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The prevalence of vegetarians, vegans and other dietary patterns that exclude some animal-source foods in a representative sample of New Zealand adults

Published online by Cambridge University Press:  05 December 2023

James Greenwell
Affiliation:
Public Health Agency, Manatū Hauora (Ministry of Health), Wellington, New Zealand
Megan Grant
Affiliation:
Public Health Agency, Manatū Hauora (Ministry of Health), Wellington, New Zealand
Leanne Young
Affiliation:
Department of Epidemiology and Biostatistics, School of Population Health, University of Auckland, Auckland 1142, New Zealand
Sally Mackay
Affiliation:
Department of Epidemiology and Biostatistics, School of Population Health, University of Auckland, Auckland 1142, New Zealand
Kathryn Erica Bradbury*
Affiliation:
Department of Epidemiology and Biostatistics, School of Population Health, University of Auckland, Auckland 1142, New Zealand
*
*Corresponding author: Email k.bradbury@auckland.ac.nz
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Abstract

Objective:

This study aimed to estimate the prevalence of vegetarians, vegans and other dietary patterns that exclude some animal-source foods in New Zealand adults. We also examined socio-demographic and lifestyle correlates of these dietary patterns.

Design:

The New Zealand Health Survey is a representative rolling cross-sectional survey of New Zealanders; data from the 2018/19 and 2019/20 waves were used for this analysis. Participants were asked if they completely excluded red meat, poultry, fish/shellfish, eggs or dairy products from their diet.

Setting:

New Zealand.

Participants:

Adults, aged ≥ 15 years (n 23 292).

Results:

The prevalence of red-meat excluders (2·89 %), pescatarians (1·40 %), vegetarians (2·04 %) and vegans (0·74 %) was low. After adjustment for socio-demographic and lifestyle factors, women (OR = 1·54, 95 % CI: 1·22, 1·95), Asian people (OR = 2·56, 95 % CI: 1·96, 4·45), people with tertiary education (OR = 1·71, 95 % CI: 1·18, 2·48) and physically active people (OR = 1·36, 95 % CI: 1·04, 1·76) were more likely to be vegetarian/vegan. Those aged ≥ 75 years (OR = 0·28, 95 % CI: 0·14, 0·53) and current smokers (OR = 0·42, 95 % CI: 0·23, 0·76) were less likely to be vegetarian/vegan. Similar associations were seen between socio-demographic and lifestyle factors and the odds of being a red-meat excluder/pescatarian.

Conclusions:

Approximately 93 % of New Zealand adults eat red meat and a very small number exclude all animal products from their diets. The Eating and Activity Guidelines for New Zealand adults recommend a plant-based diet with moderate amounts of animal-source foods. A comprehensive national nutrition survey would provide detailed information on the amount of red meat and other animal-source foods that the New Zealand population currently consumes.

Type
Research Paper
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2023. Published by Cambridge University Press on behalf of The Nutrition Society

There has been increasing interest, amongst scientists and the general public, in the possible health and environmental benefits of vegetarian diets as well as other diets that exclude some animal-source foods. Cross-sectional analyses have shown that vegetarians tend to have lower BMI(Reference Tong, Key and Sobiecki1), blood cholesterol concentrations(Reference Bradbury, Crowe and Appleby2) and blood pressure compared with meat-eaters(Reference Tong, Key and Sobiecki1). Prospective cohort studies with large numbers of vegetarians have also shown that vegetarians have a lower risk for developing ischaemic heart disease(Reference Tong, Appleby and Bradbury3), some cancers(Reference Tantamango-Bartley, Jaceldo-Siegl and Fan4,Reference Key, Appleby and Crowe5) and diabetes(Reference Tonstad, Stewart and Oda6,Reference Papier, Appleby and Fensom7) , although may be at higher risk for stroke(Reference Tong, Appleby and Bradbury3) and hip fracture(Reference Tong, Appleby and Key8).

Globally, agriculture is responsible for about a quarter of all greenhouse gas emissions(Reference Vermeulen, Campbell and Ingram9). In New Zealand (NZ) this estimate is even higher – half of NZ’s total greenhouse gas emissions come from agriculture(10). Generally, the production of animal-source food products results in greater greenhouse gas emissions than plant-source food products (by weight)(Reference Clune, Crossin and Verghese11) and therefore substantial reductions in emissions can be achieved through changes to population diets. Recent research from NZ has modelled shifting the adult population from the current NZ diet to a vegetarian diet, and the results indicate that this would reduce dietary-related greenhouse gas emissions by about a quarter(Reference Drew, Cleghorn and Macmillan12).

