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Consumer perceptions of fruit and vegetables serving sizes

Published online by Cambridge University Press:  01 May 2009

Christina M Pollard*
Affiliation:
Curtin University of Technology, Kent Street, Bentley 6102, Western Australia, Australia
Alison M Daly
Affiliation:
Department of Health, Royal Street, East Perth, Western Australia, Australia
Colin W Binns
Affiliation:
Curtin University of Technology, Kent Street, Bentley 6102, Western Australia, Australia
*
*Corresponding author: Email [email protected]
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Abstract

Objective

To assess consumer understanding of fruit and vegetable serving sizes.

Design

The Western Australian Health Department launched the Go for 2&5® campaign to promote fruit and vegetables in March 2002. The Health & Wellbeing Surveillance System surveyed 1108 adults, aged 16 years and over, between September and November 2002 about what constituted a serving of fruit and of vegetables, their usual daily fruit and vegetables intake, and their recall of the campaign.

Setting

The study was undertaken as a part of a public health intervention – social marketing campaign in Western Australia, which had a population of 1 927 000 in 2002.

Results

Forty-two per cent of respondents knew that the fruit serving size was one piece and only 14·5 % reported the ½ cup vegetable serving size. The mean fruit intake was 1·8 (95 % CI 1·7, 1·8) servings/d and the mean vegetable intake was 2·8 (95 % CI 2·7, 3·0) servings/d. Vegetable intake was associated with being female (P = 0·006), increasing age (P < 0·0001), awareness of the campaign (P = 0·031) and knowledge of standard serving size (P = 0·006). Fruit consumption was associated with being female (P = 0·007). Fruit and vegetable intakes were not associated with educational attainment or household income.

Conclusions

The Go for 2&5® campaign uses a prescriptive message to promote increased consumption of fruit and vegetables. Respondent’s knowledge of the standard of serving sizes for fruit and vegetables suggests there is value in separating fruit and vegetable recommendations in messages to encourage increased consumption.

Type
Research Paper
Copyright
Copyright © The Authors 2008

Regular adequate fruit and vegetable intake contributes to good nutrition and general health and protects against common chronic diseases including CHD(114), hypertension(Reference Bazzano2, Reference Miura, Greenland, Stamler, Liu, Daviglus and Nakagawa9, Reference Svetky, Simons-Morton and Vogt15), stroke(Reference Gillman, Cupples, Gagnon, Posner, Ellison, Castelli and Wolf6), diabetes(Reference Colditz, Manson, Stampfler and Rosner16Reference Williams, Wareham and Cox21) and some cancers(22), as well as overweight and obesity and a number of other diseases(14). The WHO and FAO have called for nations to increase fruit and vegetable consumption through targeted campaigns(14). Multi-component approaches, addressing individual factors (e.g. knowledge, attitudes, skills, social influences and behaviours) as well as environmental factors (e.g. access, cost, quality and supply), appear to be more effective(Reference Glanz and Hoelscher23Reference van der Horst, Oenema, Ferreira, Wendel-Vos, Giskes, van Lenthe and Brug27). There is a lack of published information about the effectiveness of population-based interventions promoting fruits and vegetables(24).

Health communication ‘has the capacity to create awareness, improve knowledge and induce long-term changes in individual and social behaviours’(28). There is a need for effective educational messages to encourage the consumption of fruit and vegetables(Reference Ledikwe, Ello-Martin and Rolls29, Reference Lea, Crawford and Worsley30). Knowledge of the recommended fruit and vegetable intake may be motivational, leading to self-evaluation of intake, influencing social norms and increasing the expectation and approval for that level of consumption (Reference Reynolds, Bishop, Chou, Xie, Nebeling and Perry31). There might be agreement on the need to increase fruit and vegetable consumption; however, there are differences between countries in their classification, what constitutes a serving and the recommended servings(Reference Miller, Pollard and Coli32), see Table 1.

