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Identifying vegetarians and their food consumption according to self-identification and operationalized definition in Finland

Published online by Cambridge University Press:  01 April 2009

Markus Vinnari*
Affiliation:
Turku School of Economics, Finland Futures Research Centre, Hämeenkatu 7 D, FI-33100 Tampere, Finland
Jukka Montonen
Affiliation:
National Public Health Institute, Department of Health and Functional Capacity, Helsinki, Finland
Tommi Härkänen
Affiliation:
National Public Health Institute, Department of Health and Functional Capacity, Helsinki, Finland
Satu Männistö
Affiliation:
National Public Health Institute, Department of Health Promotion and Chronic Diseases Prevention, Helsinki, Finland
*
*Corresponding author: Email [email protected]
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Abstract

Objectives

To determine the prevalence and sociodemographic factors related to vegetarians according to different definitions in Finland and to compare the consumption of selected foodstuffs and nutritional intakes among vegetarians and omnivores.

Design

Information about subjects’ identification as vegetarians in a survey was used as a basis for self-defined vegetarianism. Foodstuffs consumed and their frequencies of consumption were obtained, and the reported consumption frequencies of meat, fish, milk and eggs or food portions containing these foodstuffs were used as a basis for an operationalized definition of different types of vegetarianism. Reported consumption was used to estimate foodstuff and nutritional intakes.

Setting

Three large nationwide surveys in Finland.

Subjects

In total, 24 393 participants aged between 18 and 79 years were included.

Results

The proportion of self-identified vegetarians was 3·3 % of the total population in Finland. According to responses to questions on consumption frequency, 1·4 % of the population were pesco-lacto-ovo-vegetarians, 0·43 % were vegans, lacto-vegetarians or lacto-ovo-vegetarians, and 0·18 % were vegans or lacto-vegetarians. Eighty per cent of the self-identified vegetarians did not follow a vegetarian diet according to the operationalized definition, but they consumed fewer meat products (P < 0·01).

Conclusion

Some self-defined vegetarians do consume red meat, poultry or fish, but they follow a healthier diet than self-defined omnivores. In the same sample self-identification indicated more than double the incidence of vegetarianism than the operationalized definition. Therefore self-identification is not a good method for observing the prevalence of vegetarianism.

Type
Research Paper
Copyright
Copyright © The Authors 2008

There is wide variation in the definition of a vegetarian diet(Reference Weinsier13). Some definitions consider the exclusion of certain foodstuffs as the defining principle of vegetarianism. In the scientific literature, the term pesco-lacto-ovo-vegetarian (PLOV) signifies a person who consumes fish, milk, eggs and plant-based substances, but no meat or poultry. Sometimes the term vegetarian is understood to mean a person consuming plant-based substances, milk and eggs, i.e. lacto-ovo-vegetarian (LOV), but no fish, poultry or meat. A person who consumes only plant-based substances is considered a vegan. In other definitions consumption frequency is the defining factor. Some people use the term semi-vegetarian (SV) to describe a person who consumes meat products very rarely(Reference Maurer4), while others define vegetarianism as a diet according to which meat, poultry or fish is eaten less than once a week(Reference Sabate, Ratzin-Turner and Brown5, Reference Phillips6).

The numbers of vegetarians, and especially of the different types, in Western countries are not known because estimates have been based on rather small samples or there has been wide variation in sampling methods(Reference White and Frank7Reference Key, Appleby and Rosell9). According to the results of previous studies in the European Union, the prevalence of self-identified vegetarians is about 3 to 5 % of the total population(10). In Great Britain, according to different surveys(11, Reference Henderson, Gregory and Swan12), it is between 5 and 7 %. Self-identification surveys in the USA have given high percentage rates of vegetarians (7 %) in the total population(Reference Dietz, Stirling, Kalof, Stern and Guagnano13), but some prevalence studies have put the number as low as 2 %(Reference Sabate, Ratzin-Turner and Brown5). In Finland only some rough estimates have been made, and the assumed proportion is about 2–3 % of the total population(Reference Vartiainen, Jousilahti, Juolevi, Sundvall, Alfthan, Salminen and Puska1416). A Finnish survey of 12–18-year-olds estimated the incidence of self-identified vegetarianism as 9·9 % for girls and 1·7 % for boys in 2001(Reference Kosonen, Rimpelä, Rauma, Väisänen, Pere, Virtanen and Rimpelä17). What seems likely is that its prevalence has increased substantially during the last few decades in the Western world(Reference Sabate, Ratzin-Turner and Brown5, Reference Phillips6). It has been reported that this growth is likely to continue in the future because of technological, social and economic developments(18).