There are various methods for assessing vegetarian, vegan and other non-meat dietary patterns. Market research companies have estimated the proportion of New Zealanders that are almost or always vegetarian or vegan; however, the reliability of these estimates is uncertain. In one survey (n 5983) conducted in 2014/2015, 10·3 % of New Zealanders aged 14 years and over said the food they eat is all or almost all vegetarian(13). In another survey by a different company (n 1517), conducted in 2021, 19 % of participants reported always or mostly maintaining a vegetarian or vegan diet(14). The specific sampling methods used in these market research polls are not clear. In addition, the questions used in the surveys ask people to self-identify as vegetarian/vegan or mostly vegetarian/vegan, which will overestimate prevalence compared with asking people about the food groups that they consume or exclude(Reference Juan, Yamini and Britten15).

The New Zealand Health Survey (NZHS) is a rolling survey, administered annually to a representative sample of NZ adults. In the 2018/19 and the 2019/20 surveys, the participants were asked whether they exclude red meat, poultry, fish or seafood or dairy products from their diet. The objective of this study is to quantify the prevalence of vegetarian, vegan and other dietary patterns that exclude some animal-source foods in a large representative sample of the NZ adult population and to examine the associations between socio-demographic, lifestyle and physiological characteristics and these dietary patterns.

Methods

Study population and survey design

The NZHS is an important cross-sectional survey administered annually that aims to monitor the health of the NZ population. The main objectives of the sampling design are to provide a range of prevalence estimates for health behaviours and conditions by age, ethnicity and geographical region(16). This study uses data from the 2018/19 and 2019/20 waves of data collection. The 2018/19 sample was selected from 1 July 2018 to 30 June 2019(17). The 2019/20 sample was selected from July 1 2019 and was supposed to run until June 2020 but was suspended on March 19 2020 due to the government restrictions put in place in response to the COVID-19 pandemic; thus, the sample size and response rate for the 2019/20 NZHS are slightly lower(16).

The sampling strategy and methodology of the NZHS have been described previously(1618). Briefly, the NZHS has a multi-stage, stratified, probability-proportional-to-size sampling design. The target population for the NZHS is the usually resident population of NZ. Two sampling frames are used: participants are selected from an area-based sample and a list-based electoral roll sample. For the area-based sampling frame, first a sample of Statistics New Zealand’s household survey frame primary sampling units are selected, second, a random sample of households from within each primary sampling unit are selected and third, one adult (aged 15 years or over) and one child (14 years or younger) are selected at random from within each household. The electoral roll sampling frame is used to increase the sample size of Māori participants and generally follows the same approach as the area-based sampling frame, but at the second stage households within the primary sampling unit are selected from the list of households where any person has self-identified on the electoral roll as having Māori ancestry.

Data collection for the NZHS takes place in the participants’ homes. Trained interviewers enter participant responses directly into a laptop. In addition, participants complete some sections of the interview by themselves using the laptop. The interviews gather information on socio-demographics as well as a variety of health-related topics including long-term conditions; health status and health behaviours and risk factors. In 2018/19 and 2019/20, a module on dietary habits was included. In addition to the interview, height and weight and blood pressure are measured following standardised protocols.

Classification of dietary patterns

Diet pattern categorisation in this study follows the exclusion criteria method used by Valdes et al. (Reference Valdes, Conklin and Veenstra19). A single dietary exclusion question was included in the dietary habits questionnaire module and was used to classify participants into dietary pattern groups. The question asked: ‘Do you completely exclude any of the following food groups from your diet?’ The response options were ‘Red meat (e.g. beef, pork, mutton, lamb, goat and venison); chicken or poultry (e.g. turkey and duck); fish or other seafood; eggs; dairy products (e.g. milk and cheese); gluten sources (e.g. wheat and barley); nuts’. Participants were also told that ‘Completely exclude means you never eat it on its own, or as part of a prepared dish’. Survey respondents had the option to choose multiple categories based on what they completely exclude. For the purposes of this study, the responses for excluding gluten sources and nuts were not used.

