tax based on Nutri-Score on consumer food purchases, it is important to consider that the effects of the price changes in the virtual supermarket are not identical to the effects that one might expect from health-related food taxes in the real world. Health-related food taxes would likely have a ‘signalling effect’ in the real world, which means that the publicity surrounding the implementation of the taxes may raise public awareness about the negative health consequences of the consumption of the taxed products(Reference Alvarez-Sanchez, Contento and Jimenez-Aguilar26,Reference Villeneuve and Barigozzi46) . Although a majority of the participants in the experimental conditions reported being aware of the taxes in the virtual supermarket (78 % in the SSB tax and 76 % in the nutrient profiling tax condition), the rationale for implementing the taxes was not communicated. This may imply that the implementation of an SSB tax and a nutrient profiling tax in a real-world setting may have a larger impact on food purchases than in our virtual supermarket setting. Also, reformulation of products by the food and beverage industry can be expected from health-related food taxes in real-world settings, particularly from taxes with tiered tax designs(6,Reference Thow, Downs and Mayes15,Reference Bandy, Scarborough and Harrington28) . This study does not account for such changes in the supply side. Moreover, taxes may not change retail prices uniformly in the real world. Evidence indicates that the pass-through of an SSB tax, that is, the percentage of the tax that is passed on to consumers in the form of higher prices, varies by location(Reference Cawley, Thow and Wen47). This is for example illustrated by a review of the effects of SSB taxes on prices that showed that pass-through rates ranged from less than 50 % in Berkeley to 100 % in Philadelphia(Reference Cawley, Thow and Wen47). In the virtual supermarket, we assumed a pass-through rate of 100 %. For situations where taxes are not fully passed on to consumers or for situations where taxes are spread to untaxed products(Reference Marinello, Pipito and Leider48), our results might overestimate the real-world effects.

In addition to the potential effectiveness of health-related food taxes on consumer food purchases in the real world, the feasibility of their adoption and implementation in practice needs to be considered as well. Taxation of SSB is regarded as the most feasible health-related food tax to implement(6). Several European countries have successfully implemented an SSB tax, mostly levied as specific excise taxes based on the sugar content of the beverages(14). Taxes targeting a wider range of unhealthy foods and beverages are more complex than SSB taxes(Reference Thow, Downs and Mayes15). Currently, there is no legislative precedent for a tax defined by a nutrient profiling model alone(14,Reference Pomeranz, Wilde and Huang49) . There are examples of successful implementation of health-related food taxes using a combination of nutrition criteria and food categories, for example, in Hungary and Mexico(14,Reference Pomeranz, Wilde and Huang49) . In our study, the prices of unhealthy foods and beverages were increased by 20 % in the nutrient profiling tax(14). Such price changes could be achieved in the real world by changes to existing value-added taxes, which are calculated as a percentage of the retail price. However, the use of differential value-added taxes on foods can lead to distortions and adds administrative complexity, and is therefore discouraged in global recommendations for tax reform(Reference Thow, Heywood and Leeder50). The use of specific excise taxes (i.e. taxes levied based on quantity) seems to be more appropriate and feasible(Reference Thow, Heywood and Leeder50). Another factor affecting the feasibility of the adoption and implementation of health-related food taxes is the extent to which they are likely to be acceptable to the public(Reference Eykelenboom, van Stralen and Olthof51). An SSB tax and a tax on unhealthy foods were supported by 45 % and 43 % of the participants in our study, respectively. It is, however, important to note that our sample may not be representative of all adults in the Netherlands and that these percentages may therefore not be generalisable to the Dutch adult population. In an online survey among adults representative of the Dutch population for age, sex, educational level and location, 40 % of the participants supported an SSB tax(Reference Eykelenboom, van Stralen and Olthof52). Public acceptability of an SSB tax in the Netherlands tends to be higher (55 %) if revenue is used for health initiatives(Reference Eykelenboom, van Stralen and Olthof52).