Table 1 Standard and recommended fruit and vegetables servings per day for good health in Australia, Canada and USA

na, not applicable.

*4–7 years, 8–11 years, 12–18 years, §19–60 years, ||60+ years.

The Australian recommendation of at least 675 g daily (including potatoes) is consistent with the minimum 400–600 g daily (excluding potatoes) recommended by health authorities to protect against disease(14, 22, Reference Lock, Pomerleau, Causer, Altmann and McKee33). Australian fruit and vegetable recommendations have been separate since 1994, based on the differing nutrient profiles of fruits and vegetables; the practical aspects of eating them; current household consumption levels; and food supply(Reference Cashel and Jefferson34). Australia’s food selection guide, The Australian Guide to Healthy Eating(Reference Smith, Kellett, Schmerlaib and Smith35), is incorporated into Australian dietary guidelines(3638) and is used as the basis for most nutrition education initiatives.

Developing suitable messages to assist consumers to understand and accept the importance of healthy eating is complex. The way in which recommended food intake amounts are presented, as number of servings or specified size, is often misinterpreted by consumers(Reference Britten, Haven and Davis39). Focus group research to assist the development of educational messages for the American MyPyramid Food Guidance System found people considered fruits and vegetables should be part of a healthy diet; however, they were confused about serving sizes and the recommended daily intake(Reference Britten, Haven and Davis39).

The ‘5-a-day’ message has been used as part of campaigns to encourage increased fruit and vegetable consumption(Reference Ashfield-Watt4042). Consumer research suggests that the ‘5+ a-day’ message is understood and appropriate to encourage increased frequency of consumption; however, consumers have a limited understanding of servings size(Reference Ashfield-Watt40, Reference Ashfield-Watt, Welch, Day and Bingham41). The Western Australian Health Department (WAHD) developed the Fruit ‘n’ Veg with Every Meal social marketing campaign to encourage fruit and vegetable consumption in 1990. Evaluation found that although consumers were aware of the campaign and interpreted the message as needing to eat more fruit and vegetables, they were not prompted to action(Reference Miller, Pollard and Paterson43), suggesting that a message specifying an optimal intake was preferable to one saying ‘just eat more’.

The Go for 2&5® social marketing campaign launched in March 2002 with mass media advertising (television, radio, press and point-of-sale), public relations, publications, website (www.gofor2and5.com), and school and community activities(Reference Pollard, Miller, Daly, Crouchley, O’Donoghue, Lang and Binns44). The campaign increased awareness of the need to eat more fruit and vegetables by increasing knowledge of the recommended number of servings, with a corresponding increase in consumption(Reference Pollard, Miller, Daly, Crouchley, O’Donoghue, Lang and Binns44). The Go for 2&5® logo mnemonic device reminded consumers of the target (Fig. 1).

Fig. 1 Go for 2&5® logo

The objective of the present study was to determine consumer understanding of what constitutes a serving and the relationship to current fruit and vegetable intake. The timing of the research, six months into a high-profile social marketing campaign, allows analysis of the association between serving size understanding and campaign awareness.

Methods

In March 2002, the WAHD commenced the Health & Wellbeing Surveillance System (HWSS) continuous data collection system. Computer-assisted telephone interview was used to interview over 550 Western Australian people aged 16 years and over each month. The survey asked about a range of issues including health conditions, lifestyle risk factors, protective factors and sociodemographics. Monthly samples were extracted using the Electronic White Pages telephone numbers as the sample frame and stratifying by rural, remote and metropolitan areas. Within each stratum, random samples were selected. From mid-September until the end of November 2002, all respondents over 16 years (n 1108) were asked four additional questions relating to fruit and vegetable serving size and campaign awareness.

Respondents were asked, ‘What do you think a serve of vegetables/[fruit] equals?’ no alternatives were given and there was no prompting. Responses were then coded into pre-designated categories (one piece, one type, e.g. apple or carrot, ½ cup, other amount [Specify], ‘what I put on my plate’ [vegetables], other [Specify] or don’t know).