Food exclusion categories were coded into one of four prioritised (and mutually exclusive) categories and those not reporting exclusions were categorised as red-meat eaters. Table 1 provides a summary of the dietary pattern classifications. Red-meat excluders were defined as excluders of red meat, pescatarians were defined as excluders of red meat and poultry, vegetarians were defined as those who excluded red meat, poultry, and fish/seafood, and vegans were defined as excluders of red-meat, poultry, fish/seafood, eggs, and dairy products. Those reporting none of the above exclusions were categorised as red-meat eaters.

Table 1 Dietary pattern definitions and weighted adult prevalence from the New Zealand Health Survey 2018/19 and 2019/20

* Participants were asked ‘Do you completely exclude any of the following food groups from your diet?’ The response options were ‘red meat (e.g. beef, pork, mutton, lamb, goat and venison); chicken or poultry (e.g. turkey, duck); fish or other seafood; eggs; dairy products (e.g. milk, cheese)’. Participants were also told that ‘completely exclude means you never eat it on its own, or as part of a prepared dish’.

Covariates

Socio-economic and lifestyle variables used in this study were derived according to conventional NZHS methods(16). They include sex (men, women), age (15–24, 25–44, 45–64, 65–74 and ≥ 75 years), total response ethnicity (Māori, Pacific, Asian and NZ European/Other ethnicities (including Middle Eastern, Latin American, African and other ethnicities); total response ethnicity allows for participants to be assigned to more than one ethnicity), education level (less than upper secondary, upper secondary and tertiary/other), the area-based 2013 New Zealand Deprivation Index (in quintiles from least deprived areas to most deprived areas)(Reference Atkinson, Salmond and Crampton20), BMI (continuous, kg/m2), systolic blood pressure (continuous using the mean of the second and third measurements, mm Hg), smoking status (not current, current) and physical activity (active, inactive; participants are classified as active if ≥ 150 min of time spent on physical activity in the past 7 d and ≥ 30 min of moderate-intensity physical activity on ≥ 5 of the past 7 d).

Statistical analysis

The analysis of the NZHS data was carried out in R3·6·3 using the nzhealthsurvey version 0·0·4 package developed by Steven Johnston for the NZ Ministry of Health. Survey weights were used in all analyses so that estimates of prevalence and means are representative of the usually resident adult population of NZ. The survey uses the calibrated weighting method to construct survey weights that rate up the responding sample to represent the target population. This method considers the probability of selection of each respondent and uses external population benchmarks (typically based on the most recent population census) to correct for any discrepancies between the sample and population benchmarks (by age, sex, ethnicity and the 2013 New Zealand Index of Deprivation).

Missing data comprised < 1 % of total sample (159 responses) and was dropped following an examination indicating data was missing completely at random. Descriptive statistics are provided for each variable using the entire sample excluding observations where dietary habits questionnaire responses were dropped. The analysis of BMI and blood pressure used slightly smaller samples.

Weighted population prevalence estimates with 95 % confidence intervals were calculated for each of the four dietary patterns, overall and by sex. Due to small samples, particularly for pescatarians and vegans, for all other analyses the red-meat excluders were combined with pescatarians and the vegetarians were combined with vegans. We conducted bivariate analyses of the dietary patterns and the social and demographic variables using Rao-Scott χ 2 tests for the categorical variables and linear regression models for the continuous variables (e.g. age, BMI and systolic blood pressure, which were treated as dependent variables). Multinomial logistic regression was used to calculate adjusted OR with 95 % CI. The models were mutually adjusted for sex, age group, total response ethnicity, education category, NZDep2013 quintile, BMI, systolic blood pressure, physical activity categories and smoking status.

Results

The response rate for the adult portion of the NZHS was 80 % in 2018/19 and 75 % in 2019/20. The sample size for this study includes 23 292 who answered the dietary exclusion question in these two waves of data collection. A sub-sample of participants (n 21 481) had BMI and blood pressure measurements.

Table 1 presents the population weighted prevalence estimates for each dietary patterns overall and by sex. Most adults reporting some form of animal-source food exclusion are red-meat excluders (2·89 %) followed by vegetarians (2·04 %), pescatarians (1·40 %) and vegans (0·74 %). The vast majority of the adult population (92·9 %) of NZ are red-meat eaters.