Vegetarianism has raised a lot of interest in the medical context because of its possible effects in terms of decreasing risks from disease such as heart disease, various cancers and type 2 diabetes(Reference Key and Appleby19Reference Montonen, Knekt, Järvinen, Aromaa and Reunanen24). A link between lower BMI and vegetarianism has also consistently been reported(Reference Key, Fraser and Thorogood25Reference Newby, Tucker and Wolk27), as well as an overall decline in mortality(Reference Key, Thorogood, Burr, Mann and Appleby28). Even though the health effects of vegetarianism and veganism are largely acknowledged, some uncertainties remain(Reference Fraser29, Reference Willett30), especially with regard to sufficient vitamin B12 and vitamin D concentrations in the diet(Reference Herrmann, Schorr, Obeid and Geisel31, Reference Parsons, van Dusseldorp, van der Vliet, van de Werken, Schaafsma and van Staveren32).

The present paper investigates the prevalence and sociodemographic variables of self-identified vegetarians, and of LOV, PLOV and self-identified omnivores who consume vegetarian meals. The assumption in this research is that lay persons’ definitions of a vegetarian diet differ from expert definitions and information is needed regarding which sociodemographic group’s definition differs most from the scientific definition. This is important in order to target health promotion and health policies correctly to different groups. The aim of the research was to promote understanding of the limitations involved in using self-identification as a basis for estimating health effects in larger populations, especially since vegetarianism is expected to increase in the future. The last part of the paper concentrates on reviewing the intake of selected food types and their nutritional value in different vegetarian groups.

Subjects and method

Subjects

The data for the current study were drawn from three sources: the National FINRISK 1997 and 2002 studies and the Health 2000 Health Examination Survey. National FINRISK is a population-based risk factor survey, which has been carried out every five years since 1972 in Finland. The National FINRISK surveys utilize stratified random samples drawn from five areas in Finland: Helsinki and Vantaa (the metropolitan area), the cities of Turku and Loimaa as well as some rural communities in Loimaa, and the provinces of North Karelia, North Savo and Oulu. The study protocol includes health examinations and health questionnaires(Reference Vartiainen, Jousilahti, Juolevi, Sundvall, Alfthan, Salminen and Puska14). The 1997 study sample comprised 11 000 persons aged 25–74 years, of whom 7159 (65 %) participated in the study(Reference Vartiainen, Jousilahti, Juolevi, Sundvall, Alfthan, Salminen and Puska14). A further random sample of 1500 persons aged 65–74 years in two administrative areas in Finland was also included, and 1288 (86 %) of them participated in the study. The FINRISK 2002 sample comprised 13 437 persons, of whom 9580 (71 %) participated in the health examination or at least returned the questionnaire(Reference Laatikainen, Tapanainen, Alftan, Salminen, Sundvall, Leiviskä, Harald, Jousilahti, Salomaa and Vartiainen15).

The nationwide Health 2000 Health Examination Survey (Health 2000) was carried out in Finland in 2000–2001 in eighty regions, incorporating fifteen of the bigger cities(Reference Heistaro33). The study comprised many questionnaires, an extensive interview and a comprehensive health examination including laboratory and functional capacity tests as well as a thorough clinical examination(Reference Aromaa and Koskinen34). The sample of persons aged 30 years or over comprised 8028 individuals, of whom 6986 (87 %) were interviewed in their home or in an institution. Overall, 84 % participated either in the health examination or in the examination at home. The sample of 18–29-year-olds comprised 1900 individuals, of whom 1503 (79 %) participated in the health interview and 1282 returned the health questionnaire given at the interview(Reference Koskinen, Kestilä, Martelin and Aromaa35). An FFQ was given at the end of the examination or the interview, and the participants were asked to return it by mail. A total of 6787 persons aged 18 years or above participated in the dietary study. After exclusion of those aged over 80 years, data were available for 6366 persons. The data set of the present study, pooled from the three nationwide surveys, comprised 24 393 individuals (data available for 24044 individuals) following the exclusion of those who gave invalid data on their self-defined vegetarian status or their dietary habits.

