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Review

Soft Drink Intake in Europe—A Review of Data from Nationally Representative Food Consumption Surveys

by
Janette Walton
1,* and
Anna Wittekind
2
1
Department of Biological Sciences, Munster Technological University, T12 P928 Cork, Ireland
2
Independent Nutrition Consultant, Great Missenden HP16 0BS, UK
*
Author to whom correspondence should be addressed.
Nutrients 2023, 15(6), 1368; https://doi.org/10.3390/nu15061368
Submission received: 14 February 2023 / Revised: 6 March 2023 / Accepted: 7 March 2023 / Published: 11 March 2023
(This article belongs to the Section Nutrition Methodology & Assessment)
Versions Notes

Abstract

:
Public health interest in reducing the intake of sugar-sweetened soft drinks has resulted in various guidelines and initiatives related to their consumption, together with an increase in availability and sales of low and no-sugars versions. The aim of this review was to gain insight regarding individual-level amounts and types of soft drinks consumed across the lifecycle as reported in nationally representative surveys in Europe. The review highlighted significant gaps and challenges regarding the availability of recent country-specific soft drink consumption data including heterogeneity in categorisations used in reporting soft drinks. Nonetheless, crude estimates of mean intake (across countries) indicated that total soft drinks and soft drinks with sugars was highest in adolescents and lowest in infants/toddlers and older adults. For infants/toddlers, crude mean intakes of soft drinks with reduced/no sugars were higher than soft drinks with sugars. The review also found that consumption of total soft drinks is decreasing with a shift to consumption of soft drinks with reduced/no sugars in replacement of sugars-containing soft drinks. This review provides valuable insight into what data are currently available on soft drink consumption in Europe with heterogeneity in categorisations, terminology, and definitions of soft drinks observed.

1. Introduction

‘Soft drinks’ are an umbrella term for a class of water-based non-alcoholic beverages with no regulatory or standard definition, however the term ‘soft’ serves to distinguish them from ‘hard’ (alcoholic) drinks; and tea, coffee, milk, cocoa, and undiluted vegetable and fruit juices are generally not considered to be soft drinks [1].
There is significant public health interest in the consumption of soft drinks mainly due to their contribution to the intake of overall added/free sugars and associations between the intake of sugar-sweetened beverages (SSBs) and the risk of obesity and non-communicable diseases [2,3], with SSBs broadly considered to be soft drinks with added sugars [4]. Added sugars are defined as all mono- and disaccharides added to foods by the manufacturer, cook, or consumer and free sugars additionally include sugars naturally present in honey, syrups, and fruit juices. Guidelines from the World Health Organisation (WHO) recommend an intake of <10% of energy intake for free sugars for both children and adults and the European Food Safety Authority (EFSA) recommends that the intake of added and free sugars should be as low as possible in the context of a nutritionally adequate diet [2,3].
Furthermore, food-based dietary guidelines (FBDG) across the world generally recommend water and milk as preferred drinks and many recommend limiting the consumption of foods and beverages high in sugar, including SSBs [5,6,7]. For the most part however, FBDG refer to SSBs without any reference to energy/sugars content and mostly without any guidance in relation to the consumption of alternative soft drinks (e.g., those with no or lower levels of sugars) [5,6,7]. Public health organisations and governments have recommended various policy interventions to reduce added/free sugars intake, including interventions to reduce the intake of SSBs and/or their sugars’ content [8,9]. These recommendations have included levies on soft drinks with some countries imposing levies on all soft drinks or only SSBs, with others imposing levies dependent on the sugars content of the beverage [10,11].
Although diet (no sugars) soft drinks have been available from as early as the 1950s, government, and industry initiatives to reduce added/free sugars intake have increased the availability of new or reformulated soft drink products with low or no sugars. For example, the proportion of sales of low/no calorie soft drinks in the European Union (EU) has increased from 2016 to 2021 from 23 to 30%, with a decrease in the proportion of sales of regular soft drinks (not reduced in sugars) (from 77–70%) [12]. Whilst sales data are acknowledged as useful to understand overall market demands, changes to nutrition composition, and year-on-year trends for informing policy [13], understanding and monitoring of individual-level consumption data on food categories (including soft drinks) is necessary to provide information at a demographic level which is imperative for targeted policy-making [14]. Few studies have collated data on the intake of soft drinks across countries either globally/or in Europe and those that have conducted such reviews have still relied mainly on food availability data or food frequency questionnaires (FFQs) and have estimated the intake of SSBs only with no information on their sugars content [15,16]. These studies suggest significant variance in intake of SSBs between countries, regions and age groups and estimate a mean intake of 326 mL/d for children and adolescents in WHO regions with high-dietary related burden of disease [16] and a mean intake of 0.58 8 oz servings/d (137 mL/d) for adults globally with 0.27–0.39 servings (64–92 mL/d) for adults across European regions [15].
The complexity of categorising and quantifying soft drink consumption for dietary assessment and epidemiological studies [4,17] and for informing health policy [18] has been highlighted previously and is now even more important as SSBs can contain a wide range of sugar levels. There is also public health interest in some other specific sub-categories of soft drinks such as ‘energy’ drinks, which are also increasing in market share. These drinks are generally marketed for boosting mental alertness and physical performance and typically contain caffeine and other functional ingredients and are available both with sugars and as reduced/no sugars alternatives [19,20]. In an attempt to harmonise individual-level food consumption data across the EU for exposure assessment, a food classification system (FoodEx2) has been developed. However, not all countries may have classified their most recent data and the current categories for soft drinks may not accurately reflect those captured in the original survey and may not be sufficient to capture the level of sugar content without linking to an updated food composition or brand database [21]. It would therefore be informative to understand what data on soft drink consumption has been captured across national dietary surveys in global regions such as in Europe.
Hence, the aim of the current review is to collate country-specific individual-level data on soft drink consumption in Europe from national dietary surveys to investigate to what extent it can provide insight into recent amounts and types of soft drink consumption and changes in the amounts or types of soft drink consumed over time.

2. Materials and Methods

2.1. Identification and Extraction of Data on Soft Drink Intake

Data were identified and extracted between March and July 2022. Recent reviews of dietary surveys [22,23,24] were used to identify a list of countries in the WHO European region that have undertaken dietary surveys and the dates that these surveys were conducted.
Inclusion criteria for the current review were that the data were (i) nationally representative of the country (ii) summarised (no raw data were analysed) and (iii) collected at the individual level. As food and beverage intake data derived from national dietary surveys are typically published in reports, rather than peer-reviewed papers, the data presented in this review were primarily collected from various reports and publications from the individual countries. Accordingly, a formal systematic review was not performed. For some countries (Germany and Denmark), where data on soft drinks had been shown in a figure or discussed in a report but without actual numbers, researchers were contacted directly and very kindly provided the data. Peer review publications were used to obtain additional data where available [25]. For some studies, data were translated into English from the native language in which the report was written. The EFSA Comprehensive European Food Consumption Database, which uses the 7-level FoodEx2 Exposure Hierarchy, was used to source chronic intake data for some countries but only if the original survey report was not found by the authors [26]. In cases where the EFSA database was used, drinks typically considered as ‘soft drinks’ were identified as separate sub-categories within ‘water and water-based beverages’ which is at Level 1 in the FoodEx2 Exposure Hierarchy. ‘Soft drinks’ data were extracted at exposure Level 3, with the various sub-categories of ‘Diet’ from Level 6 (‘Diet soft drink with caffeine/fruit juice/flavours’) and data on ‘Drink mixes’ and ‘Functional drinks’ was extracted from Level 3, with the sub-category of ‘Energy drinks’ (considered a ‘Functional drink’) from Level 4′. Drink mixes were all treated as liquid as intakes of powders are minimal and the dilution factor of 7 was used to reconstitute [27]. There was no ‘diet’ element in the hierarchy for functional drinks, drink mixes or energy drinks.
There was no limit to the study size included and data from all direct dietary assessment methodologies were included (food diaries, diet recalls or food-frequency questionnaires). For countries and population groups where there was a previous survey also available, data were extracted to see if it was possible to examine changes in consumption over time.

2.2. Recategorisation of Data

To assess the available evidence on soft drink consumption in Europe, published intake data were initially collated using the classification/categorisation in the original reports, prior to a secondary analysis of the intake data using new summary-level categorisations. Data for soft drinks did not account for any potential under-reporting within the self-reported data. Data were compiled according to approximate age groups to align as near as possible with those in the EFSA food consumption database [26] and data are reported on mean intakes per day (in grams rounded to the nearest whole number assuming 1 mL ≡ 1 g) for the total population, with when available, % consumers and mean intakes for consumers only for each category reported in the original source. No formal statistical analysis was performed on the original data sets, and the results are purely descriptive. For each country and age-group, the data used were (to the best of the authors’ knowledge) the most recent that had been published prior to August 2022.
New summary categories were derived based on a nutritional perspective of the categories in the original reports with all soft drink consumption data from the original reports being assigned either directly to one of the new categories or derived (summed/split), depending on how the data were categorised in the original reports. Data were only assigned to a sub-category when the wording was obvious/explicit. Where data were presented by sub-categories of age-group/sex only (and not for total population), the data were weighted to give one value per country for each category and crude estimates of intakes per category are reported as a range, mean and median for descriptive purposes only. It is important to note that there are significant limitations in comparing food intakes across countries due to different country specific classification/categories for soft drinks and due to different time points for data collection.
Where data were available from previous surveys and allowed comparison (i.e., age group and soft drink categorisation matched), the magnitude and direction of change were recorded. Changes in intake exceeding 10% of the earliest intake data were noted as a change.

3. Results

3.1. Categories of Soft Drinks

The categories of soft drinks reported across countries and even across different surveys within the same country were heterogenous with reported categories including total soft drinks (with different definitions) and some further categorised in various ways including: by energy content, presence of sugars/sweeteners, by carbonation, by functionality and by a mix of these categories. Where countries separated carbonated drinks (soda, fizzy drinks) from cordials/syrups/squash or fruit juice mixes, it was not always clear whether the water for dilution was included in the reporting.
The new categories that we derived from the data focussed on nutritional health (rather than food safety/planetary health) and included ‘total soft drinks’, ‘soft drinks with sugars’ and ‘soft drinks with reduced/no sugars’ (Table 1). Drinks containing less or no sugars were either indicated by naming, which appeared to align at least by name to the EU nutrition claims regulation [28] or by the presence of ‘artificial sweeteners’ or ‘with sweetener’. The wording of the nutrition claim did not always align with the regulations (e.g., ‘diet’), and the sugars or energy level of drinks containing sweeteners was not apparent. Energy drinks were also extracted as a category in this review due to the public health interest surrounding their consumption [19,20].
For ‘total soft drinks’ categorised by the authors, terminology in the original reports included ‘soft drinks’ using a variety of definitions of included drinks, with almost all including carbonated and non-carbonated beverages (with sugars/alternative sweeteners). Some countries however also included other beverages such as sweetened cappuccino, iced teas, ciders and low-alcohol drinks, almond milks, nectars, energy drinks and waters. Other terminology for total soft drinks included ‘Soft drinks, cordials etc., ‘Soda and soft drinks’, ‘Soft drinks (with %fruit less than in nectars)’, ‘Carbonated/soft/isotonic drinks, diluted syrups’, ‘Juice drinks/soda’, ‘Syrups and soft drinks’, ‘Soft and energy drinks’ and ‘Soft drinks, sports and energy drinks’.
For soft drinks categorised by the authors as ‘soft drinks with sugars’, terminology used by individual countries included ‘sugary’, ‘sugar-sweetened’, ‘with added sugar’, ‘with sugar’, ‘not low calorie’, ‘sweet- with added sugar’, ‘non-diet’ and ‘sweetened’ (differentiated as containing sugars by another category in the same survey named ‘artificially sweetened’). For soft drinks categorised by the authors as ‘soft drinks with reduced/no sugars’, terminology used in individual countries included ‘diet’, ‘light’, ‘low calorie’, ‘with sweetener’, ‘energy reduced’, ‘reduced calorie’, ‘without sugar’, ‘artificial sweet’, ‘artificially sweetened’, ‘with artificial sweeteners’, ‘no added sugar’ and ‘sugar free’. Only one country in this review (Iceland) attempted to provide intermediate categories for soft drinks with reduced sugars content (other than diet/no sugars) and they reported by carbohydrate (CHO) content (g) as well as category type (‘carbonated soft drinks with added sugar containing >10 g CHO’, ‘sugary sports drinks that contain 4–6 g CHO’ ‘water drinks that contain 2–6 g CHO’ and ‘sugar free soft drinks’).