Table 2 and Table 3 present the unadjusted prevalence of the dietary patterns of interest by participant characteristics for men and women, respectively. Among men and women, vegetarians/vegans were younger (mean age for men = 36·21 years, for women = 38·72 years) than red-meat eaters (mean age for men = 45·23 years, for women = 46·73 years). For both men and women, there was a much higher prevalence of red-meat excluders/pescatarians among Pacific people (7·26 % for men, and 8·15 % for women) compared with NZ Europeans (1·37 % for men and 4·00 % for women). There was a much higher prevalence of vegetarians/vegans among Asian people (6·42 % for men and 8·53 % for women) compared with NZ Europeans (1·67 % for men and 2·82 % for women). For both men and women, among those with a tertiary education, there was a higher prevalence of red-meat excluders/pescatarians (3·96 % for men and 6·62 % for women) compared with those with less than upper secondary schooling (1·79 % for men and 4·37 % for women). There was also a higher prevalence of vegetarians/vegans (3·13 % for men and 4·35 % for women) in those with tertiary education compared with those with less than upper secondary schooling (1·39 % for men and 1·88 % for women). Among men and women the mean BMI was lower among red-meat excluders/pescatarians (26·80 kg/m2 in men and 26·69 kg/m2 in women) and vegetarians/vegans (25·73 kg/m2 in men and 26·12 kg/m2 in women), compared with red-meat eaters (28·25 kg/m2 in men and 28·29 kg/m2 in women). Mean systolic blood pressure was lower in vegetarians/vegans (124·80 mmHg) compared with red-meat eaters (128·56 mmHg) among men and lower in red-meat eaters/pescatarians (118·77 mmHg) and vegetarians/vegans (115·21 mmHg) compared with red-meat eaters (121·66 mmHg) among women. For both men and women, there was a lower prevalence of vegetarians/vegans in current smokers (0·86 % in men and 1·26 % in women) compared with not current smokers (2·55 % in men and 3·51 % in women).

Table 2 Unadjusted demographic and biometric characteristics by dietary pattern in men*

* There are 9804 men in the sample, except for the BMI and SBP measures for which there is information available on 9237 men.

NZDep2013 is the area-based 2013 New Zealand Deprivation Index in quintiles from least deprived (quintile 1) to most deprived (quintile 5).

Participants are considered physically active if time spent on physical activity in the past 7 days is at least 150 min, and they have done 30 min or more of moderate-intensity physical activity per day on at least five of the past 7 days.

Table 3 Unadjusted demographic and biometric characteristics by dietary pattern in women*

* There are 13 488 women in the sample, except for the BMI and SBP measures for which there is information available on 11 971 women.

NZDep2013 is the area-based 2013 New Zealand Deprivation Index in quintiles from least deprived (quintile 1) to most deprived (quintile 5).

Participants are considered physically active if time spent on physical activity in the past 7 days is at least 150 min and they have done 30 min or more of moderate-intensity physical activity per day on at least five of the past 7 days.

