Hostname: page-component-586b7cd67f-dlnhk Total loading time: 0 Render date: 2024-11-23T21:19:13.249Z Has data issue: false hasContentIssue false

Identifying attributes of food literacy: a scoping review

Published online by Cambridge University Press:  27 June 2017

Elsie Azevedo Perry*
Affiliation:
Haliburton, Kawartha, Pine Ridge District Health Unit, 200 Rose Glen Road, Port Hope, ON, Canada, L1A 3V6
Heather Thomas
Affiliation:
Middlesex-London Health Unit, London, ON, Canada
H Ruby Samra
Affiliation:
City of Hamilton Public Health Services, Hamilton, ON, Canada
Shannon Edmonstone
Affiliation:
Perth District Health Unit, Stratford, ON, Canada
Lyndsay Davidson
Affiliation:
Chatham-Kent Health Unit, West Chatham, ON, Canada
Amy Faulkner
Affiliation:
Simcoe Muskoka District Health Unit, Barrie, ON, Canada
Lisa Petermann
Affiliation:
EXEP Consulting Inc., Calgary, AB, Canada
Elizabeth Manafò
Affiliation:
EXEP Consulting Inc., Calgary, AB, Canada
Sharon I Kirkpatrick
Affiliation:
School of Public Health and Health Systems, University of Waterloo, Waterloo, ON, Canada
*
*Corresponding author: Email [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Objective

An absence of food literacy measurement tools makes it challenging for nutrition practitioners to assess the impact of food literacy on healthy diets and to evaluate the outcomes of food literacy interventions. The objective of the present scoping review was to identify the attributes of food literacy.

Design

A scoping review of peer-reviewed and grey literature was conducted and attributes of food literacy identified. Subjects included in the search were high-risk groups. Eligible articles were limited to research from Canada, USA, the UK, Australia and New Zealand.

Results

The search identified nineteen peer-reviewed and thirty grey literature sources. Fifteen identified food literacy attributes were organized into five categories. Food and Nutrition Knowledge informs decisions about intake and distinguishing between ‘healthy’ and ‘unhealthy’ foods. Food Skills focuses on techniques of food purchasing, preparation, handling and storage. Self-Efficacy and Confidence represent one’s capacity to perform successfully in specific situations. Ecologic refers to beyond self and the interaction of macro- and microsystems with food decisions and behaviours. Food Decisions reflects the application of knowledge, information and skills to make food choices. These interdependent attributes are depicted in a proposed conceptual model.

Conclusions

The lack of evaluated tools inhibits the ability to assess and monitor food literacy; tailor, target and evaluate programmes; identify gaps in programming; engage in advocacy; and allocate resources. The present scoping review provides the foundation for the development of a food literacy measurement tool to address these gaps.

Type
Review Articles
Copyright
Copyright © The Authors 2017 

Chronic diseases, including cancers, CVD, chronic respiratory disease and diabetes, are the leading causes of death and disability, globally and in Canada( Reference Forouzanfar, Alexander and Anderson 1 Reference Murray, Vos and Lozano 4 ). Dietary risk factors are now recognized as the largest contributor to mortality both globally and in Canada( Reference Forouzanfar, Alexander and Anderson 1 , 2 ). Increasing prevalence of large-scale food retail stores and fast-food outlets, combined with industrialization of the global food system, have shifted the food supply in terms of food availability, affordability and quality( 5 , Reference Desjardins 6 ). These shifts have implications for overall diet quality by increasing the accessibility of low-cost, energy-dense and nutrient-poor foods and beverages( Reference Vandevijvere, Chow and Hall 7 ). Perhaps not surprisingly then, eating patterns observed among populations of industrialized countries show poor alignment with recommendations for health( 8 , Reference Krebs-Smith, Guenther and Subar 9 ).

There has been increasing consideration of food literacy as a significant influence on eating patterns. ‘Food literacy builds resilience, because it includes food skills (techniques, knowledge and planning ability), the confidence to improvise and problem-solve, and the ability to access and share information, and is made possible through external support with healthy food access and living conditions, broad learning opportunities, and positive sociocultural environments’( Reference Desjardins 6 ). Broadly speaking, food literacy highlights interconnectivity among food, health and the environment, while fostering a greater understanding of food beyond traditional nutrition recommendations and cookery lessons( Reference Vigden and Gallegos 10 ). Within the existing research exploring food literacy, there is variation in definitions and the characteristics, or attributes, considered to fall under the umbrella of this concept( Reference Vigden and Gallegos 10 ). This variation makes it difficult to generalize and compare results across studies. Prior efforts have also identified a notable absence of evaluated and standardized measurement tools specific to food skills and other attributes of food literacy, including food access, self-efficacy and confidence( Reference Desjardins 6 ). The lack of tools inhibits the ability to assess and monitor food literacy; tailor, target and evaluate programmes; identify gaps in programming; engage in advocacy efforts; and appropriately allocate resources. As a result, it is difficult for nutrition practitioners to assess the impact of food literacy on initiating and maintaining healthy diets and to evaluate the outcomes of interventions to support food literacy.