3.2. Soft Drink Consumption

Data on soft drinks consumption were available (in at least one age group) for 28 countries of the 53 countries in the WHO European region with dietary survey collection dates spanning from 2001 to 2020 across age-groups and countries. Data from the EFSA food consumption database was used for Austria (apart from adults), Croatia, Cyprus, Czech Republic, Estonia, France, Greece, Hungary, Latvia, Romania and Slovenia and Germany (for infants and toddlers only). Countries for which data were available were all from the EU and the European continent i.e., not from countries additionally covered by WHO European region.

3.2.1. Infants/Toddlers (~6 mo–3 y)

For infants /toddlers, soft drink consumption data were available for 15 countries with data on total soft drinks, soft drinks with sugars and soft drinks with reduced/no sugars available for 15, 3 and 4 countries, respectively (Table 2). There were no data available on the intakes of energy drinks in this age-group. The mean daily intake (across countries) of total soft drinks in infants/toddlers ranged from 1 g/d to 389 g/d (mean 60 g/d; median 18 g/d), soft drinks with sugars ranged from 9 g/d to 50 g/d (mean 28 g/d; median 24 g/d) and soft drinks with reduced/no sugars from 2 g/d to 96 g/d (mean 40 g/d; median 31 g/d).

3.2.2. Children (~4–9 y)

For children, soft drink consumption data were available for 20 countries with data on total soft drinks, soft drinks with sugars and soft drinks with reduced/no sugars available for 18, 9 and 7 countries, respectively (Table 3). The mean daily intake (across countries) of total soft drinks ranged from 18 g/d to 515 g/d (mean:131 g/d; median: 100 g/d), soft drinks with sugars ranged from 34 g/d to 196 g/d (mean: 105 g/d; median: 117 g/d) and soft drinks with reduced/no sugars ranged from 1 g/d to 110 g/d (mean: 44 g/d; median 41 g/d). The mean daily intake of energy drinks was only available for one country (Austria) with a mean daily intake of 1 g/d which was consumed by 1% of the observed population.

3.2.3. Adolescents (~10–17 y)

Soft drink consumption data were available for adolescents in 24 countries with data on total soft drinks, soft drinks with sugars and soft drinks with reduced/no sugars available for 22, 12 and 10 countries, respectively (Table 4). Data on energy drinks were available for nine countries (Table 4). The mean daily intake (across countries) of total soft drinks ranged from 38 g/d to 655 g/d (mean 194 g/d; median 141 g/d), soft drinks with sugars ranged from 57 g/d to 354 g/d (mean 152 g/d; median 142 g/d), soft drinks with reduced/no sugars ranged from 1 g/d to 105 g/d (mean 41 g/d; median 33 g/d) and energy drinks ranged from 0 g/d to 11 g/d (mean 4 g/d; median 2 g/d).

3.2.4. Adults (~18–64 y)

Soft drink consumption data were available for adults in 28 countries with data on total soft drinks, soft drinks with sugars and soft drinks with reduced/no sugars available for 26,14 and 12 countries, respectively (Table 5). Data on energy drinks were available for eight countries (Table 5). The mean daily intake (across countries) of total soft drinks across countries ranged from 20 g/d to 291 g/d (mean 125 g/d; median 106 g/d), soft drinks with sugars ranged from 42 g/d to 149 g/d (mean 95 g/d; median 91 g/d), soft drinks with reduced/no sugars ranged from 0 g/d to 112 g/d (mean 36 g/d; median 26 g/d) and energy drinks ranged from 0 g/d to 116 g/d (mean 18 g/d; median 2 g/d).

3.2.5. Older Adults (~>65 y)

Soft drink consumption data were available for older adults in 23 countries with data on total soft drinks, soft drinks with sugars and soft drinks with reduced/no sugars available for 22, 9 and 9 countries, respectively (Table 6). Data on energy drinks were available for two countries (Table 6). The mean daily intake (across countries) of total soft drinks ranged from 8 g/d to 113 g/d (mean 43 g/d; median 29 g/d), soft drinks with sugars ranged from 8 g/d to 59 g/d (mean 28 g/d; median 24 g/d), soft drinks with reduced/no sugars ranged from 0 g/d to 17 g/d (mean 7 g/d; median 6 g/d). The mean daily intake of energy drinks was only available for two countries and ranged from 2 g/d to 48 g/d (mean 25 g/d; median 25 g/d).

3.2.6. Patterns of Soft Drink Intake

Based on data as reported and one data point per country, crude estimates of mean intakes of total soft drinks in Europe were 60 g/d for infants/toddlers, 131 g/d for children, 194 g/d for adolescents, 125 g/d for adults and 43 g/d for older adults. For soft drinks with sugars, intakes were 28 g/d for infants/toddlers, 105 g/d for children, 152 g/d for adolescents, 95 g/d for adults and 28 g/d for older adults. For soft drinks with reduced/no sugars, mean intakes were 40 g/d for infants/toddlers, 44 g/d for children, 41 g/d for adolescents, 36 g/d for adults and 7 g/d for older adults. For energy drinks, mean intakes were 1 g/d for children (from very limited data), 4 g/d for adolescents, 18 g/d for adults, and 25 g/d for older adults.
These crude estimates should however be interpreted with caution due to the age of some of the available data together with the significant variances observed in intakes across countries, as can be seen by the large ranges reported in the data above. Nonetheless, these findings may indicate that the mean intake of total soft drinks and soft drinks with sugars was highest in adolescents and lowest in infants/toddlers and older adults. The mean intake of soft drinks with reduced/no sugars was similar across age groups except for older adults (who had a much lower intake). While data were limited in some-age-groups for energy drinks, mean intakes were low overall (1–25 g/d range across age groups,) and intakes were higher in adults and older adults than in children or adolescents. For each age-group except for infants/toddlers, soft drinks with sugars were the highest, then soft drinks with reduced/no sugars followed by energy drinks. For infants/toddlers, soft drinks with reduced/no sugars were higher than those with sugars.

3.3. Changes in Soft Drink Intake over Time

Table 7 presents data on the mean intake of soft drinks over time where more than one nationally representative survey was available with comparable data. For infants/toddlers, data were available at two time points for three countries. These data showed a decrease in the intake of any available category of soft drinks except for Norway (for artificial sweet drinks) where there was no notable change. For children, data were available for six countries with overall findings that the intake of soft drinks with sugars has decreased over time in line with an increase/no change to the intake of soft drinks with reduced/no sugars. For adolescents, data were available for six countries showing a decrease in total soft drinks and soft drinks with sugars and an increase in soft drinks with reduced/no sugars. An increase was also noted in the intake of energy drinks in adolescents in one country (Ireland) for which these data were reported. For adults, data were available for seven countries showing an overall decrease in the intake of soft drinks. For older adults, data were available for two countries with a decrease in soft drinks noted for both countries.

4. Discussion

4.1. Overall Findings

This review has collated individual-level soft drink consumption data across the lifecycle from nationally representative surveys in Europe and has attempted to classify the various soft drink categories used in national surveys from a nutrition perspective to investigate if the data can provide recent estimates of soft drinks intake which are necessary for meaningful policy discussion. The review has highlighted significant gaps and challenges regarding the availability of recent country-specific data relating to soft drink consumption and has also highlighted significant heterogeneity in the categorisations used in national dietary surveys for reporting soft drink consumption in the context of overall food consumption. Based on very crude estimates from the available data with significant variance observed in intakes across countries, mean intakes of total soft drinks and soft drinks with sugars were highest in adolescents and lowest in infants/toddlers and older adults. The mean intake of soft drinks with reduced/no sugars was lower than that of soft drinks with sugars for all age groups except for infants/toddlers. Mean intakes of energy drinks were lower than that of other soft drink categories and were higher in adults and older adults than in adolescents with few/no data available for children. The review also found that the consumption of total soft drinks appears to be decreasing and there is an apparent shift to the consumption of soft drinks with reduced/no sugars in replacement of sugar-containing soft drinks in some age categories where comparisons were possible.

4.2. Challenges in Data Availability and Quality

The importance of having recent, high-quality, country-specific, nationally representative food consumption data to inform nutrition policy has been well acknowledged in the literature; together with the associated gaps and challenges surrounding data availability and use [14,22,23,84]. This review has focused specifically on soft drink consumption and has highlighted challenges relating to both the availability and standardisation of data pertaining to their consumption. Of the 53 countries in the WHO European region, data on soft drink consumption (of any type) and for at least one age group were available from only 28 countries with any available data being from EU countries and the European continent leaving significant gaps in the data for some parts of the region. While the most recent survey for each country was extracted (by population group), some surveys dated back 18–20 years perhaps questioning the reliability of these data in reflecting current estimates. Furthermore, dietary surveys across countries varied greatly regarding dietary assessment methodologies utilised, age groups included, statistics reported, and categorisation of food groupings. This review found that for soft drink consumption (all types), there were most data available for adults (28 countries) and the least available data for infants and toddlers (15 countries). Most recent surveys employed 24 h dietary recalls for adult populations while food records were more common in infants/toddlers and children. This is in keeping with EFSA guidelines for the harmonisation of food consumption data in the EU for dietary exposure assessment [85].
The variance in definitions used to reflect categories of soft drinks consumption has previously been acknowledged in the literature together with the associated challenges for epidemiological studies and for informing policy [4,18] and similar findings was observed in this review, not only across countries but also across different surveys within the same country. The term ‘soft drinks’ was used frequently to reflect total soft drink consumption but with a variety of definitions for included drinks, depending on reporting country. This variance was also observed for sub-categories of soft drinks including those with sugars and with reduced/no sugars with countries categorising soft drinks by energy content, presence of sugars/sweeteners, by carbonation, by functionality and by a mix of these categories.
Notwithstanding the challenges surrounding these definitions and categorisations, this review identified significant gaps in available data in all categories including categories of importance from a nutrition perspective. Only a few countries (approx. half in each population group) had available data on the consumption of reduced/no sugars soft drinks and even less on the consumption of energy drinks (in certain age groups). More data on these latter categories together with standardisation of terminology will be important for informing nutrition policy related to soft drink consumption [19,86]. With respect to the move to a reduction in sugar content in soft drinks, new categories may be needed going forward for classifying all soft drinks, including cordials/syrups/squashes and energy drinks with different levels of sugars. The EU food classification system (FoodEx2) may be able to support standardisation of terminology (for EU countries at least) however the current categorisation only includes a diet option for soft drinks (not drink mixes or functional drinks) and may not be able to capture new formulations of soft drinks with varied sugars content) [18]. An option may be to align categories and terminology with those already defined by nutrition claims such as low sugars, sugars free, with no added sugars or reduced sugars which would reflect the fact that soft drinks can contain sugars or sweeteners or both in combination to achieve a range of sugars and calorie levels [28].