Table 4 presents the adjusted odds of excluding red meat/being pescatarian or being vegetarian/vegan compared with being a red-meat eater, after mutually adjusting for sex, age group, total response ethnicity, education category, NZDep2013, BMI, systolic blood pressure, smoking status and physical activity status. After adjusting for these other factors, women were more likely to be red-meat excluders/pescatarians (OR = 2·32, 95 % CI: 1·87, 2·89, P < 0·001) and vegetarians/vegans (OR = 1·55, 95 % CI: 1·22, 1·95, P < 0·001) compared with men. Those aged 75 years and older were less likely to be red-meat excluders/pescatarians (OR = 0·68, 95 % CI: 0·47, 0·98, P = 0·040) and vegans/vegetarians (OR = 0·27, 95 % CI: 0·14, 0·53, P < 0·001) and those aged 65–74 years were also less likely to be vegetarian/vegan (OR = 0·39, 95 % CI: 0·22, 0·71, P = 0·002), compared with those aged 15–24 years. Asian people were more likely to be red-meat excluders/pescatarians (OR = 1·80, 95 % CI: 1·40, 2·31, P < 0·001) and vegetarians/vegans (OR = 2·55, 95 % CI: 1·95, 3·35, P < 0·001), compared with NZ Europeans/others. Those with tertiary education were more likely to be red-meat excluders/pescatarians (OR = 1·53, 95 % CI: 1·19, 1·96, P = 0·001) and vegetarians/vegans (OR = 1·70, 95 % CI: 1·17, 2·46, P = 0·005) compared with those with less than upper secondary education. Those with higher BMI were less likely to be red-meat excluders/pescatarians (OR for every 1 unit increase in BMI = 0·97, 95 % CI: 0·95, 0·99, P = 0·001) and vegetarians/vegans (OR for every 1 unit increase in BMI = 0·96, 95 % CI: 0·94, 0·98, P < 0·001). After adjustment for other factors, there was no association between dietary patterns and systolic blood pressure. Current smokers were less likely to be red-meat excluders/pescatarians (OR = 0·62, 95 % CI: 0·43, 0·89, P = 0·009) and vegetarians/vegans (OR = 0·43, 95 % CI: 0·24, 0·77, P = 0·005) compared to those that were not current smokers. Finally, those who were active were more likely to be red-meat excluders/pescatarians (OR = 1·30, 95 % CI: 1·08, 1·56, P = 0·005) and vegetarians/vegans (OR = 1·34, 95 % CI: 1·03, 1·75, P = 0·027) compared with those that were inactive.

Table 4 Adjusted odds of excluding red meat/being pescatarian or being vegetarian/vegan compared with being a red-meat eater among a nationally representative sample of NZ adults 15+

* NZDep2013 is the area-based 2013 New Zealand Deprivation Index in quintiles from least deprived (quintile 1) to most deprived (quintile 5).

Participants are considered physically active if time spent on physical activity in the past 7 days is at least 150 min, and they have done 30 min or more of moderate-intensity physical activity per day on at least five of the past 7 days.

Discussion

In this large, recent representative sample of adult New Zealanders, the prevalence of dietary patterns that exclude animal-source foods was low, with only 2·89 % of the sample classified as red-meat excluders, 1·40 % as pescatarians, 2·04 % as vegetarians and 0·74 % as vegans. After adjusting for socio-demographic and lifestyle factors, women, younger people, Asian people, more educated people, people with lower BMI, people who currently do not smoke and physically active people were more likely to be red-meat excluders/pescatarians and vegetarians/vegans.

In the 2008/09 NZ Adult Nutrition Survey, 94·5 % of the participants reported eating red meat in the previous 4 weeks(21), which is in line with the up-to-date estimate from the current study, where 93 % of participants reported eating red meat, indicating that the prevalence of red-meat eaters has probably remained fairly stable over the past 15 years. The prevalence of vegetarians and vegans (< 3 % combined) found in the current study is much lower than that found in two fairly recent market research polls. The research polls conducted in 2014/15 and 2019 reported that 10·3 % of New Zealanders aged 14 years and over said the food they eat is all or almost all vegetarian,(13) and 19 % of participants reported always or mostly maintaining a vegetarian or vegan diet(14), respectively. The sample we used is much larger (n 23 292), and representative of the NZ resident population and may avoid other potential biases of consumer polls. Another key difference between our results and the market research polls that would partly explain our much lower prevalence is that participants in the NZHS were asked if they completely exclude meat, poultry, fish, dairy and eggs from their diet. Whereas participants in the market research polls were asked if almost all the food eaten is vegetarian or if they mostly maintained a vegetarian or vegan diet, and what people interpret as ‘almost’ or ‘mostly’ a vegetarian diet is subjective and could include a range of meat intakes. The 2018 wave of the NZ Values and Attitudes Study, where participants are mainly randomly sampled from the electoral roll with oversampling of some regions and ethnicities, included an open-ended question about dietary habits. Participants were asked: ‘How would you describe your dietary behaviour? (e.g. meat and veges, vegetarians, vegan, halal, pescatarian, etc.)’, with researchers coding different dietary patterns from the participants’ responses(Reference Milfont, Satherley and Osborne22). Despite the different approach to dietary pattern classification, the study found only slightly higher prevalence of dietary patterns to our sample, with 4·5 % classified as vegetarians and 1·1 % classified as vegan. Also similar to our study, in the NZ Values and Attitude study, women were more likely to be vegetarians than men(Reference Milfont, Satherley and Osborne22).