Next they were asked about their usual fruit and vegetable intake: ‘How many serves of vegetables/[fruit] do you usually eat each day? A serve of vegetable is equal to ½ cup of cooked vegetables or 1 cup of salad’ and ‘A serve of fruit is equal to one medium piece, two small pieces of fruit or one cup of diced fruit’. They were then asked about awareness of the campaign; ‘The Department of Health has recently conducted a campaign about fruit and vegetables. Do you recall hearing or seeing anything about this?’

Prevalence and mean estimates, with 95 % CI, were calculated using the Statistical Package for the Social Sciences version 15.0.1 (SPSS Inc., Chicago, IL, USA). Generalised linear models analysis was conducted using the survey data analysis module(Reference StataCorp45) in STATA 10 (StataCorp, College Station, TX, USA). Differences were reported as statistically significant when the confidence intervals did not overlap, where they are reported. Inferential statistical analyses provide P values as the basis for statistical significance. The WAHD-approved research met standard social marketing research criteria.

Results

The final sample of adults aged 16 years and over represents 81 % of contacts made. The data were weighted to correct for over-sampling in rural and remote areas and then adjusted to the age and sex distribution of the Western Australian Estimated Resident Population for 2002.

Knowledge of fruit serving size

Table 2 displays the self-reported serving size for fruit and vegetables. Most respondents, 83 %, nominated a serving size for fruit. More men (22 %) than women (12 %) said they were unsure about the fruit serving size and there were no significant differences based on age. ‘One piece’ was the most commonly identified serving size for fruit (42 %), with women (48 %) more likely than men (34 %) to suggest it. People aged 16–24 years were least likely to select ‘one piece’, 32 % compared to 48 % of 25- to 39-year-olds.

Table 2 Perceived fruit and vegetable serving size, by gender and age, of persons aged 18 years and older, Western Australia, September to November 2002

na, not applicable.

*The column headings refer to the categories for the questions asking what constitutes a serving of fruit or vegetables.

‘One type of fruit’ was identified as the serving size for fruit by 11 % of respondents, with no significant difference based on gender or age. Other serving size amounts were specified by 16 % of respondents.

Knowledge of vegetable serving size

Table 2 displays the self-reported serving size for vegetables. Most respondents, 78 %, thought they knew the vegetable serving size. Significantly more men than women said they were unsure about the vegetable serving size, 28 % and 19 %, respectively. There were no significant differences based on age. Fourteen per cent of respondents, 20 % of women and 7 % of men identified ‘½ cup’ (the standard vegetable serving size). People over 40 years old were more likely to identify ‘½ cup’ than those who were younger. Twenty-eight per cent of respondents nominated a different amount for the vegetable serving size. Respondents less than 40 years old were more likely than those aged over 40 to specify a different amount. Men (10 %) were more likely than women (4 %) to identify ‘the amount I put on my plate’ as a serving of vegetables.

Fruit and vegetable consumption

Table 3 displays knowledge of standard serving size by the mean fruit and vegetable intake. The mean fruit intake was 1·8 (95 % CI 1·7, 1·8) servings/d, with women consuming more than men, 1·9 (95 % CI 1·8, 2·0) and 1·6 (95 % CI 1·5, 1·7) servings/d, respectively. Those who knew the standard fruit serving size had higher intakes, 1·9 compared to 1·7 servings/d; however, the difference was not significant. Respondents who knew the standard serving size for fruit were more likely to eat the recommended two servings per day than who did not, 57·2 % (95 % CI 52·0, 62·2) compared to 46·3 % (95 % CI 42·0, 50·7).

Table 3 Daily fruit and vegetable consumption, by serving size and gender, of persons aged 18 years and older, Western Australia, September to November 2002

*The consumption levels are equal to or above/below the recommended Australian guidelines of at least two servings of fruit and five servings of vegetables per day.

†One piece of fruit or ½ cup of vegetables.

‡Another amount or ‘other’.