Recent research from Australia( Reference Vidgen and Gallegos 11 ) recommended the development of a measure of food literacy that can be applied across varying contexts, including research, policy and practice, to monitor the relationship between food literacy and overall nutrition and well-being. As an initial step in developing a measurement tool, we conducted a scoping review to characterize the attributes of food literacy as conceptualized by existing peer-reviewed and grey literature. For the purposes of the present study, an attribute was defined as a ‘quality or feature regarded as a characteristic or inherent part of someone or something’( 12 ).

Methods

Given the nascence of the concept of food literacy, the research team elected to use a scoping review methodology, which is useful when a body of literature has not yet been reviewed comprehensively and for the purpose of identifying key concepts( Reference Peters, Godfrey and Khalil 13 ). We followed the procedures outlined by Arskey and O’Malley( Reference Arksey and O’Malley 14 ) and later expanded by Levac et al.( Reference Levac, Colquhoun and O’Brien 15 ).

Identification of relevant studies and records

A systematic search was developed, tested and conducted by the team librarian (A.F.) using keywords intended to capture sources that included a conceptual model and/or framework and/or definitions and/or indicators of food literacy and/or food skills. Food skills were included based on previous work that suggested some relevant articles may not be captured with terms limited specifically to food literacy. Keywords included ‘food’ or ‘nutrition*’ in combination with ‘skill’ or ‘skilled’ or ‘skills’ or ‘literate’ or ‘literac*’ or literacy (* indicates a wild card). The MEDLINE search strategy is shown in the online supplementary material, Supplemental Table 1.

For the peer-reviewed literature (Fig. 1), the keywords were used to search the databases listed in Table 1. When applicable, results were limited using the Scholarly (Peer Reviewed) Journals filter. Results were limited to articles published in English between 2005 and February 2016 to capture the evolving concept of ‘food literacy’. Animal studies and those specific to malnutrition or nutrient deficiencies were excluded. The complete search strategies are available upon request. A total of 851 articles were retrieved from the peer-reviewed literature after removal of duplicates (Fig. 1) and screened. Articles that described an application of food literacy or focused on the description of food skills interventions or outcomes of interventions without addressing the conceptualization and/or definitions of food literacy were excluded. As well, eligible articles were limited to research carried out in Canada, the USA, the UK, Australia and New Zealand. In the typical scoping review methodology, articles for inclusion are not appraised for methodological quality. However, in the current project, articles that did not meet quality and relevance assessment criteria as they pertain to methodological rigour and public health application, as described by Rychetnik et al.( Reference Rychetnik, Frommer and Hawe 16 ) and Cameron et al.( Reference Cameron, Jolin and Walker 17 ), respectively, were excluded (e.g. editorials were excluded; case studies were included). A pilot round of independent title/abstract screening by two team members (H.T. and S.E.), using the predetermined inclusion and exclusion criteria, yielded a κ of 0·94. Titles and abstracts were then reviewed independently by these two researchers, leaving forty-five records for full-text review by two independent researchers. After screening, eleven articles remained; hand-searching identified an additional eight articles, increasing the total number of peer-reviewed articles included to nineteen.

Fig. 1 Peer-reviewed article yield

Table 1 List of electronic databases searched on 12 February 2016

For the grey literature (Fig. 2), a search of desLibris, a snowball approach based on known relevant sources and a review of the first ten pages of Google search results were conducted( Reference Arksey and O’Malley 14 , Reference Levac, Colquhoun and O’Brien 15 ). A total of 150 sources were retrieved from the grey literature and screened using the criteria noted above. A total of twenty-seven remained after screening. Hand-searching yielded an additional three sources, resulting in a total of thirty sources retrieved from the grey literature.