Questionnaires

In all three surveys, information on the participants’ demographic and socio-economic background, including education, family size, marital status and subjective health, was collected during the health interview and in the questionnaires. The level of education was assessed using information on formal schooling and vocational training. Education was categorized as low, moderate or high for the analyses. Those with no vocational training beyond a vocational course or on-the-job training, and who had not taken the matriculation examination, were classified as having a low education. Vocational training was defined as secondary education regardless of the basic education. Moreover, those who had passed the matriculation examination but who had no vocational training beyond a vocational course or on-the-job training were also classified in this moderate group. High education comprised degree studies at higher vocational institutions, polytechnics and universities. Marital status was categorized as married, co-habiting, divorced, widowed and single. The participants were also asked to assess their own health status on a five-category scale ranging from very bad to very good. This subjective health was further categorized as good or rather good, moderate, and bad or rather bad. The National FINRISK 2002 study and the Health 2000 survey also provided data on the potential use of dietary supplements.

Self-defined vegetarian status was defined on the basis of the question ‘Do you consider yourself to be a vegetarian?’ in the National FINRISK 1997 and 2002 surveys, and on the basis of the vegetarian diet option on the list of special diets in the Health 2000 survey.

The questionnaires in the National FINRISK surveys included a food-frequency section including forty foods or food items. The six frequency categories ranged from ‘never or less than once per month’ to ‘once or more per day’. The dietary data in Health 2000 were obtained from a self-administered, semi-quantitative FFQ, which included 128 food items selected on the basis of experiences from previous studies to assess the whole diet over the previous 12 months. The nine frequency categories ranged from ‘never or rarely’ to ‘six or more times per day’. The validity of the FFQ was assessed and the data collected appeared to meet the requirements of epidemiological studies(Reference Paalanen, Männistö, Virtanen, Knekt, Räsänen, Montonen and Pietinen36).

The participants were divided into consumers or non-consumers of each food on the basis of their responses to the FFQ. Those who reported once per month or more were considered consumers and those who indicated less than once per month or rarely were considered non-consumers. Three commonly used categories of vegetarianism(Reference Maurer4Reference Phillips6) were formed on the basis of reported consumption according to the questionnaire as follows: (i) vegans or lacto-vegetarians were defined as persons who ate meat products, eggs or fish less than once per month; (ii) vegans or lacto-ovo-vegetarians (LOV) were defined as persons eating vegetarian food, including dairy products and sometimes eggs, but no meat, poultry or fish; and (iii) vegans or lacto-ovo-vegetarians or pesco-lacto-ovo-vegetarians (PLOV) were defined as those eating vegetarian food, and also dairy products and eggs as well as fish, but no meat or poultry.

The dietary data from Health 2000 were used to describe dietary habits according to vegetarian status. Food consumption was converted into g/d by multiplying the frequency of consumption by fixed portion sizes. The ingredients of mixed foods were broken down into their components. The contents of different nutrients in food items were estimated using the Finnish Food Composition Database release 2 (National Public Health Institute, Helsinki, Finland).

Statistical analyses

Sample characteristics are described in terms of means and standard deviations for continuous variables, and frequencies (percentage) for categorical variables. Prevalence estimates adjusted for age, gender and the year of the study were estimated using a linear model(Reference Cohen and Cohen37). The statistical significance of the differences between prevalences was tested using the likelihood-ratio test based on the model. The SAS/STAT statistical software package version 8·02 (SAS Institute Inc., Cary, NC, USA) was used for the statistical analyses.

Results

Prevalence

Of the 24 393 respondents (data about self-identified vegetarian status was available for 24044 respondents), 783 (3·3 %) considered themselves to be vegetarian (Table 1). However the FFQ revealed that, according to the foodstuffs consumed, only 332 participants (1·4 %) in total followed a PLOV or stricter diet, and 104 (0·43 %) followed a LOV or stricter diet. The percentage of female vegetarians was more than double the percentage of males in all of the operationalized definition groups. The percentage of males grew in all of these groups between 1997 and 2002, but there were no significant changes among the females. All in all, there were no large differences in the total proportions of vegetarians between the different samplings utilized in the research.

Table 1 The prevalence of vegetarianism in three nationwide surveys in Finland

*Meat products, eggs or fish less than once per month.

†Meat products and fish less than once per month.