The mean vegetable intake was 2·8 (95 % CI 2·7, 3·0) servings/d. Women had higher intake than men, 3·1 (95 % CI 2·9, 3·0) and 2·6 (95 % CI 2·6, 2·8) servings/d, respectively. Men who knew the standard serving size had 1·1 servings more than those who did not. Respondents who knew the standard serving size for vegetables were more likely to have the recommended five servings per day than those who did not, 19 % compared to 11 %; however, the difference was not significant. Women who knew the standard serving size for vegetables were more likely to eat five or more servings daily than men who knew the standard serving size, 22 % compared to 9 %, respectively. Respondents who were aware of the campaign reported higher mean vegetable intake than those who were not, 3·0 (95 % CI 2·8, 3·1) compared to 2·5 (95 % CI 2·3, 2·7) servings/d, respectively. There was no significant difference for fruit consumption. Table 4 displays factors influencing fruit and vegetable consumption. Vegetable intake was significantly associated with being female (P = 0·006), increasing age (P < 0·0001), awareness of the campaign (P = 0·031), and knowledge of standard serving size (P = 0·006). Fruit consumption had a significant association with gender (P = 0·007). There were no significant associations based on educational attainment or household income.

Table 4 Parameter estimates by number of servings of fruit (vegetables) consumed per day of persons aged 18 years and older, Western Australia, September to November 2002

Analysis done using STATA 10 survey data analysis module, generalised linear models.

Discussion

Developing suitable messages to assist consumers to understand and accept the importance of healthy eating is complex. Knowledge gaps associated with the recommendation to eat more fruit and vegetables were evident in this study, particularly for vegetables. Knowledge of the recommended amount may reflect a key skill needed to perform the behaviour, it may serve a motivational function leading to a self-evaluation of intake, and it may provide a normative influence, increasing the expectation and approval for that level of consumption(Reference Reynolds, Bishop, Chou, Xie, Nebeling and Perry31). To understand dietary recommendations, consumers needed to know the type and amount of recommended foods, and to assess the adequacy of their current intake they needed to know what constituted a serving(Reference Britten, Haven and Davis39). Britten et al. (2006) found consumers could apply this information by mentally adding up the amounts they consumed at each meal and comparing it to daily recommendations(Reference Britten, Haven and Davis39). Overly optimistic assessment of current intakes results in complacency about the need to eat more fruit and vegetables(Reference Pollard, Miller, Daly, Crouchley, O’Donoghue, Lang and Binns44, Reference Dibsdall, Lambert, Bobbin and Frewer46, Reference Cox, Anderson, Lean and Mela47). Respondents were more confident in assigning a serving size to fruit than to vegetables. The most common fruit serving size of ‘one piece’ supports the finding that consumers prefer recommendations expressed in pieces of fruit(Reference Britten, Haven and Davis39). Respondents reported vegetable serving sizes in ‘amounts’, consistent with previous findings that common household units or measures, for example a cup, were preferred for vegetables(Reference Britten, Haven and Davis39).

Many theoretical models can be used to guide food choice research(Reference Anderson, Winett and Wojcik48, Reference Glanz49). The Go for 2&5® campaign used a model of adapted phases between knowledge and behaviour(Reference Fishbein and Ajzen50, Reference Egger51) to examine behavioural beliefs, attitudes, influencers and intentions(Reference Pollard, Miller, Daly, Crouchley, O’Donoghue, Lang and Binns44). How or whether consumers use serving size information to make their food choices is still not clear; however, the information may be useful to assist with the assessment of current intake. Policy recommendations and assessment of intervention effectiveness rely on accurate dietary assessment. The measurement method influences the proportion of the population categorised as meeting fruit and vegetable guidelines(Reference Michels, Welch, Luben, Bingham and Day52Reference Pomerleau, Lock, McKee and Altmann54).