4.3. Soft Drink Consumption (Including Intakes and Changes over Time)

A key finding of this study was that it does not seem possible to reliably estimate recent soft drink intakes across European countries due to differences in categorisations, age ranges, dates of surveys, and methodologies employed. However, it may be possible to estimate recent intakes within a country and population group, but its value may still be limited by the granularity of the data collected (i.e., purely soft drinks or sub-categorisations). Similarly, it may be possible to identify trends when the categorisations and age groups have remained stable within a country over sequential surveys. However, again its value may be limited by the granularity of the data collected.
Hence, the crude estimates that are reported here should be interpreted with caution and with an understanding of these limitations; and an observation of patterns of intake across categories or population groups may be more valuable than any attempt to quantify intakes. In this regard, our crude estimates of mean intakes of soft drink consumption in Europe suggest that intakes of soft drinks with sugars were higher than soft drinks with reduced/no sugars in all population groups (except for infants/toddlers) which aligns with sales data on these proportions [12,87] and mean intakes of energy drinks were low/negligible at the population level. In keeping with other studies, we found that soft drink consumption and soft drinks with sugars were highest in adolescents and adults and lowest in older adults and infants/toddlers [2,88].
To add to the very limited data available on quantitative estimates of soft drinks, this review showed (very crudely) that for total soft drinks, mean intake across countries is less than one 8 oz serving a day (194 g) for adolescents and approx. half a serving for children (131 g) and adults (125 g) and one-quarter to one fifth of a serving per day (43–60 g) for older adults and infants/toddlers, respectively. A recent systematic review of SSB consumption in children and teenagers (2–18 y) included countries from the following WHO regions with high dietary-related burden of disease, Western Pacific, Southeast Asia, and the Americas (using mainly FFQs) and found a considerable variation of intake across countries from 115 mL (Australia) to 710 mL (China) with a pooled synthesis of 326 mL. Our estimates of 105 g/d for children and 152 g/d for teenagers for soft drinks with sugars are in keeping with the lower range of these findings. For adults, a review in 2010 of global, regional and national consumption of beverages (including SSBs) estimated a mean intake of SSBs of 137 mL/d for adults globally and approx. 64–92 mL/d for adults across European regions which is broadly in keeping with our estimate for adults of 95 g/d of soft drinks with sugars (albeit at the lower end). EFSA have previously reported consumption of energy drinks for European countries and whilst the data (reported for consumers only, in volumes per month) are not directly comparable to ours, they also showed higher intakes in adults and adolescents compared with children [89].
Findings from the current review, albeit for a very limited range of countries, did suggest an overall decrease in the consumption of soft drinks together with a shift to the consumption of soft drinks with reduced/no sugars in replacement of sugar-containing soft drinks in some age-categories. This finding is in keeping with sales data from the EU of an increase of low/no calorie soft drinks in line with a reduction of regular soft drinks (not reduced in sugars) as a proportion of total sales from 2016–2021 [12] and also reflects sales data reported for the US and Australia [87,90]. These trends may be in part due to policy interventions and/or industry initiatives however lack of data on motivations of specific food choice within dietary survey reports does not allow us to comment with any certainty on this. With recently renewed guidelines on reducing sugar intake, it will be important to continue to monitor changes in SSBs and reduced/no sugars soft drinks as well as that of total soft drinks consumption [86]. Interestingly, despite the renewed emphasis in guidelines on sugars, FBDG generally only refer to reduction of SSBs and many are silent regarding other categories of soft drinks with lower levels of or no sugars [5,6,7].

4.4. Strengths and Limitations

Strengths of the present review include the large number of studies included and the use of the most recent data for each country including the reporting of all soft drinks data as published in the original reports. The attempt to categorise soft drink consumption from the available data by nutritionally relevant categories is also a strength. The review is limited by gaps in the available data and some nuance may have been lost when translating soft drink categories from reports written in the native language. Another limitation that may be important in the context of estimating soft drinks consumption is that some aspects of representativeness of the data could not be considered such as seasonal data, reporting on weekday/weekend days and sociodemographic of the population groups but it is hoped that the design of the individual surveys will have accounted for this as much as possible.

5. Conclusions

This review provides a valuable insight into what data are currently available on soft drink consumption, (including subcategories of nutritional importance) in European populations, in particular the heterogeneity in categorisations, terminology, definitions, and types of soft drinks included. If the limitations are addressed, the data can provide a broad evidence base for future monitoring, which may be useful for informing nutrition practice, research, and policy. However, some findings from this review, in particular crude mean intakes, must be interpreted with caution due to vast gaps in recent available data for some countries and gaps and heterogeneity in reporting of subcategories of soft drinks. More regular and ongoing monitoring of country-specific food consumption data is necessary to address questions on both nutrition and food safety and for a complete picture, it will be important to extend the data to European countries not included in the presented work.

Author Contributions

A.W. conceived the idea of this review paper and collated the data. J.W. and A.W. interpreted the data, drafted the manuscript, and approved the final version of the manuscript. All authors have read and agreed to the published version of the manuscript.

Funding

This research (including the APC) was funded by UNESDA Soft Drinks Europe.

Institutional Review Board Statement

Not applicable.

Informed Consent Statement

Not applicable.

Data Availability Statement

Data is contained within the article.

Conflicts of Interest

J.W. has been paid a fee by UNESDA soft drinks Europe for the academic support of this paper. A.W. is an independent nutrition consultant and has undertaken work for the international sugar industry as well as for food and drink manufacturers and trade organisations, including manufacturers and trade organisations for soft drinks. The funders had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript; or in the decision to publish the results.