‡Meat products less than once per month.

§Data available for 24044 persons.

Socio-economic factors related to different groups

The differences between self-defined vegetarians and those (PLOV and LOV) fitting the operationalized definition are presented in Table 2, which indicates the prevalence of these groups according to personal characteristics. However defined, vegetarians were mainly younger and predominantly women from the southern part of Finland. Vegetarianism was also more prevalent among single, divorced and widowed people. PLOV had a particularly high level of education and they were often also supplement users. No statistically significant differences in subjective health experiences were found among the vegetarians. Differences between the two definitional groups were evident in the large number of self-defined vegetarians in the older (60–79 years) age group. PLOV and LOV prevalence increased with level of education, but self-identified vegetarianism was also high among the less educated.

Table 2 Multivariate adjustedFootnote * prevalence of vegetarianism, self-defined and operationalized from the FFQ, according to personal characteristics: combined data from three nationwide surveys in Finland (n 24 393)

* Adjusted for age, gender and year of the study.

Vegan or lacto-ovo-vegetarian.

Not adjusted for gender.

§ Not adjusted for age.

Data not available in FINRISK 1997 (available for 15 045 persons).

The personal characteristics of those of vegetarian status according to the operationalized definition are presented in Table 3. A very large proportion of PLOV and LOV in the present study were women (75·6 and 78·1 %, respectively) compared with omnivores (52·2 %), they were younger and a considerable number of them had the highest educational level. They also considered their health to be good, and were often supplement users. The two groups were quite similar in characteristics except that PLOV had higher educational levels (37·6 % belonged to the highest group).

Table 3 Multivariate adjustedFootnote * distribution of personal characteristics according to operationalized vegetarian status from the FFQ: combined data from three nationwide surveys in Finland (n 24 393)

* Adjusted for age, gender and year of the study.

Vegan or lacto-ovo-vegetarian.

Not adjusted for gender.

§ Not adjusted for age.

Data not available in FINRISK 1997 (available for 15045 persons).

The majority (80·0 %) of the self-defined vegetarians were omnivores according to the operationalized definition (Table 4). According to the FFQ responses, these so-called vegetarians differed from PLOV in age (they were older) and gender distribution (which was much closer to that of the general population). There were also fewer people who felt that their subjective health was good or rather good in this group than in any other group in the study. People who considered themselves omnivores but followed a PLOV diet had a high level of education and were predominantly single. Among the self-defined vegetarians those who followed a vegetarian diet, according to the FFQ, were more likely to be supplement users (75·5 %) than those in the omnivore group (52·6 %).

Table 4 DistributionFootnote * of personal characteristics according to self-defined vegetarian status: combined data from three nationwide surveys in Finland (n 24 393)

* Adjusted for age, gender and year of the study.

According to FFQ.

Not adjusted for gender.

§ Not adjusted for age.

Data not available in FINRISK 1997 (available for 15 045 persons).

Food intakes

The mean daily intakes of selected food items and nutrients adjusted for age, gender and energy intake are presented in Table 5. PLOV consumed higher amounts of grains and especially rye than subjects in the other groups. They also ate more vegetables (429 g/d) than the omnivores (276 g/d). They did not consume larger amounts of milk products than those in the other groups, but they did consume more cheese. They also consumed more fish. PLOV consumed some meat and meat products. An analysis of the crude numbers (data not displayed) showed that their unadjusted consumption of meat was 13·9 g/d and their consumption of poultry 1·0 g/d. There were no significant differences between the groups in the consumption of fat, butter and confectionery products. The self-defined vegetarians differed from the omnivores in their higher vegetable (409 g/d) and lower meat (103 g/d) consumption. Despite their perception of themselves as vegetarians, they included a considerable amount of meat in their diet. Among self-defined vegetarians the unadjusted consumption of meat and meat products was 88·9 g/d.

Table 5 Mean daily intakesFootnote * (and standard deviations) of selected food items and nutrients in Finnish vegetarians and omnivores, according to the operationalized definition and self-definition in the Health 2000 survey

* Adjusted for age, gender and energy intake.

According to the FFQ.