The main strength of the present study is that it provides a quantified population-level snapshot of consumer understanding of fruit and vegetable serving sizes six months after the commencement of the Go for 2&5® campaign. The results are representative of the Western Australian population as a whole but may not represent subgroups within the population, such as Aboriginal people. There were also study limitations, the analysis did not distinguish amounts other than ‘½ cup’; other amounts, particularly for vegetables, are required. Additional questions relating to knowledge of recommended intake, or asking current intake before and after defining serving sizes are suggested; however, minimal additional questions can be added to an existing surveillance system. Knowledge of serving size or dietary behaviour may merely be a marker for a cluster of ‘healthy lifestyle’ behaviours (e.g. smoking, exercise). Recent New Zealand research found little or no clustering of healthy behaviours, and refuted that fruit and vegetable consumption is merely a marker of healthy lifestyle(Reference Tobias, Jackson, Yeh and Huang55). Further analysis to determine the influence of other lifestyle factors is suggested. More community education is required on serving size to maximise the impact of health promotion campaigns such as the Go for 2&5®. More research is required to establish the best method for this education.

Conclusions

Consumers differentiate between serving sizes for fruit and vegetables. Knowledge of the standard fruit and vegetable serving sizes is related to the consumption of the recommended amounts. Respondents’ understanding of fruit and vegetable serving sizes suggests it is important to separate fruit and vegetable recommendations, using common household measures to convey serving sizes, and using prescriptive messages, for example Go for 2&5® to encourage fruit and vegetable consumption.

Acknowledgements

Funding source:The development, implementation and evaluation of the Go for 2&5® campaign was funded by the Western Australian Health Department (WAHD). Horticulture Australia Limited funded Curtin University of Technology to assist with the preparation of publications. The WAHD developed and owns the Intellectual Property for the Go for 2&5® campaign.

Conflict of interest:Nil.

Author contributions:A.M.D. and C.M.P. worked for the WAHD who funded independent market research companies to conduct the HWSS survey and produce original data sets. None of the authors were involved in any interviews. C.M.P. was also responsible for managing the development, implementation and evaluation of the Go for 2&5® fruit and vegetable campaign.

Acknowledgements:The authors acknowledge the staff at the former Nutrition, Marketing and Communications Branches of the Health Promotion Directorate and the Health Information Centre at the WAHD; and 303 Advertising Agency (who developed the creative and campaign strategy). The WAHD contracted independent market research companies to administer each survey. Horticulture Australia Limited (HAL) supported Curtin University of Technology to analyse the data and prepare papers for publication.