Fig. 2 Grey literature yield

Data abstraction and synthesis

For each included source, the type (e.g. peer-reviewed article, report), study methods, population(s) of interest, study location, and food literacy attributes and descriptors were abstracted (see online supplementary material, Supplemental Table 2). Data abstraction was conducted by E.M. and validated by L.P. After a preliminary list of food literacy attributes and descriptors was identified, a conceptual model was developed by the full team to organize and refine the attributes in relation to a definition identified through previous work by the authors( Reference Desjardins 6 ). ‘Food literacy categories’ were then proposed to capture the attributes and their descriptors.

Results

Fifteen food literacy attributes and associated descriptors were identified from the peer-reviewed and grey literature. These were organized into five key themes or categories (Table 2).

Table 2 Food literacy attributes and descriptors from the scoping review

Food and Nutrition Knowledge

This category encompasses attributes related to facts and information acquired through experience or education related to foods and nutrition. Within this category, four attributes were identified: (i) Food Knowledge; (ii) Nutrition Knowledge; (iii) Food Language; and (iv) Nutrition Language. Much of the literature reviewed focused on the importance of ‘baseline knowledge’ in foods and nutrition knowledge( Reference Vidgen and Gallegos 11 , 18 Reference Boehl 29 ). This referred to common knowledge of the variety of foods that exist, where they come from (including a connection to local food procurement), how food is produced, basic ingredients, and, to a lesser extent, rudimentary nutritional knowledge about the function of nutrients in the body. The literature suggested that knowledge assists in making informed decisions for ‘balanced food intake’( Reference Krebs-Smith, Guenther and Subar 9 ). Scripa( Reference Scripa 26 ) and Vaitkeviciute et al.( Reference Vaitkeviciute, Ball and Harris 30 ) in particular suggested such knowledge would help individuals understand what makes foods ‘healthy’ and ‘unhealthy’, while Vigden and Gallegos( Reference Vigden and Gallegos 10 ) spoke to the role of nutritional knowledge as a precursor to the ability to judge the quality of food. Boehl( Reference Boehl 29 ) and Desjardins( Reference Desjardins 6 ) identified the importance of food and nutrition language proficiency, specifically using everyday language to convey and comprehend information about types of foods (e.g. grains, milk products, meat) and food preparation techniques (e.g. sauté, fold).

Food Skills

Food Skills are defined as techniques of food purchasing, preparation, handling and storage. Within this category, two attributes were identified: (i) Food Techniques; and (ii) Food Skills Across the Lifespan. Food Techniques was found to be the most explicit food literacy attribute in the literature( Reference Vigden and Gallegos 10 , 18 , Reference Vidgen 19 , Reference Thonney and Bisogni 21 , Reference Gesundheit 31 Reference Thomas and Irwin 45 ) and refers to one’s ability to prepare foods using basic kitchen skills (e.g. chop, mix, stir, measure ingredients), as well as possess a basic competence in food preparation (e.g. fry, bake). Food Techniques also referred to the ability to identify cooking equipment needed in preparing food, the ability to read recipes, and the capacity to practise kitchen and food safety, referring to how to store, handle, prepare and dispose of food( Reference Vigden and Gallegos 10 , 18 , Reference Vidgen 19 , Reference Thonney and Bisogni 21 , 25 , Reference Condrasky 34 , Reference Driver and Friesen 42 ).

In terms of Food Skills Across the Lifespan, this attribute was conceptualized as the ability to prepare and manage food-related activities in a healthy way to adapt to critical points, transitions and paths along the life course( 18 , Reference De Campo 22 , 24 , Reference Thomas and Irwin 45 , Reference Colatruglio and Slater 46 ).

Self-Efficacy and Confidence

Within the context of the literature, efficacy is defined as the ability to produce a desired or intended result( 47 ). Applying this to health behaviours, the attributes in this category reflect an individual’s capacity to perform in specific settings or situations, including overcoming obstacles to achieve the desired outcome. These abilities are not inherent but rather are acquired through supportive environments. This is the largest category and includes five attributes: (i) Nutrition Literacy; (ii) Nutrition Self-Efficacy; (iii) Food Self-Efficacy; (iv) Cooking Self-Efficacy; and (v) Food Attitude.

Colatruglio and Slater( Reference Colatruglio and Slater 46 ) identified Nutrition Literacy as a ‘functional’ component of food literacy, which is described as the skill to identify credible, evidence-informed food and nutrition information. They noted that food literacy extends beyond functional literacy and encompasses developing personal skills regarding food and nutrition while respecting different cultures, family and spiritual beliefs.