Nutrient intakes

There were no significant differences between PLOV and omnivores in the intake of nutrients. The former consumed less energy and their fibre intake was higher. There were differences in energy sources between the self-defined vegetarians and the omnivores: the distribution (carbohydrates–proteins–fats) of energy intake was 45:17:36 for the latter and 50:16:34 for the former. Both self-identified vegetarians and PLOV obtained more energy from carbohydrates and less from fat. The intake SFA and MUFA was smaller among PLOV and self-defined vegetarians than among omnivores, but there were no differences in PUFA intake. Fibre intake was higher among PLOV and self-defined vegetarians, but there were no significant differences between the groups in the intake of Ca and Fe. Vitamin B12 intake was smaller among the self-identified vegetarians (8·5 μg/d) and PLOV (8·0 μg/d) than among the omnivores (9·9 μg/d), and there were no significant differences in vitamin D intake.

Discussion

The results of the present study reveal a large discrepancy in the number of vegetarians in society depending on whether the calculation is based on self-definition or operationalized definition: in the former case, the proportion of vegetarians in the whole population was 3·3 %, but only 0·43 % for LOV and 1·4 % for PLOV when the operationalized definition was used. Self-identification seems to give estimates that are double those calculated from the FFQ. This difference can probably be partly explained by the ambiguous interpretation of the term vegetarian. In particular, there were many self-identified vegetarians in the group with lower educational status and in the elderly. One could draw the conclusion that at least some of them confused the question ‘Do you follow any special diet – such as a vegetarian diet?’ with the question ‘Do you include vegetables in your diet?’ Another explanatory factor could be that vegetarianism is considered a positive behaviour and people want to relate to it, even though they do not eat only vegetarian food(Reference Povey, Wellens and Conner38).

The discrepancy between the operationalized definition and self-identification decreased slightly between the years of the surveys (1997–2002), which may mean that knowledge about what is meant by a vegetarian way of eating has increased. On the other hand, it cannot be ruled out that this reduction might instead be due to the different ways of asking about vegetarianism used in the surveys and also the fact that persons aged 18–25 years were included in the Health 2000 survey but not in the FINRISK surveys. Previous studies in England have identified vegetarians as likely to be female, well educated and living in the southern part of the country(Reference Keane and Willets39). The present results suggest that similar characteristics describe Finnish vegetarians in all groups. These differences can be partly explained by the higher rate of urbanization. The higher prevalence of vegetarianism among women has often been explained by the perceived masculinity of meat as a food(Reference Twigg40). Single women also have more freedom to choose their diet, which may partly explain the high proportion of single people among vegetarians. Vegetarians (PLOV and LOV) were also characterized by good subjective health and supplement usage. However, some people who followed a PLOV or a stricter diet according to the operationalized definition did not consider themselves vegetarian. There may be several explanations for this: they do not see themselves as vegetarians because they eat fish or they consume meat products at very low frequencies, such as when visiting relatives.

An analysis of the mean daily intakes of selected food items showed that PLOV consumed higher amounts of grains, vegetables, fish and cheese than the other groups. There were differences between the self-defined vegetarians and the omnivores in terms of higher vegetable consumption and lower meat consumption among the former. A small amount of meat was observed in the diet of PLOV and self-defined vegetarians apparently resulting from rare consumption or the standard recipe file used to break down the mixed foods.

Energy sources differed between self-defined vegetarians and omnivores, and both the former and PLOV obtained a larger proportion of energy from carbohydrates and a lower proportion from fat. Their fibre intake was also higher than among the other vegetarians. Furthermore, their vitamin B12 intake was lower than that of the total population, but much above the critical level of 2 μg/d(Reference Phillips6). There were no significant differences in vitamin D intake among the groups.

Knowledge of the prevalence of vegetarianism on the national level is currently limited. A large sample was used in the current study in order to produce more reliable estimates. There are some limitations, however. Our data did not include children (0–18 years), which could have lowered the prevalence numbers because vegetarianism is popular among young girls(Reference Kosonen, Rimpelä, Rauma, Väisänen, Pere, Virtanen and Rimpelä17). There were also differences between the frequency categories in the samples, and there was no ‘never use’ category in the consumption frequency questionnaires. Nutritional intake also differs by individual, so there is a danger of generalization when average data are utilized. Adjusting nutrient intakes according to energy intake affected the consumption to some degree and resulted in higher meat consumption among PLOV, for example.