The main strength of this study is that it investigated the effects of taxation of SSB alone and taxation of a wider range of unhealthy foods and beverages by the use of the Nutri-Score in the same controlled setting. A previous validation study showed that food purchasing behaviour in the virtual supermarket is comparable to real-life food purchasing behaviour(Reference Waterlander, Jiang and Steenhuis30), and a majority of the participants in our study (80 %) indicated that their purchases in the virtual supermarket were comparable to their purchases in real life. In addition, our sample was relatively large compared with other virtual supermarket studies. Also, much effort was made to include participants with a low or moderate educational level to improve the external validity of our findings for the Dutch population. In our sample, 17 % of the participants had a low educational level and 37 % a moderate educational level, which is more or less comparable with the distribution of educational level within the Dutch adult population (23 % and 40 %, respectively)(53).

This study also has several limitations. Although the virtual supermarket has previously been validated against real shopping data(Reference Waterlander, Jiang and Steenhuis30), an important limitation of this study is that the virtual supermarket is not identical to a real supermarket. Participants did not spend their own money nor did receive the purchases they made, which may have caused them to put less emphasis on prices than in a real supermarket setting involving real money. This may have resulted in an underestimation of the real-world effects. Also, it is important to consider that the product range of the virtual supermarket is less extensive than a real supermarket. The virtual supermarket may therefore not fully take into account complex phenomena such as substitution and complementary effects within food categories(Reference Waterlander, Scarpa and Lentz29). Another limitation of this study is that the external validity for the Dutch population may be lower than expected. A large number of participants dropped out after randomisation, although major efforts have been made to minimise drop out. For example, the virtual supermarket was extensively tested, study materials were developed in Dutch language proficiency level B1 and several reminders were sent. We do not have insights into the reasons for drop out, but an explanation for the higher drop-out rates among older participants and participants with a lower educational level might be that those participants are less computer literate(Reference van Deursen and van Dijk54). Furthermore, there was an imbalance between the research conditions in the number of participants and covariates. We adjusted our models for sex, educational level and BMI to correct for differences in these covariates between the research conditions. Finally, it is important to note that our study was conducted in times of the COVID-19 pandemic, which could have implications for the stability of our findings over time. Nevertheless, we found that a majority of the participants (82 %) reported to not have changed their food purchases due to COVID-19, suggesting that conditions surrounding the COVID-19 pandemic did not have a major effect on our findings. Poelman et al. also demonstrated that most Dutch adults did not change their eating behaviours (83 %) or food purchases (73 %) during the lockdown(Reference Poelman, Gillebaart and Schlinkert55). During the lockdown in the Netherlands, pubs and restaurants were closed while supermarkets and local food shops such as butchers and bakeries remained open. Pubs and restaurants, however, reopened their doors again before the start of our study.

It is unknown whether our findings are generalisable to other countries. Although the effects of health-related food taxes are demonstrated across countries(Reference Teng, Jones and Mizdrak11), responses to taxes may differ because of different economic and sociocultural contexts. Therefore, repetition of our study in other countries will be of value.

Conclusions

This study aimed to investigate the effects of an SSB tax and a nutrient profiling tax based on Nutri-Score on SSB purchases and healthy food purchases in a virtual supermarket. We found that the nutrient profiling tax is effective in decreasing SSB purchases as well as in increasing the overall healthiness and decreasing the energy content of the total weekly food shopping basket; in case of an SSB tax, effects were only observed on SSB purchases. These findings implicate that a nutrient profiling tax targeting a wide range of foods and beverages with a low nutritional quality seems to have larger beneficial effects on consumer food purchases than taxation of SSB alone.