Nutrition Self-Efficacy refers to the belief in one’s ability to use interactive and critical food literacy skills in decision making about purchasing, preparing and consuming foods with higher nutritional value( Reference Slater and Mudryi 48 , Reference Arnold 49 ). Arnold( Reference Arnold 49 ) suggests that such self-efficacy reflects the capacity, motivation, or, as framed by Driver and Friesen( Reference Driver and Friesen 42 ), confidence to perform such skills in a variety of settings and situations. Self-efficacy includes the ability to overcome obstacles or challenges that may limit one’s ability to purchase, prepare and consume healthy foods. Desjardins( Reference Desjardins 6 ) refers to this as ‘resiliency’. Gesundheit( Reference Gesundheit 31 ) and Scripa( Reference Scripa 26 ) further describe this attribute by suggesting self-efficacy extends beyond awareness of eating healthy and encompasses the desire or self-determination to improve in this capacity.

Food Self-Efficacy was described as the individual’s belief in his or her capability to perform food-related skills, including selection, purchasing and preparation of diverse foods and ingredients; planning and creating meals; and applying food skills across different situations( 18 , Reference Thonney and Bisogni 21 , Reference De Campo 22 , 25 , Reference Gero 35 , 41 , Reference Driver and Friesen 42 , 44 , Reference Slater and Mudryi 48 Reference Hollywood 53 ). Scripa( Reference Scripa 26 ) and Vaitkeviciute et al.( Reference Vaitkeviciute, Ball and Harris 30 ) further describe this attribute as one’s perceived ability to be open to taste and eat healthier food products, which suggests this is not an inherent characteristic, but rather an acquired skill. Whiteley and Matwiejczyk( Reference Whiteley and Matwiejczyk 28 ) particularly emphasize the importance of food self-efficacy in children to promote lifelong positive food attitudes.

Cooking Self-Efficacy refers to competence and confidence in the ability to prepare food, including confidence in cooking techniques, such as using a knife, stir-frying and grilling( Reference Condrasky 34 Reference Hartmann, Dohle and Siegrist 36 , 44 , Reference Colatruglio and Slater 46 , 52 Reference Hersch 54 ), as well as the ability to apply basic principles of safe food hygiene and handling when preparing food. Miketinas et al.( Reference Miketinas, Cater and Zawodiniak 55 ) also refer to the motivation or desire to cook and prepare healthy foods, which may be inherent and further encouraged or taught( Reference Colatruglio and Slater 46 ). Vidgen and Gallegos( Reference Vidgen and Gallegos 51 ) supplement this description by suggesting Cooking Self-Efficacy includes the ability to make good-tasting meals from ‘whatever food is available’ or ‘making something out of nothing’ by improvising with ingredients on hand and managing available resources( Reference Desjardins 6 ). It further involves the ability to conceptualize food preparation( 18 , 25 ) and be creative and passionate about food preparation and cooking food( 24 ).

Food Attitude is described in the literature as having an interest in learning how to prepare foods, developing positive attitudes towards foods (e.g. children enjoying vegetables), and the enjoyment of cooking and preparing meals( Reference Vigden and Gallegos 10 , 27 , 38 , Reference Miketinas, Cater and Zawodiniak 55 Reference Vrhonvnik 58 ). It is also associated with the desire to join in and eat socially, and respecting food for its associated traditions, culture, history and links with celebration( 18 , 25 ).

Ecologic (beyond self)

This category is defined as the macro- and mesosystems( Reference Bronfenbrenner 59 ) that interact with food decisions and practices. Within this category, three attributes were identified: (ii) Socio-Cultural Influences and Eating Practices; (ii) Food and Other Systems; and (iii) Infrastructure and Population-Level Determinants. While much of the emphasis in the literature is on food skills and capacity building to support a positive relationship with and understanding of food, several sources acknowledged the importance of understanding that food choices include both socio-economic( Reference Vidgen 19 , Reference Miketinas, Cater and Zawodiniak 55 Reference Vrhonvnik 58 ) and socio-cultural influences( Reference Bronfenbrenner 59 Reference Hardcastle and Blake 61 ). Socio-Cultural Influences and Eating Practices encompass values and norms as well as understanding the impact of food on personal well-being. Food and Other Systems, as an attribute of food literacy, refers to how individuals and populations interact with their food systems and the related impact on individual health, broader societal and economic well-being, and the environment( Reference Driver and Friesen 42 , Reference Vrhonvnik 58 ). This includes understanding what food is both available and accessible.