References

  1. Korab, H.E.; Pietka, M.J. “Soft Drink”. Encyclopedia Britannica. 2022. Available online: https://www.britannica.com/topic/soft-drink (accessed on 8 February 2023).
  2. European Food Safety Authority. Tolerable upper intake level for dietary sugars. EFSA J. 2022, 20, e07074. [Google Scholar]
  3. World Health Organisation (WHO). Sugars Intake for Adults and Children; World Health Organisation: Geneva, Switzerland, 2015. [Google Scholar]
  4. Merkel, P.E.; Ditto, E.K.; Robien, K.; Sylvetsky, A.C. Perspective: Chaos in a Bottle—A Critical Evaluation of Beverage Categorization in Nutrition Research. Adv Nutr. 2020, 11, 1414–1428. [Google Scholar] [CrossRef] [PubMed]
  5. Montagnese, C.; Santarpia, L.; Buonifacio, M.; Nardelli, A.; Caldara, A.R.; Silvestri, E.; Contaldo, F.; Pasanisi, F. European food-based dietary guidelines: A comparison and update. Nutrition 2015, 31, 908–915. [Google Scholar] [CrossRef] [PubMed]
  6. Cámara, M.; Giner, R.M.; González-Fandos, E.; López-García, E.; Mañes, J.; Portillo, M.P.; Rafecas, M.; Domínguez, L.; Martínez, J.A. Food-Based Dietary Guidelines around the World: A Comparative Analysis to Update AESAN Scientific Committee Dietary Recommendations. Nutrients 2021, 13, 3131. [Google Scholar] [CrossRef]
  7. Herforth, A.; Arimond, M.; Álvarez-Sánchez, C.; Coates, J.; Christianson, K.; Muehlhoff, E. A Global Review of Food-Based Dietary Guidelines. Adv. Nutr. 2019, 10, 590–605. [Google Scholar] [CrossRef] [PubMed]
  8. Griffith, R.; O’Connell, M.; Smith, K.; Stroud, R. What’s on the Menu? Policies to Reduce Young People’s Sugar Consumption. Fisc. Stud. 2020, 41, 165–197. [Google Scholar] [CrossRef]
  9. European Commission (EC) Knowledge for Policy. Implemented Policies to Address Sugars Intake. 2021. Available online: https://europa.eu/!m97w43 (accessed on 19 January 2023).
  10. Andreyeva, T.; Marple, K.; Marinello, S.; Moore, T.E.; Powell, L.M. Outcomes Following Taxation of Sugar-Sweetened Beverages: A Systematic Review and Meta-analysis. JAMA Netw. Open 2022, 5, e2215276. [Google Scholar] [CrossRef]
  11. Thow, A.M.; Rippin, H.L.; Mulcahy, G.; Duffey, K.; Wickramasinghe, K. Sugar-sweetened beverage taxes in Europe: Learning for the future. Eur. J. Public Health 2022, 32, 273–280. [Google Scholar] [CrossRef]
  12. UNESDA—Soft Drinks Europe. Global Data Soft Market Insights—2022 Cycle: UNESDA. 2022. Available online: https://www.unesda.eu/sales-and-consumption/ (accessed on 12 December 2022).
  13. World Health Organisation. Using Third-Party Food Sales and Composition Databases to Monitor Nutrition Policies; World Health Organisation: Copenhagen, Denmark, 2021. [Google Scholar]
  14. Micha, R.; Coates, J.; Leclercq, C.; Charrondiere, U.R.; Mozaffarian, D. Global Dietary Surveillance: Data Gaps and Challenges. Food Nutr. Bull. 2018, 39, 175–205. [Google Scholar] [CrossRef]
  15. Singh, G.M.; Micha, R.; Khatibzadeh, S.; Shi, P.; Lim, S.; Andrews, K.G.; Engell, R.E.; Ezzati, M.; Mozaffarian, D. Global, Regional, and National Consumption of Sugar-Sweetened Beverages, Fruit Juices, and Milk: A Systematic Assessment of Beverage Intake in 187 Countries. PLoS ONE 2015, 10, e0124845. [Google Scholar] [CrossRef]
  16. Ooi, J.Y.; Wolfenden, L.; Sutherland, R.; Nathan, N.; Oldmeadow, C.; McLaughlin, M.; Barnes, C.; Hall, A.; Vanderlee, L.; Yoong, S.L. A Systematic Review of the Recent Consumption Levels of Sugar-Sweetened Beverages in Children and Adolescents From the World Health Organization Regions With High Dietary-Related Burden of Disease. Asia-Pac. J. Public Health 2022, 34, 11–24. [Google Scholar] [CrossRef]
  17. Swithers, S.E.; Bonanno, G.R.; Figueroa, J.; Welsh, J.A.; Sylvetsky, A.C. Dietary and Health Correlates of Sweetened Beverage Intake: Sources of Variability in the National Health and Nutrition Examination Survey (NHANES). Nutrients 2021, 13, 2703. [Google Scholar] [CrossRef]
  18. Sousa, A.; Sych, J.; Rohrmann, S.; Faeh, D. The Importance of Sweet Beverage Definitions When Targeting Health Policies-The Case of Switzerland. Nutrients 2020, 12, 1976. [Google Scholar] [CrossRef] [PubMed]
  19. Breda, J.J.; Whiting, S.H.; Encarnação, R.; Norberg, S.; Jones, R.; Reinap, M.; Jewell, J. Energy Drink Consumption in Europe: A Review of the Risks, Adverse Health Effects, and Policy Options to Respond. Front. Public Health 2014, 2, 134. [Google Scholar] [CrossRef]
  20. Higgins, J.P.; Babu, K.; Deuster, P.A.; Shearer, J. Energy Drinks: A Contemporary Issues Paper. Curr. Sport. Med. Rep. 2018, 17, 65–72. [Google Scholar] [CrossRef] [PubMed]
  21. European Food Safety Authority. The Food Classification and Description System FoodEx2, 2nd ed.; European Food Safety Authority: Parma, Italy, 2015; Volume 12, pp. 804–890. [CrossRef]
  22. Rippin, H.L.; Hutchinson, J.; Jewell, J.; Breda, J.J.; Cade, J.E. Adult Nutrient Intakes from Current National Dietary Surveys of European Populations. Nutrients 2017, 9, 1288. [Google Scholar] [CrossRef]
  23. Rippin, H.L.; Hutchinson, J.; Jewell, J.; Breda, J.J.; Cade, J.E. Child and adolescent nutrient intakes from current national dietary surveys of European populations. Nutr. Res. Rev. 2019, 32, 38–69. [Google Scholar] [CrossRef] [PubMed]
  24. Walton, J.; Bell, H.; Re, R.; Nugent, A.P. Current perspectives on global sugar consumption: Definitions, recommendations, population intakes, challenges and future direction. Nutr. Res. Rev. 2021, 1–22. [Google Scholar] [CrossRef]
  25. Lemming, E.W.; Pitsi, T. The Nordic Nutrition Recommendations 2022—food consumption and nutrient intake in the adult population of the Nordic and Baltic countries. Food Nutr. Res. 2022, 66. [Google Scholar] [CrossRef]
  26. European Food Safety Authority. The EFSA Comprehensive European Food Consumption Database. 2018. Available online: http://data.europa.eu/88u/dataset/the-efsa-comprehensive-european-food-consumption-database (accessed on 25 April 2022).
  27. EFSA (European Food Safety Authority); Arcella, D.; Ioannidou, S.; Ferreira de Sousa, R. Internal report on the harmonisation of dilution factors to be used in the assessment of dietary exposure. EFSA Intern. Rep. J. 2018, 12. [Google Scholar] [CrossRef]
  28. The European Parliament; The Council of The European Union. Regulation (EC) No 1924/2006 of the European Parliament and of the Council of 20 December 2006 on nutrition and health claims made on foods. Off. J. Eur. Union 2006, L 404, 9–25. [Google Scholar]
  29. Ministeri de Salut. Enquesta Nutricional d’Andorra 2017–2018. Avaluació de L’estat Nutricional de la Població d’Andorra 2017–2018 i Avaluació de les Tendències 2005–2018; Govern d’Andorra: Andorra la Vella, Andorra, 2019.
  30. Rust, P.; Hasenegger, V.; König, J. Österreichischer Ernährungsbericht 2017; Available online: https://broschuerenservice.sozialministerium.at/Home/Download?publicationId=528 (accessed on 7 April 2022).
  31. De Ridder, K.; Bel, S.; Brocatus, L.; Lebacq, T.; Ost, C.; Teppers, E. Enquête de Consommation Alimentaire 2014–2015; Institut Scientifique de Santé Publique: Brussels, Belgium, 2016. [Google Scholar]
  32. Devriese Stephanie, H.I.; Moreau, M.; Van Oyen, H. Enquête de consommation alimentaire Belge 1—2004. Epidémiologie, mars 2006; Contract No.: SP/EPI REPORTS N 2006—014 N° de Dépot: D/2006/2505/16; Institut Scientifique de Santé Publique: Bruxelles, Belgium, 2006. [Google Scholar]
  33. Duleva Veselka, R.L.; Petrova, S.; Dimitrov, P. Nutrition in Children from 1 to 19 Year Age in Bulgaria, 2014: Food Intake. Bulg. J. Public Health 2017, 9, 29–33. [Google Scholar]
  34. Duleva Veselka, R.L.; Petrova, S.; Dimitrov, P. Nutrition for people aged over 19 years in Bulgaria, 2014: Food intake. Bulg. J. Public Health 2017, 9, 53–58. [Google Scholar]
  35. Pedersen, A.N.; Christensen, T.; Matthiessen, J.; Knudsen, V.K.; Rosenlund-Sørensen, M.; Biltoft-Jensen, A.; Hinsch, H.; Ygil, K.H.; Kørup, K.; Saxholt, E.; et al. Danskernes kostvaner 2011–2013 Hovedresultater; DTU Fødevareinstituttet: Søborg, Denmark, 2015; (Personal communication, 2022). [Google Scholar]
  36. Valsta, L.K.N.; Tapanainen, H.; Männistö, S.; Sääksjärvi, K. Ravitsemus Suomessa—FinRavinto 2017—Tutkimus. Nutrition in Finland—The National FinDiet 2017 Survey. 2018. Available online: https://www.julkari.fi/bitstream/handle/10024/137433/Raportti_12_2018_netti%20uusi%202.4.pdfTHL (accessed on 6 March 2022).
  37. Mensink, G.B.M.; Schienkiewitz, A.; Rabenberg, M.; Borrmann, A.; Richter, A.; Haftenberger, M. Consumption of sugary soft drinks among children and adolescents in Germany. Results of the cross-sectional KiGGS Wave 2 study and trends. J. Health Monit. 2018, 3. (Personal communication, 2022). [Google Scholar] [CrossRef]
  38. Heuer, T.; Krems, C.; Moon, K.; Brombach, C.; Hoffmann, I. Food consumption of adults in Germany: Results of the German National Nutrition Survey II based on diet history interviews. Br. J. Nutr. 2015, 113, 1603–1614. [Google Scholar] [CrossRef]
  39. Gunnarsdóttir Ingibjörg, E.T.; Þórsdóttir, I. Hvað Borða Íslensk Börn á Leikskólaaldri? Könnun á Mataræði 3ja og 5 Ára Barna 2007. 2009. Available online: https://assets.ctfassets.net/8k0h54kbe6bj/7AZivngHaoA6kVuuVGxws6/841fe2557a4283891aa4efdd32338bfa/3ja_og_5_ara_skyrsla_181208.pdf (accessed on 1 May 2022).
  40. Gunnarsdóttir Ingibjörg, H.H.; Þórisdóttir, B.; Þórsdóttir, I. Landskönnun á Mataræði Sex Ára Barna 2011–2012. 2013. Available online: https://www.laeknabladid.is/media/tolublod/1593/PDF/f02.pdf (accessed on 1 May 2022).
  41. Þórsdóttir Inga, G.I. The Diet of Icelandic 9- and 15-Year-Old Children and Adolescents. Dietary Survey of Unit for Nutrition Research 2002–2003. 2006. Available online: https://www.landlaeknir.is/servlet/file/store93/item11594/hvad_borda_isl_born_og_ungl.pdf (accessed on 1 May 2022).
  42. Þorgeirsdóttir, H.; Valgeirsdóttir, H.; Gunnarsdóttir, I.; Gísladóttir, E.; Gunnarsdóttir, B.E.; Þórsdóttir, I.; Stefánsdóttir, J.; Steingrímsdóttir, L. Hvað Borða Íslendingar? Könnun á Mataræði Íslendinga 2010–2011 Helstu Niðurstöður (A Survey of the Diet of Icelanders 2010–2011); Embætti landlæknis, Matvælastofnun, Rannsóknastofa í næringarfræði við Háskóla Íslands, Landspítala-háskólasjúkrahús: Reykjavik, Iceland, 2011. [Google Scholar]
  43. Irish Universities Nutrition Alliance (IUNA). National Pre-School Nutrition Survey–Main Report. 2012. Available online: www.iuna.net (accessed on 1 March 2022).
  44. Irish Universities Nutrition Alliance (IUNA). The National Children’s Food Survey II (NCFS II) Summary Report. 2020. Available online: https://www.iuna.net/surveyreports (accessed on 1 March 2022).
  45. Irish Universities Nutrition Alliance (IUNA). National Teens’ Food Consumption Survey II (NTFS II)—Main Report. 2021. Available online: www.iuna.net (accessed on 1 March 2022).