Acknowledgements

Acknowledgements: The authors would like to thank Sophine Kooiman for her assistance in updating the food prices and nutritional composition of the products in the virtual supermarket and prof. Mario Mazzocchi for providing feedback on the design of the study. The PEN project (www.jpi-pen.eu) is funded by the Joint Programming Initiative ‘A Healthy Diet for a Healthy Life’ (JPI HDHL), a research and innovation initiative of European Union member states and associated countries. The funding agencies supporting this work are (in alphabetical order of participating countries): France: Institut National de la Recherche Agronomique (INRA); Germany: Federal Ministry of Education and Research (BMBF); Ireland: Health Research Board (HRB); Italy: Ministry of Education, University and Research (MIUR); The Netherlands: The Netherlands Organisation for Health Research and Development (ZonMw); New Zealand: The University of Auckland, School of Population Health; Norway: The Research Council of Norway (RCN); Poland: The National Centre for Research and Development (NCBR). Financial support: This project is funded by The Netherlands Organisation for Health Research and Development (ZonMw), project number 529051020. Conflict of interest: There are no conflicts of interest. Authorship: M.E.: Conceptualisation, data curation, formal analysis, investigation, methodology, project administration, visualisation, writing-original draft, writing review and editing. M.R.O.: Conceptualisation, supervision, writing review and editing. M.M.V.S.: Conceptualisation, supervision, writing review and editing. S.K.D.: Conceptualisation, writing review and editing. M.P.P.: Conceptualisation, writing review and editing. C.B.M.K.: Conceptualisation, writing review and editing. R.E.V.: Writing review and editing. W.E.W.: Conceptualisation, writing review and editing. C.M.R.: Conceptualisation, supervision, writing review and editing. I.H.M.S.: Conceptualisation, supervision, writing review and editing. All authors approved the final version of the manuscript for submission. Ethics of human subject participation: The study was conducted according to the guidelines laid down in the Declaration of Helsinki. The trial protocol was evaluated by the Research Ethics Review Committee of the Faculty of Sciences, Vrije Universiteit Amsterdam, and it was concluded that the study complied with its ethical guidelines and did not fall under the Dutch Medical Research Involving Human Subjects Act (reference 20205). Further approval of the study by a Medical Ethics Committee was therefore not required. All participants provided informed consent.

Supplementary material

For supplementary material accompanying this paper visit https://doi.org/10.1017/S1368980021004547