Some studies have used self-definition as a way of examining a vegetarian way of eating(Reference Haddad and Tanzman41) and have concluded that self-identified vegetarians follow healthier diets than the general population. The conclusion in the current study is that both PLOV and self-defined vegetarians follow a healthier diet than the general population. In addition, however, it is important to note that 80 % of the self-identified vegetarians did not follow a vegetarian diet according the operationalized definition; in the same sample self-identification gave more than double the incidence of vegetarianism thus defined. This can mean at least three things: (i) that lay persons’ definition of vegetarianism differs from the expert definition; (ii) that people do not know what food products they consume; or (iii) that some consumers want to identify themselves as vegetarian even though they consume meat. Related to the first point it would be important for a nutritionist to investigate in depth what a person means by a vegetarian diet before giving any nutritional advice. This is especially important in the case of older and less educated people. Related to the second point it could be useful to have vegetarian and vegan labels on food products, so that consumers would have a better understanding of what they are actually consuming. What is certain, however, is that self-identification is not a good method for observing the prevalence of vegetarianism at national level, and should be used with caution in identifying its health effects in certain groups.

Acknowledgements

We express our deep appreciation to the participants and staff of the National FINRISK 1997, 2002 and Health 2000 studies. Writing of this paper was funded by Academy of Finland BRIGADE project.

M.V. designed the study, with the help of J.M. J.M., T.H. and S.M. were involved in the acquisition of the data and M.V., J.M. and S.M. carried out the interpretation. J.M. and T.H. conducted the statistical analyses of the FINRISK 1997, 2002 and Health 2000 data. M.V. wrote the manuscript collaboratively with all the co-authors.

The authors declare no conflict of interest.