  46. Irish Universities Nutrition Alliance (IUNA). The National Adult Nutrition Survey (NANS). 2011. Available online: www.iuna.net (accessed on 1 March 2022).
  47. Leclercq, C.; Arcella, D.; Piccinelli, R.; Sette, S.; Le Donne, C.; Turrini, A. The Italian National Food Consumption Survey INRAN-SCAI 2005–06: Main results in terms of food consumption. Public Health Nutr. 2009, 12, 2504–2532. [Google Scholar] [CrossRef]
  48. Barzda, A.; Bartkevičiūtė, R.; Baltušytė, I.; Stukas, R.; Bartkevičiūtė, S. Actual nutrition and nutrition habits of adults and elderly of Lithuania. Visuomenės Sveik. 2016, 1, 85–94. [Google Scholar]
  49. National Institute for Public Health and the Environment (RIVM). Dutch National Food Consumption Survey 2012–2016; Consumption; Available online: https://www.rivm.nl/en/dutch-national-food-consumption-survey/overview-surveys/dnfcs-2012-2016 (accessed on 1 June 2022).
  50. Norwegian Directorate of Health. Infant Food and Young Children’s Food—Nationwide Dietary Surveys; Norwegian Directorate of Health: Oslo, Norway, 2020; Available online: https://www.helsedirektoratet.no/rapporter/spedkost-og-smabarnskost-landsomfattende-kostholdundersokelser (accessed on 6 February 2023).
  51. Hansen, L.; Myhre, J.; Johansen, A.M.; Paulsen, M.; Andersen, L. UNGKOST 3 Landsomfattende Kostholdsundersøkelse Blant Elever i 4. -og 8. Klasse i Norge, 2015 (UNGKOST 3 Nationwide Dietary Survey among Students in 4th and 8th Grade in Norway, 2015); Folkenhelseintituttet (National Institute of Public Health): Oslo, Norway, 2015.
  52. Totland, T.H.; Kjerpesetch Melnæs, B.; Lundberg-Hallén, N.; Helland-Kigen, K.M.; Lund-Blix, N.A.; Borch Myhre, J.; Johansen, A.M.W.; Løken, E.B.; Andersen, L.F. Norkost3. The University of Oslo, the Norwegian Food Safety Authority and the Norwegian Directorate of Health. 2012. Available online: https://helsedirektoratet.no/Lists/Publikasjoner/Attachments/301/Norkost-3-en-landsomfattende-kostholdsundersokelse-blant-menn-og-kvinner-i-norge-i-alderen-18-70-ar-2010-11-IS-2000.pdf (accessed on 6 March 2022).
  53. Lopes, C.; Torres, D.; Oliveira, A.; Severo, M.; Alarcão, V.; Guiomar, S.; Mota, J.; Teixeira, P.; Rodrigues, S.; Lobato, L.; et al. Inquérito Alimentar Nacional e de Atividade Física, IAN-AF 2015–2016 Relatório de Resultados (National Food Survey and Physical Activity, IAN-AF 2015–2016 Results Report); University of Porto: Porto, Portugal, 2017. [Google Scholar]
  54. La Agencia Española de Seguridad Alimentaria y Nutrición (AESAN). Spanish National Dietary Survey on Children and Adolescents. 2015. Available online: https://www.aesan.gob.es/en/AECOSAN/web/seguridad_alimentaria/ampliacion/enalia.htm (accessed on 16 March 2022).
  55. La Agencia Española de Consumo SAyNA. Encuesta Nacional de Alimentación en la Población Adulta, Mayores y Embarazadas (ENALIA 2). Available online: https://www.aesan.gob.es/AECOSAN/web/seguridad_alimentaria/subdetalle/enalia_2.htm (accessed on 16 March 2022).
  56. Enghardt, B.H.; Pearson, M.; Wulf, B. Riksmaten—Barn 2003 Livsmedels- Och Näringsintag Bland Barn i Sverige. 2006. Available online: https://www.livsmedelsverket.se/matvanor-halsa--miljo/matvanor---undersokningar/riksmaten-barn-2003 (accessed on 21 April 2022).
  57. Lemming Eva, M.L.; Sipinen, J.; Lindroos, A. Riksmaten ungdom 2016–17. 2018. Available online: https://www.livsmedelsverket.se/globalassets/publikationsdatabas/rapporter/2018/2018-nr-14-riksmatenungdom-huvudrapport_del-1-livsmedelskonsumtion.pdf (accessed on 21 April 2022).
  58. Amcoff, E.; Edberg, A.; Enghardt Barbieri, H.; Nälsén, C.; Pearson, M.; Warensjö Lemming, E. Riksmaten 2010–2011 Food and Nutriton among Adults in Sweden. Food Data Unit Surveillance Department. 2012. Available online: https://www.livsmedelsverket.se/globalassets/matvanor-halsa-miljo/kostrad-matvanor/matvaneundersokningar/riksmaten_2010_20111.pdf (accessed on 21 April 2022).
  59. Chatelan Angeline. Dietary Intake and Nutritional Status in Switzerland: A Population Perspective. University of Lausanne. Document URN: Urn:nbn:ch:serval-BIB_6B316B3D39BE6. Available online: https://serval.unil.ch/resource/serval:BIB_6B316B3D39BE.P002/REF)2018 (accessed on 20 June 2022).
  60. Lennox, A.S.J.; Ong, K.; Henderson, H.; Allen, R. Diet and Nutrition Survey of Infants and Young Children, 2011. Department of Health and Food Standards Agency. 2013. Available online: https://www.gov.uk/government/uploads/system/uploads/attachment_data/file/139572/DNSIYC_UK_report_ALL_chapters_DH_V10.0.pdf (accessed on 19 July 2022).
  61. Public Health England. National Diet and Nutrition Survey: Results from Years 9 to 11 (Combined) of the Rolling Programme (2016/2017 and 2018/2019); Public Health England: London, UK, 2020.
  62. Yiannopoulos, S.; Ioannou–Kakouri, E.; Kanari, P.; Anastasi, A.; Agathogleous, M.; Kakoulli, A.; Christodoulidou, M.; Savva, S.; Papoutsou, S.; Hadjigeorgiou, C.; et al. National Dietary Survey of the children of Cyprus. EFSA Support. Publ. 2018, 15, 1464E. [Google Scholar] [CrossRef]
  63. National Institute for Health Development; Nurk, E.; Nelis, K.; Saamel, M.; Martverk, M.; Jõeleht, A.; Nelis, L. National Dietary Survey among children up to ten years old and breastfeeding mothers in Estonia. EFSA Support. Publ. 2017, 14, 1199E. [Google Scholar]
  64. Dubuisson, C.; Dufour, A.; Carrillo, S.; Drouillet-Pinard, P.; Havard, S.; Volatier, J.L. The Third French Individual and National Food Consumption (INCA3) Survey 2014–2015: Method, design and participation rate in the framework of a European harmonization process. Public Health Nutr. 2019, 22, 584–600. [Google Scholar] [CrossRef] [PubMed]
  65. National Food Chain Safety Office, Hungary; Csizmadia, K.; Larnsak, L.; Pfaff, N.; Sali, J. Hungarian national food consumption survey on toddlers and other children. EFSA Support. Publ. 2020, 17, 1982E. [Google Scholar]
  66. Institute of Food Safety, Animal Health, Environment BIOR; Siksna, I.; Valciņa, O.; Ozoliņš, G.; Goldmanis, M. Latvian National Dietary Survey on the general population. EFSA Support. Publ. 2017, 14, 1307E. [Google Scholar]
  67. National Institute of Public Health; Blaznik, U.; Gregorič, M.; Delfar, N.; Zaletel, M.; Lavtar, D.; Koroušić Seljak, B.; Fidler Mis, N.; Golja, P.; Zdešar Kotnik, K.; et al. Slovenian national food consumption survey on children (infants and toddlers). EFSA Support. Publ. 2019, 16, 1728E. [Google Scholar]
  68. Elmadfa, I.; Hasenegger, V.; Wagner, K.; Putz, P.; Weidl, N.-M.; Wottawa, D.; Kuen, T.; Seiringer, G.; Meyer, A.L.; Sturtzel, B.; et al. Österreichischer Ernährungsbericht/Austrian Nutrition Report. Institute of Nutritional Sciences. 2012. Available online: https://www.bmgf.gv.at/cms/home/attachments/4/5/3/CH1048/CMS1348749794860/oeb12.pdf (accessed on 7 April 2022).
  69. Ruprich, J.D.M.; Rehurkova, I.; Slamenikova, E.; Resova, D. Individual Food Consumption—The National Study SISP04. CHFCH NIPH in Prague. 2006. Available online: http://www.chpr.szu.cz/spotrebapotravin.htm (accessed on 24 April 2022).
  70. König, J.; Hasenegger, V.; Rust, P. EU Menu Austria: Food consumption data for Austrian adolescents, adults and pregnant women. EFSA Support. Publ. 2019, 16, 1754E. [Google Scholar] [CrossRef]
  71. Yiannopoulos, S.; Ioannou–Kakouri, E.; Kanari, P.; Anastasi, A.; Agathocleous, M.; Kakoulli, A.; Christodoulidou, M.; Papoutsou, S.; Savva, S.; Hadjigeorgiou, C.; et al. National dietary survey on the adult population of Cyprus. EFSA Support. Publ. 2018, 15, 1458E. [Google Scholar] [CrossRef]
  72. National Institute for Health Development; Nurk, E.; Nelis, K.; Saamel, M.; Martverk, M.; Nelis, L. National Dietary Survey among 11–74 years old individuals in Estonia. EFSA Support. Publ. 2017, 14, 1198E. [Google Scholar]
  73. Antonia, T.; Philippos, O.; Elisavet, V.; Georgia, M.; Eleni, P.; Androulidaki, A.; Anifantis, E.; Katsoulis, M.; Maria, K.; Pantzarlis, M.; et al. The EFSA-funded collection of dietary and related data in the general population aged 10–74 years in Greece. EFSA Support. Publ. 2018, 15, 1499E. [Google Scholar] [CrossRef]
  74. National Food Chain Safety Office, Hungary; Csizmadia, K.; Larnsak, L.; Pfaff, N.; Sali, J. Hungarian national food consumption survey on adults. EFSA Support. Publ. 2020, 17, 1982E. [Google Scholar]
  75. Neagu, M.; Nicolescu, F.; Tănăsescu, B.; Stan, M.; Zugravu, C.; Cucu, A.; Galan, A.; Partin, A. Romanian national food consumption survey for adolescents, adults and elderly. EFSA Support. Publ. 2020, 17, 1923E. [Google Scholar] [CrossRef]
  76. Croatian Food Agency Sokolić, D.; Jurković, M.; Bašić, S.; Mikec, D.; Ileš, D.; Libl, V.L.; Srdarević, M. CroatianNational Food Consumption Survey on Adult Population. EFSA Supporting Pub. 2017, 14. [Google Scholar] [CrossRef]
  77. Rodler, I.B.L.; Greiner, E.; Zajkás, G.; Szόrád, I.; Varga, A.; Domonkos, A.; Agoston, H.; Balazs, A.; Mozsary, E.; Vitrai, J.; et al. Taplalkozasi vizsgalat Magyarorszagon, 2003–2004. (Dietary survey in Hungary, 2003–2004). Orvosi. Hetilap. 2005, 146, 1781–1789. [Google Scholar] [PubMed]
  78. Øverby, N.C.K.A.; Andersen, L.F.; Andersen, L.F.; Lande, B. Spedkost 12 Måneder. Landsomfattende Kostholdsundersøkelse Blant 12 Måneder Gamle Barn. Spedkost 2006–2007 (Spedkost 12 Months. Nationwide Dietary Survey among 12 Month Old Infants in Norway. Spedkost 2006–2007); Rapport 2009; Helsedirektoratet: Oslo, Norway, 2009.
  79. Kristiansen, A.L.; Andersen, L.F.; Lande, B. Småbarnskost 2 år. Landsomfattende Kostholdsundersøkelse blant 2 år Gamle Barn. Småbarnskost 2007 (Nationwide Dietary Survey among 2-Year-Old Children in Norway) Rapport 2009; Helsedirektoratet: Oslo, Norway, 2009.
  80. Public Health England. National Diet and Nutrition Survey Results from Years 7 and 8 (Combined) of the Rolling Programme (2014/2015 to 2015/2016); Public Health England and the Food Standards Agency: London, UK, 2018.
  81. Irish Universities Nutrition Alliance (IUNA). North South Ireland Food Consumption Survey Summary Report on Food and Nutrient Intakes, Anthropometry, Attitudinal Data & Physical Activity Patterns; Food Safety Promotion Board: Dublin, Ireland, 2001; ISBN 9-9540351-0-0.
  82. Pollestad, M.L.; Øverby, N.C.; Andersen, L.F. UNGKOST-2000 Landsomfattende Kostholdsundersøkelse Blant Elever i 4.-og 8. klasse i Norge. 2002. Available online: https://www.helsedirektoratet.no/rapporter/ungkost-2000-landsomfattende-kostholdsundersokelse/Ungkost%202000%20%E2%80%93%20Landsomfattende%20kostholdsunders%C3%B8kelse%20blant%20elever%20i%204-%20og%208-klasse%20i%20Norge.pdf (accessed on 6 March 2022).