References

World Health Organization (2020) Obesity and Overweight. https://www.who.int/news-room/fact-sheets/detail/obesity-and-overweight (accessed November 2020).Google Scholar
Eurostat (2020) Obesity Rate by Body Mass Index (BMI). https://ec.europa.eu/eurostat/databrowser/view/sdg_02_10/default/table?lang=en (accessed February 2021).Google Scholar
World Health Organization (2020) Healthy Diet. https://www.who.int/news-room/fact-sheets/detail/healthy-diet (accessed November 2020).Google Scholar
Swinburn, B, Egger, G & Raza, F (1999) Dissecting obesogenic environments: the development and application of a framework for identifying and prioritizing environmental interventions for obesity. Prev Med 29, 563570.CrossRefGoogle ScholarPubMed
Steenhuis, IH, Waterlander, WE & de Mul, A (2011) Consumer food choices: the role of price and pricing strategies. Public Health Nutr 14, 22202226.CrossRefGoogle ScholarPubMed
World Health Organization (2016) Fiscal Policies for Diet and the Prevention of Non-Communicable Diseases. Geneva: WHO.Google Scholar
World Health Organization (2016) Report of the Commission on Ending Childhood Obesity. Geneva: WHO.Google Scholar
Malik, VS, Pan, A, Willett, WC et al. (2013) Sugar-sweetened beverages and weight gain in children and adults: a systematic review and meta-analysis. Am J Clin Nutr 98, 10841102.CrossRefGoogle ScholarPubMed
Hu, FB (2013) Resolved: there is sufficient scientific evidence that decreasing sugar-sweetened beverage consumption will reduce the prevalence of obesity and obesity-related diseases. Obes Rev 14, 606619.CrossRefGoogle ScholarPubMed
Woodward-Lopez, G, Kao, J & Ritchie, L (2011) To what extent have sweetened beverages contributed to the obesity epidemic? Public Health Nutr 14, 499509.CrossRefGoogle Scholar
Teng, AM, Jones, AC, Mizdrak, A et al. (2019) Impact of sugar-sweetened beverage taxes on purchases and dietary intake: systematic review and meta-analysis. Obes Rev 20, 11871204.CrossRefGoogle ScholarPubMed
Powell, LM, Chriqui, JF, Khan, T et al. (2013) Assessing the potential effectiveness of food and beverage taxes and subsidies for improving public health: a systematic review of prices, demand and body weight outcomes. Obes Rev 14, 110128.CrossRefGoogle ScholarPubMed
Thow, AM, Downs, S & Jan, S (2014) A systematic review of the effectiveness of food taxes and subsidies to improve diets: understanding the recent evidence. Nutr Rev 72, 551565.CrossRefGoogle ScholarPubMed
World Cancer Research Fund International (2020) NOURISHING and MOVING Policy Databases. https://www.wcrf.org/int/policy/nourishing-database (accessed November 2020).Google Scholar
Thow, AM, Downs, SM, Mayes, C et al. (2018) Fiscal policy to improve diets and prevent non-communicable diseases: from recommendations to action. Bull World Health Organ 96, 201210.CrossRefGoogle ScholarPubMed
Caro, JC, Ng, SW, Taillie, LS et al. (2017) Designing a tax to discourage unhealthy food and beverage purchases: the case of Chile. Food Policy 71, 86100.CrossRefGoogle Scholar
Waterlander, WE, Jiang, Y, Nghiem, N et al. (2019) The effect of food price changes on consumer purchases: a randomised experiment. Lancet Public Health 4, e394e405.CrossRefGoogle ScholarPubMed
World Health Organization (2020) Nutrient Profiling. https://www.who.int/nutrition/topics/profiling/en/ (accessed March 2021).Google Scholar
Rayner, M, Scarborough, P, Boxer, A et al. (2005) Nutrient Profiles: Development of Final Model Final Report. Oxford: University of Oxford.Google Scholar
Poelman, M, Kroeze, W, Waterlander, W et al. (2017) Food taxes and calories purchased in the virtual supermarket: a preliminary study. Br Food J 119, 25592570.CrossRefGoogle Scholar
Dréano-Trécant, L, Egnell, M, Hercberg, S et al. (2020) Performance of the front-of-pack nutrition label Nutri-Score to discriminate the nutritional quality of foods products: a comparative study across 8 European countries. Nutrients 12, 1303.CrossRefGoogle ScholarPubMed