References

1.Weinsier, RL (2000) Use of the term vegetarian. Am J Clin Nutr 71, 12111212.CrossRefGoogle ScholarPubMed
2.Spencer, C (1993) The Heretic’s Feast: History of Vegetarianism. London: Fourth Estate & University Press of New England.Google Scholar
3.Oxford English Dictionary (1989) Oxford: Oxford University Press.Google Scholar
4.Maurer, D (2002) Vegetarianism: Movement or Moment? Philadelphia, PA: Temple University Press.Google Scholar
5.Sabate, J, Ratzin-Turner, R & Brown, J (2001) Vegetarian diets: description and trends. In Vegetarian Nutrition, pp. 3–18 [J Sabate, editor]. Boca Raton, FL: CRC Press.CrossRefGoogle Scholar
6.Phillips, F (2005) Vegetarian nutrition. Nutr Bull 30, 132167.CrossRefGoogle Scholar
7.White, R & Frank, E (1994) Health effects and prevalence of vegetarianism. West J Med 160, 465471.Google ScholarPubMed
8.Larsson, CL, Klock, KS, Åstrøm, AN, Haugejorden, O & Johansson, G (2001) Food habits of young Swedish and Norwegian vegetarians and omnivores. Public Health Nutr 4, 10051014.CrossRefGoogle ScholarPubMed
9.Key, TJ, Appleby, PN & Rosell, MS (2006) Health effects of vegetarian and vegan diets. Proc Nutr Soc 65, 3541.CrossRefGoogle ScholarPubMed
10.Food Standards Agency (2004) Consumer Attitudes to Food Standards Wave 4. UK Report prepared for the Food Standards Agency and COI Communications. COI Ref. 257960. London: TNS.Google Scholar
11. The Vegetarian Society (not dated) Statistics Information Sheet. http://www.vegsoc.org/info/statveg.html (accessed April 2007).Google Scholar
12.Henderson, L, Gregory, J & Swan, G (2002) National Diet and Nutrition Survey: Adults Aged 19–64 Years. vol. 1: Types and Quantities of Foods Consumed. London: The Stationery Office.Google Scholar
13.Dietz, T, Stirling, F, Kalof, L, Stern, P & Guagnano, G (1995) Values and vegetarianism: an exploratory analysis. Rural Sociol 60, 533542.CrossRefGoogle Scholar
14.Vartiainen, E, Jousilahti, P, Juolevi, A, Sundvall, J, Alfthan, G, Salminen, I & Puska, P (1998) FINRISKI 1997. Tutkimus kroonisten kansantautien riskitekijöistä, niihin liittyvistä elintavoista, oireista ja terveyspalvelujen käytöstä (FINRISKI 1997. A National Study of Risk Factors of Chronic Diseases, Life-Style, Symptoms and Use of Health Care Services). Publications of the National Public Health Institute no. B1/1998. Helsinki: National Public Health Institute.Google Scholar
15.Laatikainen, T, Tapanainen, H, Alftan, G, Salminen, I, Sundvall, J, Leiviskä, J, Harald, K, Jousilahti, P, Salomaa, V & Vartiainen, E (2003) FINRISKI 2002. Tutkimus kroonisten kansantautien riskitekijöistä, niihin liittyvistä elintavoista, oireista, psykososiaalisista tekijöistä ja terveyspalvelujen käytöstä. Tutkimuksen toteutus ja tulokset 2 (FINRISKI 2002. A National Study of Risk Factors of Chronic Diseases, Life-Style, Symptoms, Psychosocial Factors and Use of Health Care Services. Survey Implementation and Results 2). Publications of the National Public Health Institute no. B7/2003. Helsinki: National Public Health Institute.Google Scholar
16.Eurobarometer (2005) Attitudes of Consumers Towards the Welfare of Farmed Animals, Special Eurobarometer 229/Wave 63.2 – TNS Opinion & Social. Brussels: European Commission, Directorate General Press and Communication.Google Scholar
17.Kosonen, H, Rimpelä, A, Rauma, AL, Väisänen, P, Pere, L, Virtanen, SM & Rimpelä, M (2005) Consumption of special diet among Finnish adolescents in 1979–2001: repeated national cross-sectional surveys. Soz Praventivmed 50, 142150.CrossRefGoogle ScholarPubMed
18. Vinnari MV (2007) The future of meat consumption – expert views from Finland. Technol Forecast Soc Change doi:10.1016/j.techfore.2007.02.001CrossRefGoogle Scholar
19.Key, TK & Appleby, PN (2001) Vegetarianism, coronary risk factors and coronary heart disease. In Vegetarian Nutrition, pp. 33–55 [J Sabate, editor]. Boca Raton, FL: CRC Press.Google Scholar
20.Potter, JD (2000) Your mother was right: eat your vegetables. Asia Pac J Clin Nutr 9, 1012.CrossRefGoogle ScholarPubMed
21.Bazzano, LA, He, J, Ogden, LG, Loria, CM, Vupputuri, S, Myers, L & Whelton, PK (2002) Fruit and vegetable intake and risk of cardiovascular disease in US adults: the first National Health and Nutrition Examination Survey Epidemiologic Follow-up Study. Am J Clin Nutr 76, 9399.CrossRefGoogle ScholarPubMed
22.American Dietetic Association (2003) Position of the American Dietetic Association and Dietitians of Canada: vegetarian diets. J Am Diet Assoc 103, 748765.CrossRefGoogle Scholar
23.Key, TJ, Appleby, PN, Davey, GK, Allen, NE, Spencer, EA & Travis, RC (2003) Mortality in British vegetarians: review and preliminary results from EPIC–Oxford. Am J Clin Nutr 78, 533538.CrossRefGoogle ScholarPubMed
24.Montonen, J, Knekt, P, Järvinen, R, Aromaa, A & Reunanen, A (2003) Whole-grain and fiber intake and the incidence of type 2 diabetes. Am J Clin Nutr 77, 622629.CrossRefGoogle ScholarPubMed