  83. Steingrimsdóttir, L.; Valgeirsdóttir, H.; Halldórsson, P.I.; Gunnarsdóttir, I.; Gisladóttir, E.; Thorgeirsdóttir, H.; Thórsdóttir, I. Kannanir á Mataræði og Næringargildi Fæðunnar á Íslandi. Tengsl Efnahagsþrenginga og Hollustu. 2014. Available online: https://www.laeknabladid.is/tolublod/2014/12/nr/5348 (accessed on 1 May 2022).
  84. Walton, J. Dietary Assessment Methodology for Nutritional Assessment: A Practical Approach. Top. Clin. Nutr. 2015. [Google Scholar] [CrossRef]
  85. European Food Safety Authority. Guidance on the EU Menu methodology. EFSA J. 2014, 12, 3944. [Google Scholar]
  86. Edwards, C.H.; Rossi, M.; Corpe, C.P.; Butterworth, P.J.; Ellis, P.R. The role of sugars and sweeteners in food, diet and health: Alternatives for the future. Trends Food Sci. Technol. 2016, 56, 158–166. [Google Scholar] [CrossRef]
  87. Popkin, B.M.; Hawkes, C. Sweetening of the global diet, particularly beverages: Patterns, trends, and policy responses. Lancet Diabetes Endocrinol. 2016, 4, 174–186. [Google Scholar] [CrossRef] [PubMed]
  88. Han, E.; Powell, L.M. Consumption patterns of sugar-sweetened beverages in the United States. J. Acad. Nutr. Diet. 2013, 113, 43–53. [Google Scholar] [CrossRef]
  89. Zucconi, S.; Volpato, C.; Adinolfi, F.; Gandini, E.; Gentile, E.; Loi, A.; Fioriti, L. Gathering consumption data on specific consumer groups of energy drinks. EFSA Support. Publ. 2013, 10, 394E. [Google Scholar] [CrossRef]
  90. Miller, C.; Ettridge, K.; Wakefield, M.; Pettigrew, S.; Coveney, J.; Roder, D.; Durkin, S.; Wittert, G.; Martin, J.; Dono, J. Consumption of Sugar-Sweetened Beverages, Juice, Artificially-Sweetened Soda and Bottled Water: An Australian Population Study. Nutrients 2020, 12, 817. [Google Scholar] [CrossRef]
Table
Table 1. Soft drink categories derived from the categories reported in National Food Consumption Surveys in the WHO European Region.
Table 1. Soft drink categories derived from the categories reported in National Food Consumption Surveys in the WHO European Region.
Country (Year)Age-GroupTotal Soft DrinksSoft Drinks with SugarsSoft Drinks with Reduced/No SugarsEnergy DrinksOther *
Andorra (2017–18) [29]12–75 ySoft drinks
Austria (2017) [30]18–64 ySoft drinks
Belgium (2014–15) [31]3–64 y Sugary drinks (Including ‘lemonades’ (all soft drinks, sports drinks and energy drinks) and flavoured water with energy content > 5 kcal/100 g; and cappuccino)
Belgium (2004) [32]60–74 y, 75 y+ Soft drinks (lemonades)(distinguished as with sugar by another category-soft drinks (lemonades) light)Soft drinks (lemonades), light
Bulgaria (2014) [33,34]1–74 y; 75 y+Soft drinks
(energy drinks reported separately for 19–74 y)		 Energy drinks
Denmark (2011–13) [35]4–75 y Cordial (distinguished as with sugar by another category Juice, cordial light)Juice, cordial, light Ice tea, Cider (Low/no alcohol sweetened drink)
Fizzy soft drinks, sugar-sweetenedFizzy soft drinks, light
Estonia (2014) [25]18–74 ySoft drinks, cordials, etc. (also includes energy drinks, near water, nectars, and fruit drinks)
Finland (2017) [36]18–74 y Juice drinks (sugar sweetened) (Juice drink diluted with water from juice concentrate)Drinks with artificial sweeteners (Artificially/partially artificially sweetened juice or soft drink) Sports drinks, recovery drinks
Soft drinks sweetened with sugar (Soft drink, cola beverage, energy drink) flavoured water
Germany (2014–17) [37]3–17 y Sugary soft drinks including energy drinks (Soft drinks include lemonades, fizzy drinks, fruit spritzers and fruit juice drinks, further drinks such as malt beer, ice teas and energy drinks)Reduced calorie soft drinks
Germany (2005–06) [38]14–80 ySoft drinks, totalSugary soft drinksEnergy-reduced soft drinks
Iceland (2007) [39]3 y, 5 ySweet fruit drinks and soft drinks (reported separately)
Iceland (2001–12) [40]
(2003–04) [41]		6 y
9 y,15 y		Soda and soft drinks (Includes carbonated beverages (with sugar/artificial sweeteners) and sugary fruit/berry drinks. Excludes carbonated water—with/without flavourings) (split further into soft drinks and soda for 6 y olds)
Iceland (2010–11) [42]18–80 ySoda and soft drinks (Sugary and sugar-free soft drinks—and soft drinks, including sports drinks and water drinks containing at least 2 g CHO/100 g)Sugary soft drinks (Carbonated soft drinks with added sugar, containing> 10 g CHO)Sugar-free soft drinks Carbonated sugar-free soft drinks with sweeteners Fruit drinks Sugary and sugar-free fruit and berry drinks
Sports drinks Sugary sports drinks that contain 4–6 g CHO
Water drinks Water drinks that contain 2–6 g CHO
Ireland (2010–2011) [43]1–4 y Soft drinks not low calorieSoft drinks low calorie
Ireland (2017–2018) [44]
(2019–20) [45]		5–12 y
13–17 y		 Soft drinks with added sugarSoft drink with no added sugarEnergy Drinks (13–17 y only)
Ireland (2008–10) [46]18 y+ Non-diet carbonated soft drinksDiet carbonated soft drinks Squash, cordial and FJ drinks
Italy (2005–06) [47]0.1–64 y 65 y+Soft drinks (all carbonate beverages (e.g., cola, soda, ginger ale, orange, tonic water) with sugar /sugar-free, ice-tea, ice herbal tea, energy drinks, sport drinks, syrups to be diluted (inc. almond milk). Not inc. juice drinks)
Latvia (2018–20) [25]19–64 ySoft drinks, cordials, etc.
Lithuania (2013–14) [48]19–75 ySoft drinks (with % fruit less than in nectars)
Netherlands (2012–16) [49]1–18 y; 19–79 yCarbonated/soft/isotonic drinks, diluted syrups
Norway (2020) [50]6 mo–17 y Total sugary drinks (Includes soda with sugar, juice with sugar and nectar)
Juice drink, sweetenedJuice drink, artificially sweetened
Soda, sweetenedSoda, artificially sweetened
Norway (2020) [50]12 mo and 2 y Sweet drinks (with added sugar) Includes Nectar, juice with sugar, soda with sugar (reported separately as well so nectar can be removed)Artificial sweet drinks (Includes Juice without sugar, soda without sugar) Nectars
Juice with sugarJuice without sugar
Soda with sugarSoda without sugar
Norway (2015) [51]9 y, 13 y Sweet drinks with added sugar (Juice, nectar, soda with added sugar)Light juice drinks/soda
Norway (2010–11) [52]18–70 yJuice drinks/sodaJuice drinks/soda etc. with sugarLight juice drinks/soda Juice drink/soda unspecified type
Portugal (2015–16) [53]3–64 y; 65–84 ySoft drinks (Carbonated and non-carbonated soft drinks, lemonade, tonic water, energy drinks, and juice concentrates). (100% juices, isotonic drinks and alcohol-free beer and cocktails are excluded) Nectars (Fruit and/or vegetables nectars and light nectars)
Spain (2012–14) [54]
(2014–15) [55]		6 mo–17 y;18–74 ySoft drinks
Sweden (2003) [56]4–9 ySyrups and soft drinksSyrupsSyrups, light
Soft drinksSoft drinks, light
Sweden (2016–17) [57]11–18 ySoft and energy drinksSoft drink with sugarSoft drink with sweetenerEnergy drink
Sweden (2010–11) [58]18–80 ySoft drinks, sports and energy drinksSoft drinks, sports and energy drinks with sugarSoft drinks, sports and energy drinks with sweetener
Switzerland (2014–15) [59]18–75 ySoft drinks (Sweetened and sugar-free soft drinks, sports and energy drinks, fizzy drinks, ice tea, diluted syrup, drinks made with fruit juices (e.g., lemonades, nectars), and alcoholic drink substitutes (e.g., alcohol-free beers), ‘schorle’ (i.e., juices mixed with water))
UK (2011) [60]4–18 mo Squash/soft drink (not low-calorie)Squash/soft drink (low-calorie)
UK 2016/2017–2018/2019 [61]1.5–18 y; 19–64 y; 65 y+ Sugar-sweetened soft drink (not low-calorie)
EFSA Categories [21] Soft drinks (not including functional drinks or drink mixes) Diet soft drinksEnergy drinksFunctional drinks and drink mixes
Bold denotes categorisations as per the original report, with any additional information not in bold. * included in total soft drinks category but not further categorised; mo: months; y: years.
Table
Table 2. Soft drink intake in infants and toddlers (<4 years) in the WHO European Region, as reported in National Dietary Surveys and by new categorisation.
Table 2. Soft drink intake in infants and toddlers (<4 years) in the WHO European Region, as reported in National Dietary Surveys and by new categorisation.
CountryMethodYear of SurveyAge Range (y)NSoft Drink CategoryMean (SD) (g/d)% ConsumersMean (SD) Consumers (g/d)Soft Drink Intake by New Category (g/d)
TotalWith SugarsReduced/No SugarsEnergy Drinks
Bulgaria [33]2 × 24 h recall20141–235Soft drink4 (17)
Cyprus [62] *3/4 day food record20141–2275Soft drinks0 (1)18 (2)1
Drink mixes0 (3)410 (9)
Estonia [63] *Food record, 24-h recall2014≤11 mo504Soft drinks0 (4)056 (63)11
1–226831 (69)3297 (92)
France [64] *3 × 24-h food record2014–20151–2139Soft drink30 (82)29106 (126)37
Drink mixes1 (2)87 (5)
Germany * [26]Food record2001≤11 mo159Soft drink19 (51)2674 (78)104
20061–2348Soft drinks143(214)72
Functional soft drinks0 (5)269 (20)
Hungary [65] *2 × 24 h food record and recall2018–20201–2535Soft drinks15 (71)8192 (182)29 2
of which diet2
Drink mixes2 (9)822 (24)
Iceland [39]3-day food record20073225Sweet fruit drinks48 (87) 61
Soft drinks13 (34)
Ireland [43]4-day food record2010–20111126Soft drinks not low calorie21 (66)2196 (115)1465096
Soft drinks low calorie68 (144)29233 (180)
2124Soft drinks not low calorie49 (103)42117 (131)
Soft drinks low calorie103 (181)45228 (210)
3126Soft drinks not low calorie52 (91)47111 (106)
Soft drinks low calorie104 (156)52198 (167)
4124Soft drinks not low calorie77 (181)53145 (228)
Soft drinks low calorie111 (177)50223 (196)
Italy [47]3-day food record2005–20060.1–2.952Soft drinks2 (10)3 (10)4 (10)2
Latvia [66] *2 × 24 h recall and food record2013≤11 mo171Soft drinks5 (25)593 (66)7
1–22428 (29)1083 (51)
Netherlands [49]2 × 24 h recall2012–20161–3672Carbonated/soft/isotonic drinks, diluted syrups38983a468 a389
Norway [50]Semi-quantitative FFQ20206 mo2182Total sugary drinks0 (2)118 (15)1899
Juice drink, sweetened0 (1)0.227 (24)
Soda, sweetened000
Juice drink, artificially sweetened00.517 (17)
Soda, artificially sweetened000
12 mo1957Sweet drinks (with added sugar)5 (31)11
Nectar1 (7)5
Juice with sugar5 (31)7
Soda with sugar1 (22)1
Artificial sweet drinks2 (15)7
Juice without sugar2 (15)6
Soda without sugar0 (1)1
21413Sweet drinks (with added sugar)40 (94)48
Nectar11 (42)19
Juice with sugar26 (75)36
Soda with sugar3 (12)9
Artificial sweet drinks32 (101)31
Juice without sugar29 (99)27
Soda without sugar3 (11)10
Slovenia [67] *2 × 24 h recall2017≤11 mo294Soft drinks0.1 (2)120 (25)11
1–2334312 (56)12101 (131)
Spain [54]2 × 1-day food record2012–20146–12 mo289Soft drinks0 2
1–3326Soft drinks2NRNR
Isotonic drink1 (12)0.3200 (141)
UK [60,61]4-day food record20114–6 mo329Squash/soft drink (not low-calorie)3 (14)643772453
Squash/soft drink (low-calorie)4 (26)757
7–9 mo630Squash/soft drink (not low-calorie)5 (24)955
Squash/soft drink (low-calorie)18 (72)18102
10–11 mo449Squash/soft drink (not low-calorie)15 (65)15104