Infrastructure and Population-Level Determinants also encompass the financial capacity (e.g. income level, socio-economic status) to make healthy food choices along with other associated factors such as affordable housing, access to grocery stores and access to functional cooking equipment( 57 , Reference Vrhonvnik 58 , Reference Hardcastle and Blake 61 ). Additionally, the availability and accessibility of opportunities to learn about food, especially among children and youth, are noted as an integral aspect of this attribute( Reference Miketinas, Cater and Zawodiniak 55 , Reference Soliah, Walter and Antosh 62 ).

Food Decisions

The emphasis of the attribute in this category, Dietary Behaviour, is on the application of knowledge, information and skills to make healthy food choices; for example, ‘actively choosing whole grain options more often’.

Discussion

While early research related to food literacy focused on ‘food skills’, the literature reviewed here supports a broader conceptualization. Skills related to food selection, preparation, handling and storage were explicitly mentioned as being fundamental to food literacy( 18 , Reference Thonney and Bisogni 21 , Reference Pendergast and Dewhurst 23 , 25 , Reference Boehl 29 , Reference Byrd 33 , Reference Arnold 49 ), yet emphasis was also placed on efficacy, confidence and capacity related to food, nutrition and food preparation, especially in situations that may require addressing or overcoming barriers or obstacles( Reference De Campo 22 , 25 , Reference Driver and Friesen 42 , Reference Cornish and Morales 50 , Reference Soliah, Walter and Antosh 62 ).

Beyond the intrinsic factors, the literature also highlights ‘extrinsic’ characteristics of food literacy. These include broader social determinants of health that may enhance, or inhibit, the extent to which an individual or community has the capacity to develop and practise food literacy( Reference Hardcastle and Blake 61 ). Socio-cultural (food tradition, culture and history) and learning environments, family or other similar social supports, and food and cooking facilities can facilitate and enable food literacy for individuals( Reference Desjardins 6 , 18 , Reference De Campo 22 , 27 , Reference Condrasky 34 , Reference Cornish and Morales 50 ). In particular, the potential for these determinants to interact with food decisions and practices is noted throughout the literature, as evidenced by growing attention placed on the need for changes to the food system and food environment given their influence on eating patterns( Reference Desjardins 6 , Reference Vigden and Gallegos 10 , Reference Vidgen and Gallegos 11 , Reference Soliah, Walter and Antosh 62 , Reference Vidgen 63 ). Vidgen( Reference Vidgen 19 ) unequivocally emphasizes that food literacy is highly contextual and the determinants of this context are many, including the social determinants of health. Socio-economic components, such as financial feasibility, for example, may be seen as an essential part of being food literate.

Despite our categorization of attributes to provide conceptual clarity, it is important to emphasize that these attributes are intimately interconnected, as depicted in our proposed conceptual model (Fig. 3). The present work thus advances previous assumptions that the attributes of food literacy operate in an interdependent manner( Reference Vidgen 63 ). For example, it will be difficult for an individual to achieve food literacy without possessing the appropriate knowledge and skills, as well as the ability to apply them. However, in the absence of self-efficacy and confidence, and without access to resources for purchasing food, equipment and supplies for food preparation, neither knowledge nor ability is relevant. As a result, comprehensive approaches that are aligned with the social determinants of health will be required to impact food literacy and related health outcomes. Previously, there has been much emphasis on public health promotion strategies focused on nutrition education. However, such strategies have often not been successful in changing dietary intake( Reference Vidgen and Gallegos 11 ). Explicitly supporting and building food literacy may more effectively provide the ‘scaffolding’ needed to navigate the current food system and make healthy food decisions( Reference Vidgen and Gallegos 11 , Reference Vidgen 63 ).

Fig. 3 Food literacy conceptual model

There is currently no comprehensive, evaluated tool to measure the key attributes of food literacy( Reference Vidgen and Gallegos 11 , Reference Peters, Godfrey and Khalil 13 ). The attributes of food literacy identified here will be prioritized via a Delphi technique, with the aim of developing indicators for its measurement in the public health context. With such a tool, it will be possible to evaluate interventions targeting food literacy and to inform modifications to ensure that they have the desired impacts, with the long-term goal of promoting healthy eating and reducing disease risk among populations. Additionally, having a common language to describe food literacy can accelerate global knowledge translation, facilitate improved professional dialogue and networks, and streamline current programme offerings( Reference Vidgen 63 ). The research team is in the process of completing a research proposal to investigate the development of a food literacy measurement tool to be initially validated/evaluated with a priority population of youth and young adults. Ultimately, it is the research team’s goal to validate/evaluate the tool with a variety of populations across the life course as food literacy impacts people of all ages. The attributes identified in the present study can be applied to individuals in all age groups and life circumstances.