References

1.Australian Institute of Health and Welfare (2006) Chronic Diseases and Associated Risk Factors in Australia Cat. no. PHE 81. Canberra: AIHW.Google Scholar
2.Bazzano, LA (2006) The high cost of not consuming fruits and vegetables. J Am Diet Assoc 106, 13641368.CrossRefGoogle Scholar
3.Bazzano, LA (2005) Dietary Intake of Fruit and Vegetables and Risk of Diabetes Mellitus and Cardiovascular Diseases. Geneva: WHO.Google Scholar
4.Dauchet, L, Amouyel, P, Hercberg, S & Dallongeville, J (2006) Fruit and vegetable consumption and risk of coronary heart disease: a meta-analysis of cohort studies. J Nutr 136, 2588.CrossRefGoogle ScholarPubMed
5.Epping-Jordan, JE, Galea, G, Tukuitonga, C & Beaglehole, R (2005) Preventing chronic diseases: taking stepwise action. Lancet 366, 16671671.CrossRefGoogle ScholarPubMed
6.Gillman, MW, Cupples, LA, Gagnon, D, Posner, BM, Ellison, RC, Castelli, WP & Wolf, PA (1995) Protective effect of fruits and vegetables on development of stroke in men. JAMA 12, 11131117.CrossRefGoogle Scholar
7.Hu, FB (2003) Plant-based foods and prevention of cardiovascular disease: an overview. Am J Clin Nutr 78, 544S551S.CrossRefGoogle ScholarPubMed
8.Hung, H-C, Joshipura, KJ, Jiang, R, Hu, FB, Hunter, D, Smith-Warner, SA, Colditz, GA, Rosner, B, Spiegelman, D & Willett, WC (2004) Fruit and vegetable intake and risk of major chronic disease. J Natl Cancer Inst 3, 15771584.CrossRefGoogle Scholar
9.Miura, K, Greenland, P, Stamler, J, Liu, K, Daviglus, ML & Nakagawa, H (2004) Relation of vegetable, fruit, and meat intake to 7-year blood pressure change in middle-aged men. Am J Epidemiol 159, 572.CrossRefGoogle ScholarPubMed
10.Ness, AR & Powles, JW (1997) Fruit and vegetables, and cardiovascular disease: a review. Int J Epidemiol 26, 113.CrossRefGoogle ScholarPubMed
11.Pomerleau, J, Lock, K & McKee, M (2006) The burden of cardiovascular disease and cancer attributable to low fruit and vegetable intake in the European Union: differences between old and new Member States. Public Health Nutr 9, 575583.CrossRefGoogle ScholarPubMed
12.Tobias, M, Turley, M, Stefanogiannis, N, Vander Hoorn, S, Lawes, C, Ni Mhurchu, C & Rodgers, A (2006) Vegetable and fruit intake and mortality from chronic disease in New Zealand. Aust N Z J Public Health 30, 2631.CrossRefGoogle ScholarPubMed
13.Van Duyn, MAS & Pivonka, E (2000) Overview of the health benefits of fruit and vegetable consumption for the dietetics professional: selected literature. J Am Diet Assoc 100, 1511.CrossRefGoogle ScholarPubMed
14. World Health Organization (2003) Diet, Nutrition and the Prevention of Chronic Disease. WHO Technical Report Series no. 916. Geneva: WHO.Google Scholar
15.Svetky, LP, Simons-Morton, DG & Vogt, TM (1999) Effects of dietary patterns on blood pressure: Subgroup analysis of the DASH randomised clinical trials. Arch Intern Med 159, 285293.CrossRefGoogle Scholar
16.Colditz, GA, Manson, JE, Stampfler, MJ & Rosner, B (1992) Diet and risk of clinical diabetes in women. Am J Clin Nutr 55, 10181023.CrossRefGoogle ScholarPubMed
17.Feskens, EJM, Virtanen, SM, Rasanen, L & Tuomilehto, J (1995) Dietary factors determining diabetes and impaired glucose tolerance. Diabetes Care 18, 11041112.CrossRefGoogle ScholarPubMed
18.Ford, ES & Mokdad, AH (2001) Fruit and vegetable consumption and diabetes mellitus incidence among US adults. Prev Med 32, 3339.CrossRefGoogle Scholar
19.Sargeant, LA, Khaw, KT, Bingham, S, Day, NE, Luben, RN, Oakes, S, Welch, A & Wareham, NJ (2001) Fruit and vegetable intake of population glycosylated haemoglobin levels: the EPIC-Norfolk Study. Eur J Clin Nutr 55, 342.CrossRefGoogle ScholarPubMed
20.Snowdon, DA & Phillips, RK (1985) Does a vegetarian diet reduce the occurrence of diabetes? Am J Public Health 75, 507512.CrossRefGoogle ScholarPubMed