Santé Publique France (2020) Nutri-Score. http://www.santepubliquefrance.fr/Sante-publique-France/Nutri-Score (accessed February 2020).Google Scholar
Lakerveld, J, Woods, C, Hebestreit, A et al. (2020) Advancing the evidence base for public policies impacting on dietary behaviour, physical activity and sedentary behaviour in Europe: the policy evaluation network promoting a multidisciplinary approach. Food Policy 96, 101873.CrossRefGoogle Scholar
Belastingdienst (2020) VAT Tariffs. https://www.belastingdienst.nl/wps/wcm/connect/bldcontenten/belastingdienst/business/vat/vat_in_the_netherlands/calculating_vat/vat_tariffs (accessed November 2020).Google Scholar
Belastingdienst (2020) Particulars for Goods Liable to Consumer Tax. https://www.belastingdienst.nl/wps/wcm/connect/bldcontenten/belastingdienst/customs/excise_duty_and_consumer_tax/excise_duty_and_consumer_tax/particulars_for_goods_liable_consumer_tax/ (accessed November 2020).Google Scholar
Alvarez-Sanchez, C, Contento, I, Jimenez-Aguilar, A et al. (2018) Does the Mexican sugar-sweetened beverage tax have a signaling effect? ENSANUT 2016. PLoS One 13, e0199337.CrossRefGoogle Scholar
Chetty, R, Looney, A & Kroft, K (2009) Salience and taxation: theory and evidence. Am Econ Rev 99, 11451177.CrossRefGoogle Scholar
Bandy, LK, Scarborough, P, Harrington, RA et al. (2020) Reductions in sugar sales from soft drinks in the UK from 2015 to 2018. BMC Med 18, 20.CrossRefGoogle ScholarPubMed
Waterlander, WE, Scarpa, M, Lentz, D et al. (2011) The virtual supermarket: an innovative research tool to study consumer food purchasing behaviour. BMC Public Health 11, 589.CrossRefGoogle ScholarPubMed
Waterlander, WE, Jiang, Y, Steenhuis, IH et al. (2015) Using a 3D virtual supermarket to measure food purchase behavior: a validation study. J Med Internet Res 17, e107.CrossRefGoogle ScholarPubMed
van Rossum, CTM, Buurma-Rethans, EJM, Dinnissen, CS et al. (2020) The Diet of the Dutch: Results of the Dutch National Food Consumption Survey 2012–2016. Bilthoven: National Institute for Public Health and the Environment.Google Scholar
Chriqui, JF, Chaloupka, FJ, Powell, LM et al. (2013) A typology of beverage taxation: multiple approaches for obesity prevention and obesity prevention-related revenue generation. J Public Health Policy 34, 403423.CrossRefGoogle ScholarPubMed
Rijksinstituut voor Volksgezondheid en Milieu (2020) Nederlands Voedingsstoffenbestand (NEVO). https://nevo-online.rivm.nl/ (accessed February 2020).Google Scholar
BureauTaal (2020) BureauTaal. https://www.bureautaal.nl/ (accessed March 2020).Google Scholar
Panel Inzicht (2020) Panel Inzicht. https://panelinzicht.nl/ (accessed February 2020).Google Scholar
Centraal Bureau voor de Statistiek (2020) Opleidingsniveau. https://www.cbs.nl/nl-nl/nieuws/2019/33/verschil-levensverwachting-hoog-en-laagopgeleid-groeit/opleidingsniveau (accessed February 2020).Google Scholar
Waterlander, WE, Ni Mhurchu, C & Steenhuis, IHM (2014) Effects of a price increase on purchases of sugar sweetened beverages. Results from a randomized controlled trial. Appetite 78, 3239.CrossRefGoogle Scholar
Swinburn, BA, Sacks, G, Lo, SK et al. (2009) Estimating the changes in energy flux that characterize the rise in obesity prevalence. Am J Clin Nutr 89, 17231728.CrossRefGoogle ScholarPubMed
Nationaal Instituut voor Budgetvoorlichting (2020) Wat Geef Ik Uit Aan Voeding? https://www.nibud.nl/consumenten/wat-geeft-u-uit-aan-voeding/ (accessed January 2020).Google Scholar
Fletcher, JM, Frisvold, DE & Tefft, N (2010) The effects of soft drink taxes on child and adolescent consumption and weight outcomes. J Public Econ 94, 967974.CrossRefGoogle Scholar
Finkelstein, EA, Zhen, C, Bilger, M et al. (2013) Implications of a sugar-sweetened beverage (SSB) tax when substitutions to non-beverage items are considered. J Health Econ 32, 219239.CrossRefGoogle ScholarPubMed