The review is not without limitations. It should be noted that a relatively small pool of articles meeting the inclusion criteria was identified. Further, it was challenging to compare findings across articles due to significant differences in study designs, methodologies and samples. As such, the scoping review provides a descriptive interpretation of the evidence available. However, the main goal was to map the available evidence v. seeking only the best available evidence from a critical appraisal perspective. Thus, a descriptive interpretation of the attributes was sufficient for the project’s purpose. The attributes and the corresponding themes were based on the judgement of the research team, relying on practice-based consensus (i.e. the expertise of a team of nutritionists with extensive experience in public health) to come to decisions.

In summary, food literacy is a complex phenomenon made up of multiple attributes, including those that are both intrinsic and extrinsic. By conceptualizing these attributes, the results of the present scoping review provide the foundation for the development of a measurement tool that can support monitoring and the evaluation of interventions to support food literacy.

Acknowledgements

Acknowledgements: The authors are grateful to members of the Food Literacy Locally Driven Collaborative Project Core Team, including Rebecca Davids, Jessica Hambleton, Jessica Love and Julie Slack; and members of the Knowledge User Team, including Karen Bellemore, Diana Chard, Carolyn Doris, Kelly Ferguson, Laura Needham, Sonia Jean-Philippe, Lynn Roblin, Catherine Schwartz and Magdelena Wasilewska. They are also grateful to librarian Carolynne Gabriel. The authors and project team would like to acknowledge their respective health units for allowing dedicated time to team members to conduct this project. The authors would like to thank Public Health Ontario (PHO) for its support of the Food Literacy Locally Driven Collaborative Project. The views expressed in this publication are the views of the authors and the Food Literacy Locally Driven Collaborative Project Core Team, and do not necessarily reflect those of PHO. Financial support: This project was funded by PHO through the Locally Driven Collaborative Project programme. PHO had no role in the study design, data analysis or writing of this manuscript. Conflict of interest: S.I.K. is an Associate Editor for Public Health Nutrition. All remaining authors have no conflict of interest. Authorship: E.A.P., H.T., H.R.S., S.E., L.D., A.F. and S.I.K. formulated the research question and designed the scoping review. A.F. conducted the searches; H.T. and S.E. participated in screening; and L.P. and E.M. verified the screening and abstracted the data. All authors contributed to drafting and revision of the manuscript. Ethics of human subject participation: Not applicable.

Supplementary Material

To view supplementary material for this article, please visit https://doi.org/10.1017/S1368980017001276