21.Williams, DE, Wareham, NJ & Cox, BD (1999) Frequent salad consumption is associated with reduction in the risk of diabetes mellitus. J Clin Epidemiol 52, 329335.CrossRefGoogle ScholarPubMed
22.World Cancer Research Fund/American Institute of Cancer Research (2007) Food, Nutrition, Physical Activity, and the Prevention of Cancer: a Global Perspective. Washington, DC: WRCF/AICR.Google Scholar
23.Glanz, K & Hoelscher, D (2004) Increasing fruit and vegetable intake by changing environments, policy and pricing: restaurant-based research, strategies, and recommendations. Prev Med 39, Suppl. 2, S88S93.CrossRefGoogle ScholarPubMed
24. Pomerleau J, Lock K, Knai C & McKee M (2005) Effectiveness of Interventions and Programmes Promoting Fruit and Vegetable Intake: Geneva: WHO.Google Scholar
25.Pomerleau, J, Lock, K, Knai, C & McKee, M (2005) Interventions designed to increase adult fruit and vegetable intake can be effective: a systematic review of the literature. J Nutr 135, 24862495.CrossRefGoogle ScholarPubMed
26.Knai, C, Pomerleau, J, Lock, K & McKee, M (2006) Getting children to eat more fruit and vegetables: a systematic review. Prev Med 42, 8595.CrossRefGoogle ScholarPubMed
27.van der Horst, K, Oenema, A, Ferreira, I, Wendel-Vos, W, Giskes, K, van Lenthe, F & Brug, J (2007) A systematic review of environmental correlates of obesity-related dietary behaviors in youth. Health Educ Res 22, 203226.CrossRefGoogle ScholarPubMed
28.World Health Organization (2003) World Health Assembly Resolution WHA57.17 – Global Strategy on Diet, Physical Activity and Health. Geneva: WHO.Google Scholar
29.Ledikwe, JH, Ello-Martin, JA & Rolls, BJ (2005) Portion sizes and the obesity epidemic. J Nutr 135, 905909.CrossRefGoogle ScholarPubMed
30.Lea, EJ, Crawford, D & Worsley, A (2006) Public views of the benefits and barriers to the consumption of a plant-based diet. Eur J Clin Nutr 60, 828837.CrossRefGoogle Scholar
31.Reynolds, KD, Bishop, DB, Chou, C-P, Xie, B, Nebeling, L & Perry, CL (2004) Contrasting mediating variables in two 5-a-day nutrition intervention programs. Prev Med 39, 882893.CrossRefGoogle ScholarPubMed
32.Miller, M, Pollard, C & Coli, T (1997) Western Australian Health Department recommendations for fruit and vegetable consumption – how much is enough? Aust N Z J Public Health 21, 638642.CrossRefGoogle Scholar
33.Lock, K, Pomerleau, J, Causer, L, Altmann, DR & McKee, M (2005) The global burden of disease attributable to low consumption of fruit and vegetables: implications for the global strategy on diet. Bull World Health Organ 83, 100108.Google ScholarPubMed
34.Cashel, K & Jefferson, S (1994) The Core Food Groups. The Scientific Basis for Developing Nutrition Education Tools. National Health and Medical Research Council. Canberra: Australian Government Publishing Service.Google Scholar
35.Smith, A, Kellett, E, Schmerlaib, Y & Smith, B (1999) Development of the Australian Guide to Healthy Eating 1: Background and rationale. Aust J Nutr Diet 56, 188193.Google Scholar
36.National Health and Medical Research Council (1999) Dietary Guidelines for Older Australians. Canberra: Commonwealth of Australia.Google Scholar
37.National Health and Medical Research Council (2003) Dietary Guidelines for Children and Adolescents in Australia incorporating the Infant Feeding Guidelines for Health Workers. Canberra: Commonwealth of Australia.Google Scholar
38.National Health and Medical Research Council (2003) Dietary Guidelines for Australian Adults. Canberra: Commonwealth of Australia.Google Scholar
39.Britten, P, Haven, J & Davis, C (2006) Consumer research for development of educational messages for the MyPyramid Food Guidance System. J Nutr Educ Behav 38, S108S123.CrossRefGoogle ScholarPubMed