In the 2015 Canadian Community Health Survey (n 20 477), a very similar question about dietary exclusions was asked, and Valdes et al.(Reference Valdes, Conklin and Veenstra19) used the same categorisation we used to define dietary patterns (although they refer to red-meat eaters as ‘non-plant based’). In the Canadian survey, 2·8 % of participants were red-meat excluders, 0·7 % pescatarians, 1·3 % vegetarian and 0·3 % vegan(Reference Valdes, Conklin and Veenstra19). As well as having similar prevalence of these dietary patterns to our survey, the Canadian survey also found that women were more likely to be red-meat excluders/pescatarians than men and that South Asians were much more likely to be red-meat excluders/pescatarians and vegetarians/vegans than White participants. Cultural and religious differences in traditional cooking ingredients and recipes are likely to drive these ethnic differences. In addition, those with a Bachelor’s degree or higher were more likely to be red-meat excluders/pescatarians and vegetarians/vegans than those with only high-school equivalent education(Reference Valdes, Conklin and Veenstra19).

In our study, there was no clear association between our measure of area-based deprivation and dietary patterns that exclude animal-source foods. Similarly, in the 2015 Canadian Community Health Survey, household income did not show a clear association with dietary patterns(Reference Valdes, Conklin and Veenstra19). However, in both surveys, those with higher education were more likely to be red-meat excluders/pescatarians and vegetarians/vegans. There may be several factors at play that explain why no clear association is seen with area-based deprivation or household income. It is possible that although those who are highly educated are more likely to exclude animal products from the diet, the lifestyles, preferences and types of occupations of highly educated red-meat excluders, pescatarians, vegetarians and vegans may differ from comparably highly educated red-meat eaters. It is also possible that the price of meat and other animal-source foods is prohibitive to those on very low incomes. We were unable to determine whether people with food insecurity were more likely to exclude animal-source foods because questions on food security were only included in the 2019/20 wave of the NZHS. In our unadjusted analysis, there were significant differences in systolic blood pressure across dietary groups; vegetarians/vegans had lower systolic blood pressure compared with red-meat eaters. However, this difference disappeared after adjustment, indicating that it was explained by the other factors, including BMI.

The NZHS is a large and representative survey, and the analyses uses weighting so that estimates of prevalence and means are representative of the usually resident adult population of NZ. We used strict definitions to classify participants as red-meat excluders, pescatarians, vegetarians or vegans. It is possible that some participants did not consider processed meat when they were asked if they excluded red meat from their diet, because in earlier questions that asked about the frequency of consumption of main food groups, processed meat was separated out from red meat(23). We think that this would have only affected the responses of participants who excluded unprocessed red meat but ate processed meat – some of these participants may have mistakenly said that they exclude red meat, when in fact they ate processed meat. However, we think that the proportion of participants who excluded unprocessed red meat but ate processed meat would be very small, and therefore unlikely to have had a major influence on our estimate of the prevalence of red-meat excluders. As we only had information on whether people completely excluded specific animal-source foods from the diet, we were unable to determine if some people who were classified as red-meat eaters ate low amounts of red meat and could be considered plant-based or flexitarian; however, these dietary patterns are not well defined. The NZHS does not include a full dietary assessment, and the most recent Adult Nutrition Survey was carried out in 2008/09. A new comprehensive national nutrition survey would make it possible to quantify the amount of meat and other animal-source foods consumed by the population and allow for a more nuanced exploration of those eating small amounts of meat. A comprehensive nutrition survey would also enable researchers to explore the extent to which the diet of the NZ population aligns with the Eating and Activity guidelines for New Zealand Adults, which recommend a largely plant-based diet that contains moderate amounts of animal-source foods(24) and the EAT-LANCET diet, which is designed for optimal planetary and human health and similarly allows small amounts of red meat (up to 196 g/week) and other animal-source foods(Reference Willett, Rockstrom and Loken25).

We found that people of Asian ethnicity were more likely to be red-meat excluders/ pescatarian and vegetarian/vegan. People of Asian ethnicity living in NZ are heterogenous, and previous studies in NZ have shown that South Asians are more likely to avoid animal products compared with East and South-East Asians(Reference Parackal, Smith and Parnell26). Unfortunately, the sampling frame of the NZHS constrains our ability to publish disaggregated statistics for participants of different Asian ethnicities, and therefore we are unable to investigate differences in the prevalence of dietary patterns between different Asian ethnicities.