References

1. Forouzanfar, MH, Alexander, L, Anderson, HR et al. (2015) Global, regional, and national comparative risk assessment of 79 behavioural, environmental and occupational, and metabolic risks or clusters of risks in 188 countries, 1990–2013: a systematic analysis for the Global Burden of Disease Study 2013. Lancet 386, 22872323.Google Scholar
2. Institute for Health Metrics and Evaluation (2010) GBD Profile: Canada. Global Burden of Diseases, Injuries, and Risk Factors Study 2010. Seattle, WA: Institute for Health Metrics and Evaluation; available at https://www.healthdata.org/sites/default/files/files/country_profiles/GBD/ihme_gbd_country_report_canada.pdf Google Scholar
3. Manuel, DG, Perez, R, Bennett, C et al. (2012) Seven More Years: The Impact of Smoking, Alcohol, Diet, Physical Activity and Stress on Health and Life Expectancy in Ontario. Toronto, ON: Public Health Ontario, Institute for Clinical Evaluative Sciences; available at https://www.publichealthontario.ca/en/eRepository/PHO-ICES_SevenMoreYears_Summary_web.pdf Google Scholar
4. Murray, CJ, Vos, T, Lozano, R et al. (2012) Disability-adjusted life years (DALYs) for 291 diseases and injuries in 21 regions 1990–2010: a systematic analysis for the global burden of disease study. Lancet 380, 21972223.CrossRefGoogle ScholarPubMed
5. Health Canada (2013) Measuring the Food Environment in Canada. Ottawa, ON: Health Canada; available at http://www.foodsecuritynews.com/resource-documents/MeasureFoodEnvironm_EN.pdf Google Scholar
7. Vandevijvere, S, Chow, CC, Hall, KD et al. (2015) Increased food energy supply as a major driver of the obesity epidemic: a global analysis. Bull World Health Organ 93, 446456.Google Scholar
8. Health Canada (2004) Canadian Community Health Survey Cycle 2.2, Nutrition: A Guide to Accessing and Interpreting the Data. Ottawa, ON: Health Canada; available at http://www.hc-sc.gc.ca/fn-an/alt_formats/hpfb-dgpsa/pdf/surveill/cchs-guide-escc-eng.pdf Google Scholar
9. Krebs-Smith, SM, Guenther, PM, Subar, AF et al. (2010) Americans do not meet federal dietary recommendations. J Nutr 140, 18321838.CrossRefGoogle Scholar
10. Vigden, HA & Gallegos, D (2014) Defining food literacy and its components. Appetite 76, 5059.Google Scholar
11. Vidgen, HA & Gallegos, D (2010) Food literacy: time for a new term or just another buzzword? J Home Econ 17, 28.Google Scholar
12. Oxford Dictionaries (2016) Definition of attribute in English. https://en.oxforddictionaries.com/definition/attribute (accessed July 2016).Google Scholar
13. Peters, MDJ, Godfrey, CM, Khalil, H et al. (2015) Guidance for conducting systematic scoping reviews. Int J Evid Based Healthc 13, 141146.CrossRefGoogle ScholarPubMed
14. Arksey, H & O’Malley, L (2005) Scoping studies: towards a methodological framework. Int J Soc Res Methodol 8, 1932.Google Scholar
15. Levac, D, Colquhoun, H & O’Brien, KK (2010) Scoping studies: advancing the methodology. Implement Sci 5, 59085969.CrossRefGoogle ScholarPubMed
16. Rychetnik, L, Frommer, M, Hawe, P et al. (2002) Criteria for evaluating evidence on public health interventions. J Epidemiol Community Health 56, 119127.Google Scholar
17. Cameron, R, Jolin, MA, Walker, R et al. (2001) Linking science and practice: toward a system for enabling communities to adopt best practices for chronic disease prevention. Health Promot Pract 2, 3542.Google Scholar
18. Ministry of Health Promotion (2010) Healthy Eating, Physical Activity and Healthy Weights Guidance Document. http://www.health.gov.on.ca/en/pro/programs/publichealth/oph_standards/docs/guidance/healthyeating_physicalactivity_healthyweights_gd.pdf (accessed July 2016).Google Scholar
19. Vidgen, H (2014) Food literacy: what is it and does it influence what we eat? https://eprints.qut.edu.au/66720/1/Helen_Vidgen_Thesis.pdf (accessed July 2016).Google Scholar
20. Nowak, AJ (2012) Building food literacy and positive relationships with healthy food in children through school gardens. Child Obes 8, 392395.Google Scholar
21. Thonney, PF & Bisogni, CA (2006) Cooking Up Fun! A youth development strategy that promotes independent food skills. J Nutr Educ Behav 38, 321323.Google Scholar
22. De Campo, H (2011) Eat your words: an investigation into food literacy as a means of stimulating an appetite for learning and engagement. http://avetra.org.au/wp-content/uploads/2011/05/37.00.pdf (accessed July 2016).Google Scholar
23. Pendergast, D & Dewhurst, Y (2012) Home economics and food literacy: an international investigation. Int J Home Econ 5, 245263.Google Scholar
24. Province of Nova Scotia (2012) THRIVE! A plan for a healthier Nova Scotia. https://thrive.novascotia.ca/sites/default/files/Thrive-Strategy-Document.pdf (accessed July 2016).Google Scholar