Caro, JC, Ng, SW, Bonilla, R et al. (2017) Sugary drinks taxation, projected consumption and fiscal revenues in Colombia: evidence from a QUAIDS model. PLoS One 12, e0189026.CrossRefGoogle ScholarPubMed
Allcott, H, Lockwood, BB & Taubinsky, D (2019) Regressive sin taxes, with an application to the optimal soda tax. Q J Econ 134, 15571626.CrossRefGoogle Scholar
Segovia, J, Orellana, M, Sarmiento, JP et al. (2020) The effects of taxing sugar-sweetened beverages in Ecuador: an analysis across different income and consumption groups. PLoS One 15, e0240546.CrossRefGoogle ScholarPubMed
Rijksinstituut voor Volksgezondheid en Milieu (2020) Inname Energie. https://www.wateetnederland.nl/resultaten/energie-en-macronutrienten/inname/energie (accessed February 2021).Google Scholar
Villeneuve, B & Barigozzi, F (2006) The signaling effect of tax policy. J Public Econ Theory 8, 611630.Google Scholar
Cawley, J, Thow, AM, Wen, K et al. (2019) The economics of taxes on sugar-sweetened beverages: a review of the effects on prices, sales, cross-border shopping, and consumption. Annu Rev Nutr 39, 317338.CrossRefGoogle ScholarPubMed
Marinello, S, Pipito, AA, Leider, J et al. (2021) Longer-term impacts of sugar-sweetened beverage taxes on fast-food beverage prices: evidence from Oakland, California, 2-year post-tax. Public Health Nutr 24, 35713575.CrossRefGoogle ScholarPubMed
Pomeranz, JL, Wilde, P, Huang, Y et al. (2018) Legal and administrative feasibility of a federal junk food and sugar-sweetened beverage tax to improve diet. Am J Public Health 108, 203209.CrossRefGoogle ScholarPubMed
Thow, AM, Heywood, P, Leeder, S et al. (2011) The global context for public health nutrition taxation. Public Health Nutr 14, 176186.CrossRefGoogle ScholarPubMed
Eykelenboom, M, van Stralen, MM, Olthof, MR et al. (2019) Political and public acceptability of a sugar-sweetened beverages tax: a mixed-method systematic review and meta-analysis. Int J Behav Nutr Phys Act 16, 78.CrossRefGoogle ScholarPubMed
Eykelenboom, M, van Stralen, MM, Olthof, MR et al. (2021) Public acceptability of a sugar-sweetened beverage tax and its associated factors in the Netherlands. Public Health Nutr 24, 23542364.CrossRefGoogle ScholarPubMed
Centraal Bureau voor de Statistiek (2021) Centraal Bureau voor de Statistiek. https://www.cbs.nl/ (accessed March 2021).Google Scholar
van Deursen, AJAM & van Dijk, JAGM (2009) Improving digital skills for the use of online public information and services. Gov Inf Q 26, 333340.CrossRefGoogle Scholar
Poelman, MP, Gillebaart, M, Schlinkert, C et al. (2021) Eating behavior and food purchases during the COVID-19 lockdown: a cross-sectional study among adults in the Netherlands. Appetite 157, 105002.CrossRefGoogle ScholarPubMed
Centraal Bureau voor de Statistiek (2020) Inkomen van Huishoudens; Inkomensklassen, Huishoudenskenmerken. https://opendata.cbs.nl/statline/#/CBS/nl/dataset/83932NED/table?ts=1597752840176 (accessed March 2021).Google Scholar
Figure 0

Table 1 Overview of food categories and the number of taxed products in the experimental conditions in the virtual supermarket

Figure 1

Table 2 Descriptive statistics of the study participants

Figure 2

Fig. 1 Flowchart of enrolment and allocation of the study participants. *2780 participants were randomised for the purpose of another project (Netherlands Trial Register registration number NL8628)

Figure 3

Table 3 Descriptive statistics of the consumer food purchases in the virtual supermarket

Figure 4

Table 4 Effects of the experimental conditions on the likelihood of being in a lower-level category of SSB purchases using ordinal regression analyses

Figure 5

Table 5 Effects of the experimental conditions on the overall healthiness and energy content of the total weekly food shopping basket using linear regression analyses

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