25.Key, TJ, Fraser, GE, Thorogood, M et al. (1999) Mortality in vegetarians and nonvegetarians: detailed findings from a collaborative analysis of 5 prospective studies. Am J Clin Nutr 70, 3 Suppl., S516S524.CrossRefGoogle ScholarPubMed
26.Spencer, EA, Appleby, PN, Davey, GK & Key, TJ (2003) Diet and body mass index in 38000 EPIC–Oxford meat-eaters, fish-eaters, vegetarians and vegans. Int J Obes Relat Metab Disord 27, 728734.CrossRefGoogle ScholarPubMed
27.Newby, PK, Tucker, KL & Wolk, A (2005) Risk of overweight and obesity among semivegetarian, lactovegetarian, and vegan women. Am J Clin Nutr 81, 12671274.CrossRefGoogle ScholarPubMed
28.Key, TJ, Thorogood, M, Burr, ML, Mann, J & Appleby, PN (2002) Mortality in British vegetarians. Public Health Nutr 5, 2936.Google Scholar
29.Fraser, GE (1999) Associations between diet and cancer, ischemic heart disease, and all-cause mortality in non-Hispanic white California Seventh-day Adventists. Am J Clin Nutr 70, 3 Suppl., S532S538.CrossRefGoogle ScholarPubMed
30.Willett, W (2003) Lessons from dietary studies in Adventists and questions for the future. Am J Clin Nutr 78, 539543.CrossRefGoogle ScholarPubMed
31.Herrmann, W, Schorr, H, Obeid, R & Geisel, J (2003) Vitamin B-12 status, particularly holotranscobalamin II and methylmalonic acid concentrations, and hyperhomocysteinemia in vegetarians. Am J Clin Nutr 78, 131136.CrossRefGoogle ScholarPubMed
32.Parsons, TJ, van Dusseldorp, M, van der Vliet, M, van de Werken, K, Schaafsma, G & van Staveren, WA (1997) Reduced bone mass in Dutch adolescents fed a macrobiotic diet in early life. J Bone Miner Res 12, 14861494.CrossRefGoogle ScholarPubMed
33.Heistaro, S (editor) (2005) Menetelmäraportti: Terveys 2000 -tutkimuksen toteutus, aineisto ja menetelmät (Method Report. Implementation and Methods of the Health 2000 Survey). Publications of the National Public Health Institute no. B6/2005. Helsinki: National Public Health Institute.Google Scholar
34.Aromaa, A & Koskinen, S (editors) (2004) Terveys ja toimintakyky Suomessa, Terveys 2000 -tutkimuksen perustulokset (Health and Functional Capacity in Finland. Baseline Results of the Health 2000 Health Examination Survey). Publications of the National Public Health Institute no. B12/2004. Helsinki: National Public Health Institute.Google Scholar
35.Koskinen, S, Kestilä, L, Martelin, T & Aromaa, A (editors) (2004) Nuorten aikuisten terveys. Terveys 2000 -tutkimuksen perustulokset 1829-vuotiaiden terveydestä ja siihen liittyvistä tekijöistä (The Health of Young Adults. Baseline Results of the Health 2000 Study on the Health of 18 to 29-year-olds and the Factors Associated With It). Publications of the National Public Health Institute no. B12/2004. Helsinki: National Public Health Institute.Google Scholar
36.Paalanen, L, Männistö, S, Virtanen, MJ, Knekt, P, Räsänen, L, Montonen, J & Pietinen, P (2006) Validity of a food frequency questionnaire varied by age and body mass index. J Clin Epidemiol 59, 9941001.CrossRefGoogle ScholarPubMed
37.Cohen, J & Cohen, P (1975) Applied Multiple Regression/Correlation Analysis for the Behavioral Sciences. Hillsdale, NJ: Erlbaum.Google Scholar
38.Povey, R, Wellens, B & Conner, M (2000) Attitudes towards following meat, vegetarian and vegan diets: an examination of the role of ambivalence. Appetite 37, 1526.CrossRefGoogle Scholar
39.Keane, A & Willets, A (1996) Concepts of Healthy Eating: An Anthropological Investigation in South-East London. London: Goldsmiths College.Google Scholar
40.Twigg, J (1983) Vegetarianism and the meanings of meat. In The Sociology of Food and Eating: Essays on the Sociological Significance of Food, pp. 18–30 [A Murcott, editor]. Aldershot, UK: Gover.Google Scholar
41.Haddad, EH & Tanzman, JS (2003) What do vegetarians in the United States eat? Am J Clin Nutr 78, 626632.CrossRefGoogle ScholarPubMed
Figure 0

Table 1 The prevalence of vegetarianism in three nationwide surveys in Finland

Figure 1

Table 2 Multivariate adjusted* prevalence of vegetarianism, self-defined and operationalized from the FFQ, according to personal characteristics: combined data from three nationwide surveys in Finland (n 24 393)

Figure 2

Table 3 Multivariate adjusted* distribution of personal characteristics according to operationalized vegetarian status from the FFQ: combined data from three nationwide surveys in Finland (n 24 393)

Figure 3

Table 4 Distribution* of personal characteristics according to self-defined vegetarian status: combined data from three nationwide surveys in Finland (n 24 393)

Figure 4

Table 5 Mean daily intakes* (and standard deviations) of selected food items and nutrients in Finnish vegetarians and omnivores, according to the operationalized definition and self-definition in the Health 2000 survey