Squash/soft drink (low-calorie)43 (123)26165
12–18 mo1275Squash/soft drink (not low-calorie)42 (119)26158
Squash/soft drink (low-calorie)87 (169)46189
2016/2017–2018/20191.5–3 y250Sugar-sweetened soft drink (not low-calorie)19 (62)
* denotes data obtained from EFSA Food Consumption database; mo: months; M: male, F: female, a: values represent %consumption days and mean for consumption days only; text in italic represents sub-categories of preceding category.
Table
Table 3. Soft drink intake in children (~4–10 y) in the WHO European Region, as reported in National Dietary Surveys and by new categorisation.
Table 3. Soft drink intake in children (~4–10 y) in the WHO European Region, as reported in National Dietary Surveys and by new categorisation.
CountryMethodYear of SurveyAge Range (y)NSoft Drink CategoryMean (SD) (g/d)% ConsumersMean (SD) Consumers (g/d)Soft Drink Intake by New Category (g/d)
TotalWith SugarsReduced/No SugarsEnergy Drinks
Austria [68] *Food record20123–9128Soft drinks97 (144)56172 (154)1039611
of which diet1
Functional drinks6 (37)3188 (105)
of which energy1 (7)183 (0)
Belgium [31]2 × 24 h recall2014–20153–5454Sugary drinks8444 117
6–953814551
Bulgaria [33]2 × 24 h recall20143–6272Soft drinks8 (32) 19
7–916737 (87)
Cyprus [62] *3/4 d record20143–9297Soft drinks11 (40)11105 (72)18
Drink mixes1 (5)416 (23)
Czech Rep [69] *2 × 24 h recall2003–20043–9389Soft drinks137 (210)51269 (227)193
Drink mixes8 (16)4318 (20)
Denmark [35]7-day record2011–20134–9 (M)216Cordial51 19911875
Fizzy soft drinks, sugar-sweetened69
Cider 0
Ice tea10
Juice, cordial, light42
Fizzy soft drinks, light27
4–9 (F)205Cordial57
Fizzy soft drinks, sugar-sweetened57
Juice, cordial, light55
Fizzy soft drinks, light26
Cider 1
Ice tea4
Estonia [63] *Food record, 24-h recall20143–9765Soft drinks56 (114)40139 (145)56
France [64] *3 × 24-h record2014–20153–9852Soft drinks83 (134)56148 (150)97
Drink mixes2 (9)1714 (16)
Germany [37]FFQ2014–2017 3–6 (M)1742Sugary soft drinks including energy drinks101 17713441
Reduced calorie soft drinks23
3–6 (F)1634Sugary soft drinks including energy drinks88
Reduced calorie soft drinks19
7–10 (M)1772Sugary soft drinks including energy drinks211
Reduced calorie soft drinks70
7–10 (F)1683Sugary soft drinks including energy drinks131
Reduced calorie soft drinks51
Hungary [65] *2 × 24 h record and recall2018–20203–9537Soft drinks46 (117)21218 (167)813412
of which diet12
Drink mixes5 (18)1630 (36)
Iceland [39,40,41]3-day record20075231Sweet fruit drinks56 (82) 179
Soft drinks32 (56)
3-day record2011–20126162Soda and soft drinks117 (129)
Soft drinks71 (99)
Soda46 (76)
2 × 24 h recall2003–20049183Soda and soft drinks349 (301)
Ireland [44]4-day food record2017–20185–12600Soft drinks with added sugar50 (93)40124 (111)16050110
Soft drink with no added sugar110 (201)47235 (240)
Italy [47]3-day record2005–20063–9.9193Soft drinks28 (53) 3287 (59)28
Latvia [66] *2 × 24 h recall and records20133–9782Soft drinks24 (63)19126 (91)24
Netherlands [49]2 × 24 h recall2012–20164–8520Carbonated/soft/isotonic drinks, diluted syrups51591 a567 a515
Norway [51]4-day record20159636Sweet drinks with added sugar145 (149) 19514550
Light juice drinks/soda50 (93)
Portugal [53]2-day record2015–20163–91327Soft drinks56724856
Nectars201203
Spain [54]2 × 1-day record2012–20144–9556Soft drinks25 (86)10253 (127)29
Isotonic drinks4 (36)2270 (87)
Sweden [56]4-day record20034590Syrups and soft drinks187 (149)94 22019620
Syrups105 (122)76
Soft drinks63 (76)61
Syrups, light12 (42)13
Soft drinks, light3 (17)5
8–9889Syrups and soft drinks242 (178)92
Syrups104 (124)66
Soft drinks110 (113)70
Syrups, light15 (57)12
Soft drinks, light8 (34)7
UK [61]4-day record2016/2017–2018/20194–10 Sugar-sweetened soft drink (not low-calorie)52 (111) 52
* denotes data obtained from EFSA Food Consumption database, M: male, F: female, a: values represent %consumption days and mean for consumption days only, text in italic shows sub-categories of preceding category.
Table
Table 4. Soft drink intake in adolescents (~11–17 y) in the WHO European Region, as reported in National Dietary Surveys and by new categorisation.
Table 4. Soft drink intake in adolescents (~11–17 y) in the WHO European Region, as reported in National Dietary Surveys and by new categorisation.
CountryMethodYear of SurveyAge Range (y)NSoft Drink CategoryMean (SD) (g/d)% ConsumersMean (SD) Consumers (g/d)Soft Drink Intake by New Category (g/d)
TotalWith SugarsReduced/No SugarsEnergy Drinks
Andorra [29]24 h recall + 2 × 24 h records2017–201812–24155Soft drinks112 (225) 112
Austria [70] *2 × 24 h recall201810–17574Soft drinks146 (263)40363 (305)15614248
of which diet4
Functional drinks10 (48)5201 (95)
of which energy8 (43)4192 (93)
Belgium [31]2 × 24 h recall2014–201510–13449Sugary drinks200 (95% CI 191–220)60 221
14–17479241 (227–265)67
Bulgaria [33]2 × 24 h recall201410–13187Soft drinks71 (142) 90
14–18338101 (187)
Cyprus [71] *2 × 24 h recall201410–17271Soft drinks45 (95)28163 (117)53 0
Drink mixes1 (9)624 (29)
Functional drinks1 (11)190 (74)
of which energy0 (5)083 (0)
Czech Rep [69] *2 × 24 h recall2003–200410–17298Soft drinks236 (322)65364 (336)292
Drink mixes8 (14)3920 (17)
Denmark [35]7-day record2011–201310–17 (M)251Cordial70 32121887
Fizzy soft drinks, sugar-sweetened186
Cider 6
Ice tea13
Juice, cordial, light39
Fizzy soft drinks, light58
10–17 (F)258Cordial58
Fizzy soft drinks, sugar-sweetened104
Cider 13
Ice tea18
Juice, cordial, light31
Fizzy soft drinks, light47
Estonia [72] *24-h recall201410–17300Soft drinks86 (151)45191 (175)86815
of which diet5
France [64] *3 × 24 h record/recall2014–201510–171130Soft drink127 (172)62207 (178)142 1
Drink mixes2 (7)1017 (15)
Functional drinks1 (16)1174 (116)
of which energy1 (12)1143 (92)
Germany [37]FFQ2014–2017 11–13 (M)1389Sugary soft drinks including energy drinks333 459354105
Reduced calorie soft drinks103
11–13 (F)1435Sugary soft drinks including energy drinks303
Reduced calorie soft drinks109
14–17 (M)1536Sugary soft drinks including energy drinks478
Reduced calorie soft drinks125
14–17 (F)1787Sugary soft drinks including energy drinks304
Reduced calorie soft drinks86
Greece [73] *2 × 24-h recall2010–201210–17274Soft drinks60 (113)30200 (123)625732
of which diet3
Functional drinks2 (16)1146 (39)
of which energy2 (16)1146 (39)
Hungary [74] *2 × 24 h recall2018–202010–17528Soft drinks109 (257)33334 (357)13968412
of which diet41
Drink mixes4 (21)1238 (49)
Functional drinks2 (18)2128 (45)
of which energy2 (18)2128 (45)
Iceland [41]2 × 24 h recall2003–200415183Soda and soft drinks553 (491) 553
Ireland [45]4-d record2019–202013–18428Soft drinks—with added sugar84 (152)45187 (180)164846911
Soft drinks—with no added sugar69 (146)31224 (185)
Energy drink11 (54)7169 (137)
Italy [47]3-day record2005–200610–17.9 (M)108Soft drinks98 (160)48203 (177)73
10–17.9 (F)13954 (91)41132 (100)
Latvia [66] *2 × 24 h recall + records201410–17620Soft drinks38 (94)22175 (130)38
Netherlands [49]2 × 24 h recall2012–20169–13519Carbonated/soft/isotonic drinks, diluted syrups64290 a712 a655
14–1852466785 a784 a
Norway [51]4-day record201513687Sweet drinks with added sugar204 (258) 27620472
Light juice drinks/soda72 (142)
Portugal [53]2 × 24 h recall2015–201610–17632Soft drinks16139371161
Nectars385264
Romania [75] *2 × 24 h recall201910–17356Soft drinks67 (161)25269 (221)67 0
Functional drinks0 (7)0125 (0)
of which energy0 (7)0125 (0)
Slovenia [67] *2 × 24 h recall2017–201810–17484Soft drinks71 (153)32225 (199)757013
of which diet1
Functional drinks3 (24)2176 (78)
of which energy3 (24)1187 (77)
Drink mixes0.1 (3)0.431 (42)
Spain [54]2 × 24 h recall2012–201410–17609Soft drink (total) 67NRNR76
Isotonic drink9 (68)3324 (245)
Sweden [57]2 × 24 h recall2016–201711–18 (M)1389Soft and energy drinks267 (349)67 2231882510
Soft drink with sugar229 (326)61
Soft drink with sweetener26 (103)10
Energy drink12 (59)5
11–18 (F)1710Soft and energy drinks187 (239)62
Soft drink with sugar154 (210)55
Soft drink with sweetener24 (87)11
Energy drink9 (47)5
UK [61]4-day record2016/2017–2018/201911–18542Sugar-sweetened soft drink (not low calorie)142 (199) 142
* denotes data obtained from EFSA Food Consumption database, M: male, F: female; a: values represent %consumption days and mean for consumption days only, text in italic shows sub-categories of preceding category.
Table
Table 5. Soft drink intake in adults(~18–64 y) in the WHO European Region, as reported in National Dietary Surveys and by new categorisation.
Table 5. Soft drink intake in adults(~18–64 y) in the WHO European Region, as reported in National Dietary Surveys and by new categorisation.
CountryMethodYear of SurveyAge Range (y)NSoft Drink CategoryMean (SD) (g/d)% ConsumersMean (SD) Consumers (g/d)Soft Drink Intake by New Category (g/d)
TotalWith SugarsReduced/No SugarsEnergy Drinks
Andorra [29]24 h recall + 2 × 24 h records2017–201812–751002Soft drinks73 (193) 73
Austria [30]2 × 24-h recall201718–64 (M)736Soft drinks248 (401) 167
18–64 (F)1282121 (262)
Belgium [31]2 × 24 h recall2014–201518–39620Sugary drinks209 (192–235)54 149
40–6460688 (76–103)29
Bulgaria [34]2 × 24 h recall201419–29480Soft drinks97 (213) 173 116
Energy drinks110 (104)
30–591536Soft drinks58 (153)
Energy drinks131 (109)
60–74733Soft drinks31 (106)
Energy drinks88 (107)
Croatia [76] *3 × 24 h recall2011–201218–642000Soft drinks95 (201)37255 (259)969411
of which diet1
Functional drinks1 (9)0126 (58)
of which energy1 (9)0126 (58)
Cyprus [71] *2 × 24 h recall201418–64272Soft drinks62 (116)32198 (127)91 14
Drink mixes2 (7)624 (13)
Functional drinks15 (145)4405 (676)
of which energy14 (145)3480 (745)
Czech Rep [69] *2 × 24 h recall2003–200418–641666Soft drinks109 (231)30358 (293)144
Drink mixes5 (21)1631 (43)
Denmark [35]7-day record2011–201318–75 (M)1464Cordial45 22111691
Fizzy soft drinks, sugar-sweetened110
Juice, cordial, light28
Fizzy soft drinks, light66
Cider 4
Ice tea10
18–75 (F)1552Cordial27
Fizzy soft drinks, sugar-sweetened52
Juice, cordial, light27
Fizzy soft drinks, light61
Cider 10
Ice tea5
Estonia [25]24-h recall 201418–74 (M)907Soft drinks, cordials, etc. 82 (159) 54
18–74 (F)180640 (137)
Finland [36]2 × 24 h recall201718–74 (M)780Juice drinks (sugar sweetened)60252391198831
Soft drinks sweetened with sugar5719305
Drinks with artificial sweeteners 3813303
Sports drinks, recovery drinksc4c
18–74 (F)875Juice drinks (sugar sweetened)3722167
Soft drinks sweetened with sugar2512202
Drinks with artificial sweeteners 2411211
Sports drinks, recovery drinksc4c
France [64] *3 × 24 h recall2014–201518–641773Soft drink86 (186)37231 (244)94 1
Drink mixes1 (5)714 (14)
Functional drinks1 (19)1164 (126)
of which energy1 (12)1155 (88)