40.Ashfield-Watt, PAL (2006) Fruits and vegetables, 5+ a day: are we getting the message across? Asia Pac J Clin Nutr 15, 245252.Google Scholar
41.Ashfield-Watt, PAL, Welch, AA, Day, NE & Bingham, SA (2004) Is ‘five-a-day’ an effective way of increasing fruit and vegetable intakes? Public Health Nutr 7, 257261.CrossRefGoogle ScholarPubMed
42.Stables G & Heimendinger J (editors) (2001) 5 a Day for Better Health Program Monograph. Bethesda, MD: National Institutes of Health, National Cancer Institute.Google Scholar
43.Miller, M, Pollard, C & Paterson, D (1996) Public health nutrition campaigns: Fruit ‘n’ Veg with Every Meal. In Multidisciplinary Approaches to Food Choice [A Worsley, editor]. Adelaide: University of Adelaide.Google Scholar
44.Pollard, CM, Miller, MR, Daly, AM, Crouchley, KE, O’Donoghue, KJ, Lang, AJ & Binns, CW (2008) Increasing fruit and vegetable consumption: success of the Western Australian Go for 2&5® campaign. Public Health Nutr 11, 314320.CrossRefGoogle ScholarPubMed
45.StataCorp, LP (1996) STATA®10: Data Analysis and Statistical Package, 10th ed. Texas, USA: StataCorp LP.Google Scholar
46.Dibsdall, LA, Lambert, N, Bobbin, RF & Frewer, LJ (2003) Low-income consumers’ attitudes and behaviour towards access, availability and motivation to eat fruit and vegetables. Public Health Nutr 6, 159168.CrossRefGoogle ScholarPubMed
47.Cox, DN, Anderson, AS, Lean, ME & Mela, DJ (1998) UK consumer attitudes, beliefs and barriers to increasing fruit and vegetable consumption. Public Health Nutr 1, 6168.CrossRefGoogle ScholarPubMed
48.Anderson, ES, Winett, RA & Wojcik, JR (2007) Self-regulation, self-efficacy, outcome expectations, and social support: social cognitive theory and nutrition behavior. Ann Behav Med 34, 304312.CrossRefGoogle ScholarPubMed
49.Glanz, K (2000) Theory at a Glance. A Guide for Health Promotion Practice. Washington, DC: US Department of Health and Human Services, National Cancer Institute.Google Scholar
50.Fishbein, M & Ajzen, I (1975) Belief, Attitude, Intention, and Behavior: An Introduction to Theory and Research. Reading, MA: Addison-Wesley.Google Scholar
51.Egger, G (1990) Health Promotion Strategies and Methods. Australia: McGraw-Hill.Google Scholar
52.Michels, KB, Welch, AA, Luben, R, Bingham, SA & Day, NE (2005) Measurement of fruit and vegetable consumption with diet questionnaires and implications for analyses and interpretation. Am J Epidemiol 15, 987994.CrossRefGoogle Scholar
53.Field, AE, Colditz, GA, Fox, MK, Byers, T, Serdula, M, Bosch, RJ & Peterson, KE (1998) Comparison of 4 questionnaires for assessment of fruit and vegetable intake. Am J Public Health 88, 12161218.CrossRefGoogle ScholarPubMed
54.Pomerleau, J, Lock, K, McKee, M & Altmann, DR (2004) The challenge of measuring global fruit and vegetable intake. J Nutr 134, 11751180.CrossRefGoogle ScholarPubMed
55.Tobias, M, Jackson, G, Yeh, L-C & Huang, K (2007) Do healthy and unhealthy behaviours cluster in New Zealand? Aust N Z J Public Health 31, 155163.CrossRefGoogle ScholarPubMed
Figure 0

Table 1 Standard and recommended fruit and vegetables servings per day for good health in Australia, Canada and USA

Figure 1

Fig. 1 Go for 2&5® logo

Figure 2

Table 2 Perceived fruit and vegetable serving size, by gender and age, of persons aged 18 years and older, Western Australia, September to November 2002

Figure 3

Table 3 Daily fruit and vegetable consumption, by serving size and gender, of persons aged 18 years and older, Western Australia, September to November 2002

Figure 4

Table 4 Parameter estimates by number of servings of fruit (vegetables) consumed per day of persons aged 18 years and older, Western Australia, September to November 2002