The 2019/20 wave of data collection for the NZHS was terminated slightly prematurely due to government restrictions put in place in response to the COVID-19 pandemic, although the final sample used in this study consisted of over 20 000 adults. This analysis provides a baseline which could be compared with future waves of the NZHS that include a dietary habits questionnaire. It would be interesting to see if the COVID-19 pandemic and/or rising inflation(27) influences the net prevalence of vegetarians and other diets that exclude some animal-source foods.

In conclusion, this study provides a timely analysis of dietary exclusions in a representative sample of over 20 000 NZ adults. Our results indicate that the prevalence of red-meat excluders, pescatarians, vegetarians, and vegans was low, and approximately 93 % of New Zealanders eat red meat. Women, Asian people, highly educated people, people with lower BMI, physically active people and people who do not currently smoke were more likely to be red-meat excluders/pescatarians and vegetarians/vegans. It would be of great interest to include the dietary habits module in future NZHS to be able to determine trends in the prevalence of dietary patterns that exclude some animal-source foods. A national nutrition survey will enable the quantification of the amount of animal and plant-source foods consumed by the NZ population and the alignment of the NZ diet to national and global dietary guidelines, which recommend a largely plant-based diet with small amounts of animal-source foods for human and planetary health.

Acknowledgements

We would like to acknowledge Steven Johnston and Shari Mason for statistical support and Chloe Lynch for survey data access and data handling advice.

Financial support

LY is funded by a New Zealand Heart Foundation postdoctoral fellowship (1830). KEB is funded by a Sir Charles Hercus Health Research Council Fellowship (19-110).

Conflict of interest

The authors have no competing interest to declare.

Authorship

JG and MG conceived the idea. JG conducted the data analysis, and together with KEB wrote the draft of the manuscript. All authors interpreted the data and reviewed and revised draft manuscripts for important intellectual content.

Ethics of human subject participation

This study was conducted according to the guidelines laid down in the Declaration of Helsinki, and all procedures involving research study participants were approved by The New Zealand Health and Disability Multi-region Ethics committee (MEC) (MEC reference: MEC/10/10/103). Written informed consent was obtained from all participants.