Germany [38]Diet history interview, food records, 24-h recall2005–6 NVS II14–80 (M)7093Soft drinks, total224 (6.05 SE) 15112625
Sugary soft drinks193 (5.66)
Energy-reduced soft drinks31 (2.32)
14–80 (F)8278Soft drinks, total88 (3.06)
Sugary soft drinks68 (2.68)
Energy-reduced soft drinks20 (1.51)
Greece [73] *2 × 24-h recall2010–201218–64260Soft drink57 (127)25228 (160)595522
of which diet2
Functional drinks2 (16)1145 (36)
of which energy2 (16)1145 (36)
Drink mixes0 (2)039 (0)
Hungary [74] *2 × 24 h recall2018–202018–64529Soft drinks106 (244)29366 (331)14373339
of which diet33
Drink mixes4 (19)943 (52)
Functional drinks9 (51)4228 (125)
of which energy9 (51)4228 (125)
Iceland [42]2 × 24-h recall2010–201118–80 (M)632Soda and soft drinks274 (358) 23812883
Sugary soft drinks169 (288)
Sugar-free soft drinks66 (211)
Water drinks6 (37)
Fruit drinks29 (101)
Sports drinks4 (32)
18–80 (F)680Soda and soft drinks205 (317)
Sugary soft drinks89 (199)
Sugar-free soft drinks82 (245)
Water drinks11 (55)
Fruit drinks22 (76)
Sports drinks1 (23)
Ireland [46]4-day record2008–201018–641274Non-diet carbonated soft drinks82 (159)37223 (193)1188224
Diet carbonated soft drinks24 (79)14176 (142)
Squash, cordial and FJ drinks12 (41)1674 (77)
Italy [47]3-day record2005–200618–64 (M)1068Soft drinks35 (92)24147 (138)29
18–64 (F)124524 (62)21114 (90)
Latvia [25]2 × 24 h recall2018–202019–64 (M)470Soft drinks, cordials, etc. 128 92
19–64 (F)54161
Lithuania [48]1 × 24 h recall2013–201419–752513Soft drinks (with % fruit less than in nectars)20 (107 SE) 20
Netherlands [49]2 × 24 h recall2012–201619–792078Carbonated/soft/isotonic drinks, diluted syrups29150 a581 a291
Norway [52]2 × 24 h recall2010–201118–701787Juice drinks/soda240 (365) 240125112
18–70 (M)862Juice drinks/soda282 (396)
with sugar167 (301)
Light juice drinks/soda111 (277)
Juice drink/soda unspecified type4 (34)
18–70 (F)925Juice drinks/soda202 (329)
with sugar86 (207)
Light juice drinks/soda113 (268)
Juice drink/soda unspecified type2 (19)
Portugal [53]2 × 24 h recall2015–201618–643102Soft drinks10016342100
Nectars211257
Romania [75] *2 × 24 h recall201918–64740Soft drinks63 (192)19335 (325)636300
of which diet0.1 (3.7)0.1
Functional drinks0 (8)0145 (28)
of which energy0 (8)0145 (28)
Slovenia [67] *2 × 24 h recall2017–201818–64385Soft drinks43 (127)19223 (206)454212
of which diet1
Functional drinks2 (21)1227 (93)
of which energy1 (20)1265 (92)
Spain [55]2 × 24 h recall2014–201518–74933Soft drinks66 (163) 20338 (210)69
Isotonic drinks3 (37)1328 (161)
Sweden [58]4-day record2010–201118–801797Soft drinks, sports and energy drinks112 (196)51 1128427
Soft drinks, sports and energy drinks with sugar84 (148)44
Soft drinks, sports and energy drinks with sweetener27 (123)15
Switzerland [59] 2 × 24 h diet history2014–201518–752019Soft drinks241 241
UK [61]4-day record2016/2017–2018/201919–641082Sugar-sweetened soft drinks (not low calorie)106 (248) 106
* denotes data obtained from EFSA Food Consumption database, M: male, F: female; a: values represent %consumption days and mean for consumption days only; text in italic shows sub-categories of preceding category; c—denotes data not provided when <30 consumers.
Table
Table 6. Soft drink intake in older adults(~>65 y) in the WHO European Region, as reported in National Dietary Surveys and by new categorisation.
Table 6. Soft drink intake in older adults(~>65 y) in the WHO European Region, as reported in National Dietary Surveys and by new categorisation.
CountryMethodYear of SurveyAge Range (y)NSoft Drink CategoryMean (SD) (g/d)% ConsumersMean (SD) Consumers (g/d)Soft Drink Intake by New Category (g/d)
TotalWith SugarsReduced/No SugarsEnergy Drinks
Austria [68] *24-h recall2010–201265–7467Soft drinks34 (133)13254 (287)302452
of which diet5
Functional drinks2 (15)2125 (0)
of which energy2 (15)2125 (0)
75+25Soft drinks15 (55)8188 (88)
of which diet5
Belgium [32]2 × 24 h recall200460–74786Soft drinks59 (106) 493316
Soft drinks light20 (70)
75+ 694 Soft drinks37 (75)
Soft drinks light11 (41)
Bulgaria [34]2 × 24 h recall201475+228Soft drinks25 (76) 73 48
Energy drinks48 (68)
Cyprus [71] *2 × 24 h recall201465–74260Soft drinks31 (76)18175 (87)38
Drink mixes1 (6)718 (14)
Estonia [72] *24-h recall201465–74525Soft drinks11 (48)11103 (111)12
Functional drinks1 (28)0.4358 (400)
Finland [36]2 × 24 h recall201765–74 (M)204Sugared soft drinks and juices65 765917
Artificially sweetened beverages13
65–74 (F)247Sugared soft drinks and juices54
Artificially sweetened beverages21
France [64] *3 × 24 h recall2014–201565–74384Soft drinks26 (107)15178 (229)29
Drink mixes1 (7)818 (17)
75+118Soft drinks13 (48)13101 (97)
Drink mixes0.2 (2)212 (8)
Germany [38]Diet history interview, food record, 24-h recall2005–2006 NVS II65–80 (M)1234Soft drinks, total41 (4.43 SE) 31247
Sugary soft drinks31 (3.79)
Energy-reduced soft drinks10 (2.39)
65–80 (F)1705Soft drinks, total24 (3.05)
Sugary soft drinks19 (2.57)
Energy-reduced soft drinks5 (1.37)
Greece [73] *2 × 24-h recall2010–201265–74257Soft drinks27 (114)10277 (260)27261
of which diet1
Hungary [74,77] *2 × 24 h recall
Food record		2018–202065–74527Soft drinks35 (151)11326 (342)49 6
of which diet6
Drink mixes2 (14)443 (62)
200375+80Soft drinks46 (107)28167 (150)
Drink mixes0.2 (2)117 (0)
Ireland [46]4-day record2008–201065+ (M)106Non-diet carbonated soft drinks11 (38)10103 (65)1988
Diet carbonated soft drinks12 (99)3419 (505)
Squash, cordial and FJ drinks3 (16)556 (58)
65+ (F)120Non-diet carbonated soft drinks6 (22)871 (38)
Diet carbonated soft drinks4 (30)2218 (116)
Squash, cordial and FJ drinks3 (13)644 (38)
Italy [47]3-day record2005–200665+ (M)202Soft drinks6 (25)7.483 (50)8
65+ (F)3169 (41)6.3134 (103)
Latvia [66] *2 × 24 h recall + diaries201465–74300Soft drinks26 (98)12221 (195)27
Drink mixes0.1 (0.3)0.36 (0)
Lithuania [48]1 × 24 h recall2013–201465–75300Soft drinks (with %fruit less than in nectars)9 (46 SE) 9
Netherlands [49]2 × 24 h recall2012–201671–79517Carbonated/soft/isotonic drinks, diluted syrups9830 a321 a98
Norway [52]2 × 24 h recall2010–201160–70 (M)217Juice drinks/soda132 (245) 113
60–70 (F)16488 (188)
Portugal [53]2 × 24 h recall2015–201665–84750Soft drinks26027326
Nectars80230
Romania [75] *2 × 24 h recall201965–74356Soft drinks20 (101)8240 (261)20200
of which diet0.1
Slovenia [67] *2 × 24 h recall2017–201865–74450Soft drinks23 (114)9243 (294)23230
of which diet0.4
Spain [55]2 × 24 h recall2014–201565–74314Soft drinks 24 (80)12202 (135)28
Isotonic drinks4 (5)1425 (0)
Sweden [58]4-day record2010–201165–80367Soft drinks, sports and energy drinks50 (96) 50
Switzerland [59]2 × 24 h diet history2014–201565–75336Soft drinks106 106
UK [61]4-day record2016/2017–2018/201965+335Sugar-sweetened soft drinks (not low calorie)34 (90) 34
* denotes data obtained from EFSA Food Consumption database, M: male, F: female a: values represent %consumption days and mean for consumption days only, text in italic shows sub-categories of preceding category.
Table
Table 7. Change in soft drink intake over time in the WHO European Region as reported in National Dietary Surveys.
Table 7. Change in soft drink intake over time in the WHO European Region as reported in National Dietary Surveys.
Age GroupCountryAge RangePrevious Survey YearMost Recent Survey YearSoft Drink Category Mean (g/d) Previous Mean (g/d) Most Recent% ChangeDirection of Change
Infants and toddlersBulgaria [33]1–219982014Soft drinkNR4NR↓ *
Norway [50,78,79]12 mo2006–20072020Sweet drinks (with added sugar)14564
Artificial sweet drinks9278
220072020Sweet drinks (with added sugar)604033
Artificial sweet drinks2932−10~=
UK [61,80]1.5–3 y2014/2015–2015/20162016/2017–2018/2019Soft drink (not low-calorie)371949
ChildrenBulgaria [33]3–619982014Soft drinkNR8NR↓ *
7–9NR37NR↓ *
Denmark [35]4–142003–20062011–2013Sugar-sweetened soft drinksNRNRNR↓ *
Germany [37]3–6 M2003–20062014–2017Soft drinks including energy drinks17510142
3–6 F1548843
3–6 MReduced calorie soft drinks2023−15~=
3–6 F281932
7–10 MSoft drinks including energy drinks30121130
7–10 F25513149
7–10 MReduced calorie soft drinks5770−23
7–10 F2951−76
Ireland [46,81]5–122003–20042017–2018Soft drinks with added sugar2525080
Soft drinks with no added sugar78110−41
Norway [51,82]9 M20002015Sweet drinks (with added sugar)32314555
9 F30214552
9 MArtificial sweet drinks47462~=
9 F4455−25
UK [61,80]4–102014/2015–2015/20162016/2017–2018/2019Soft drinks (not low-calorie)835237
AdolescentsBulgaria [33]10–1319982014Soft drinkNR71NR↓*
14–18NR101NR↓ *
Germany [37]11–13 M2003–20062014–2017Soft drinks including energy drinks43933324
11–13 F3123033~=
11–13 MReduced calorie soft drinks54103−91
11–13 F77109−42
14–17 MSoft drinks including energy drinks67747829
14–17 F41330426
14–17 MReduced calorie soft drinks74125−69
14–17 F7786−12
Ireland [45]13–182005–20062019–2020Soft drinks with added sugar2138361
Soft drinks with no added sugar2556−124
Energy drinks111−1000
Norway [51,82]13 M20002015Sweet drinks (with added sugar)49923154
13 F36317951
13 MArtificial sweet drinks5583−51
13 F5462−15
Sweden [56,57]11–12 (M)20032016–2017Soft drinks containing sugars21317816
11–12 (F)20814729
UK [61,80]11–18 2014/2015–2015/20162016/2017–2018/2019Soft drinks (not low-calorie)19114226
AdultsAndorra [29]15–7520052017–2018Soft drinks1607354
Belgium [31,32]15–6420042014Sugary drinks17715015
Bulgaria [34]19–2919982014Soft drinkNR97NR↓ *
30–59NR58NR↓ *
60–74NR31NR↓ *
Denmark [35]15–752003–20062011–2013Sugar-sweetened sodasNRNRNR↓ *
Iceland [42,83]18–8020022010–2011Soft drinks, total2612389
Ireland [46,81]18–641997–19992008–2010Non-diet carbonated86825~=
Diet carbonated352431
Other (squashes, cordials and fruit juice drinks)201240
UK [61,80]19–642014/2015–2015/20162016/2017–2018/2019Soft drinks (not low-calorie)12910618
Older adultsBulgaria [34]75+19982014Soft drinkNR25 ↓ *
UK [61,80]65+2014/2015–2015/20162016/2017–2018/2019Soft drinks (not low-calorie)403415
* Recent reports report a decrease in this category. ~= denotes approximately equal to.
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Walton, J.; Wittekind, A. Soft Drink Intake in Europe—A Review of Data from Nationally Representative Food Consumption Surveys. Nutrients 2023, 15, 1368. https://doi.org/10.3390/nu15061368

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Walton J, Wittekind A. Soft Drink Intake in Europe—A Review of Data from Nationally Representative Food Consumption Surveys. Nutrients. 2023; 15(6):1368. https://doi.org/10.3390/nu15061368

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Walton, Janette, and Anna Wittekind. 2023. "Soft Drink Intake in Europe—A Review of Data from Nationally Representative Food Consumption Surveys" Nutrients 15, no. 6: 1368. https://doi.org/10.3390/nu15061368

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