References

Tong, TY, Key, TJ, Sobiecki, JG et al. (2018) Anthropometric and physiologic characteristics in white and British Indian vegetarians and nonvegetarians in the UK Biobank. Am J Clin Nutr 107, 909920.CrossRefGoogle ScholarPubMed
Bradbury, KE, Crowe, FL, Appleby, PN et al. (2014) Serum concentrations of cholesterol, apolipoprotein A-I and apolipoprotein B in a total of 1694 meat-eaters, fish-eaters, vegetarians and vegans. Eur J Clin Nutr 68, 178183.CrossRefGoogle Scholar
Tong, TYN, Appleby, PN, Bradbury, KE et al. (2019) Risks of ischaemic heart disease and stroke in meat eaters, fish eaters, and vegetarians over 18 years of follow-up: results from the prospective EPIC-Oxford study. BMJ 366, l4897.CrossRefGoogle ScholarPubMed
Tantamango-Bartley, Y, Jaceldo-Siegl, K, Fan, J et al. (2013) Vegetarian diets and the incidence of cancer in a low-risk population. Cancer Epidemiol Biomarkers Prev 22, 286294.CrossRefGoogle Scholar
Key, TJ, Appleby, PN, Crowe, FL et al. (2014) Cancer in British vegetarians: updated analyses of 4998 incident cancers in a cohort of 32 491 meat eaters, 8612 fish eaters, 18 298 vegetarians, and 2246 vegans. Am J Clin Nutr 1, 378S385S.CrossRefGoogle Scholar
Tonstad, S, Stewart, K, Oda, K et al. (2013) Vegetarian diets and incidence of diabetes in the Adventist Health Study-2. Nutr Metab Cardiovasc Dis 23, 292299.CrossRefGoogle ScholarPubMed
Papier, K, Appleby, PN, Fensom, GK et al. (2019) Vegetarian diets and risk of hospitalisation or death with diabetes in British adults: results from the EPIC-Oxford study. Nutr Diabetes 9, 7.CrossRefGoogle ScholarPubMed
Tong, TYN, Appleby, PN, Key, TJ et al. (2020) The associations of major foods and fibre with risks of ischaemic and haemorrhagic stroke: a prospective study of 418 329 participants in the EPIC cohort across nine European countries. Eur Heart J 41, 26322640.CrossRefGoogle ScholarPubMed
Vermeulen, SJ, Campbell, BM & Ingram, JSI (2012) Climate change and food systems. Annu Rev Env Resour 37, 195.CrossRefGoogle Scholar
Ministry for the Environment (2022) New Zealand’s Greenhouse Gas Inventory 1990–2020. Wellington: Ministry for the Environment.Google Scholar
Clune, S, Crossin, E & Verghese, K (2017) Systematic review of greenhouse gas emissions for different fresh food categories. J Clean Prod 140, 766783.CrossRefGoogle Scholar
Drew, J, Cleghorn, C, Macmillan, A et al. (2020) Healthy and climate-friendly eating patterns in the New Zealand context. Environ Health Perspect 128, 17007.CrossRefGoogle ScholarPubMed
Roy Morgan Research (2016) Vegetarianism on the Rise in New Zealand [press release]; available at https://www.roymorgan.com/findings/vegetarianism-on-the-rise-in-new-zealand (accessed August 2022).Google Scholar
Juan, WY, Yamini, S & Britten, P (2015) Food intake patterns of self-identified vegetarians among the US population, 2007–2010. Proc Food Sci 4, 8693.CrossRefGoogle Scholar
Ministry of Health (2020) Methodology Report 2019/20: New Zealand Health Survey. Wellington: Ministry of Health.Google Scholar
Ministry of Health (2019) Methodology Report 2018/19. Wellington: Ministry of Health.Google Scholar
Ministry of Health (2016) Sample Design from 2015/16: New Zealand Health Survey. Wellington: Ministry of Health.Google Scholar
Valdes, M, Conklin, A, Veenstra, G et al. (2021) Plant-based dietary practices in Canada: examining definitions, prevalence and correlates of animal source food exclusions using nationally representative data from the 2015 Canadian Community Health Survey-Nutrition. Public Health Nutr 24, 777786.CrossRefGoogle ScholarPubMed
Atkinson, J, Salmond, C & Crampton, P (2014) NZDep2013 Index of Deprivation. Dunedin: University of Otago.Google Scholar
University of Otago and Ministry of Health (2011) A Focus on Nutrition: Key Findings from the 2008/09 NZ Adult Nutrition Survey. Wellington: Ministry of Health.Google Scholar
Milfont, TL, Satherley, N, Osborne, D et al. (2021) To meat, or not to meat: a longitudinal investigation of transitioning to and from plant-based diets. Appetite 166, 105584.CrossRefGoogle ScholarPubMed
Ministry of Health (2019) Content Guide 2018/19: New Zealand Health Survey. Wellington: Ministry of Health.Google Scholar
Ministry of Health (2020) Eating and Activity Guidelines for New Zealand Adults. Wellington: Ministry of Health.Google Scholar
Willett, W, Rockstrom, J, Loken, B et al. (2019) Food in the Anthropocene: the EAT-Lancet Commission on healthy diets from sustainable food systems. Lancet 393, 447492.CrossRefGoogle ScholarPubMed
Parackal, SM, Smith, C & Parnell, WR (2015) A profile of New Zealand ‘Asian’ participants of the 2008/09 Adult Nutrition Survey: focus on dietary habits, nutrient intakes and health outcomes. Public Health Nutr 18, 893904.CrossRefGoogle Scholar
StatsNZ (2022) Consumers Price Index Annual Summary June 2022 Quarter. Wellington: StatsNZ.Google Scholar
Figure 0

Table 1 Dietary pattern definitions and weighted adult prevalence from the New Zealand Health Survey 2018/19 and 2019/20

Figure 1

Table 2 Unadjusted demographic and biometric characteristics by dietary pattern in men*

Figure 2

Table 3 Unadjusted demographic and biometric characteristics by dietary pattern in women*

Figure 3

Table 4 Adjusted odds of excluding red meat/being pescatarian or being vegetarian/vegan compared with being a red-meat eater among a nationally representative sample of NZ adults 15+