25. Conference Board of Canada (2013) What’s to Eat? Improving Food Literacy in Canada. http://www.conferenceboard.ca/cfic/research/2013/whatstoeat.aspx (accessed July 2016).Google Scholar
26. Scripa, I (2013) Development and implementation of nutrition education classes and cooking sessions into an existing life skills program for young mothers at the YWCA of Greensboro, NC. https://libres.uncg.edu/ir/uncg/f/Scripa_uncg_0154D_10999.pdf (accessed July 2016).Google Scholar
27. Sustain Ontario & Ontario Edible Education Network (2014) A discussion about food literacy within the context of the Local Food Act. https://sustainontario.com/custom/uploads/2014/06/FoodLiteracy_DraftDiscussionPaper_June2014.pdf (accessed July 2016).Google Scholar
28. Whiteley, C & Matwiejczyk, L (2015) Preschool program improves young children’s food literacy and attitudes to vegetables. J Nutr Educ Behav 47, 397.e1398.e1.Google Scholar
29. Boehl, T (2007) Linguistic issues and literacy barriers in nutrition. J Am Diet Assoc 107, 380383.CrossRefGoogle ScholarPubMed
30. Vaitkeviciute, R, Ball, LE & Harris, N (2015) The relationship between food literacy and dietary intake in adolescents: a systematic review. Public Health Nutr 18, 649658.Google Scholar
31. Gesundheit, V (2006) Savoury Dishes for Adult Education and Counselling. http://www.food-literacy.org/download2.php?f=939&h=0ace7f29e624c68cd98353752f75ac6b (accessed July 2016).Google Scholar
32. Rawl, R (2008) A learn and serve nutrition program: the Food Literacy Partners Program. J Nutr Educ Behav 40, 4951.Google Scholar
33. Byrd, SH (2011) First-year college experience as a tool for nutrition education and food preparation skills. J Acad Nutr Diet 111, A54.Google Scholar
34. Condrasky, MD (2012) Culinary nutrition skill development of pre-adolescent cooking camp participants. J Acad Nutr Diet 112, A50.Google Scholar
35. Gero, K (2012) Incorporating a skills-based nutrition curriculum in a high school health class. J Acad Nutr Diet 112, A49.Google Scholar
36. Hartmann, C, Dohle, S & Siegrist, M (2013) Importance of cooking skills for balanced food choices. Appetite 65, 125131.Google Scholar
37. Ontario Food and Nutrition Strategy (2013) A Plan for Healthy Food and Farming. https://sustainontario.com/custom/uploads/2013/09/OFNS_ActionPlan_Sept-30_13.pdf (accessed July 2016).Google Scholar
38. Capital Region Agriculture Initiatives Roundtable (2014) Food Literacy PAR Development Project Report. https://www.uvic.ca/research/centres/cue/assets/docs/Food%20Literacy%20PAR%20Development%20Project%20Report_June%202014.pdf (accessed July 2016).Google Scholar
39. Ontario Society of Nutrition Professionals in Public Health (2015) Food Literacy: A Call to Action. https://www.osnpph.on.ca/upload/membership/document/food-literacy-a-call-to-action-sept-2015_3.pdf#upload/membership/document/food-literacy-a-call-to-action-sept-2015_3.pdf (accessed July 2016).Google Scholar
40. McMullan, B, Dworatzek, P, Seabrook, J et al. (2016) Self-reported food skills of secondary school students. Scientific Abstracts from the 7th Annual Scientific Meeting of the Canadian Nutrition Society, Gatineau-Ottawa, Quebec, Canada, 5–7 May 2016. http://www.nrcresearchpress.com/doi/pdf/10.1139/apnm-2016-0099 (accessed July 2016).Google Scholar
42. Driver, S & Friesen, C (2016) Impact of a pilot intervention to improve nutrition knowledge and cooking confidence among low-income individuals. J Food Res 5, 8896.Google Scholar
43. Kennedy, L, Seabrook, J, Matthews, J et al. (2016) Assessing validity of a food skills questionnaire in post-secondary students. Scientific Abstracts from the 7th Annual Scientific Meeting of the Canadian Nutrition Society, Gatineau-Ottawa, Quebec, Canada, 5–7 May 2016. http://www.nrcresearchpress.com/doi/pdf/10.1139/apnm-2016-0099 (accessed July 2016).Google Scholar
44. Ontario Ministry of Agriculture, Food and Rural Affairs (2016) 2015/16 Ontario Local Food Report. http://www.omafra.gov.on.ca/english/about/local_food_rpt16.htm (accessed July 2016).Google Scholar
45. Thomas, H & Irwin, J (2011) Cook it up! A community-based cooking program for at-risk youth: overview of a food literacy intervention. BMC Res Notes 4, 495.Google Scholar
46. Colatruglio, S & Slater, J (2014) Food literacy: bridging the gap between food nutrition, and well being. In Sustainable Well-Being: Concepts, Issues, and Educational Practices, p. 49 [F Deer, T Falkenberg, B McMillan B et al., editors]. Winnipeg, MB: ESWB Press.Google Scholar
47. Oxford Dictionaries (2016) Definition of efficacy in English. https://en.oxforddictionaries.com/definition/efficacy (accessed July 2016).Google Scholar
48. Slater, J & Mudryi, A (2016) Self-perceived eating habits and food skills of Canadians. J Nutr Educ Behav 48, 486495.Google Scholar
49. Arnold, CL (2007) Effect of goal development on self-efficacy and stages of change for nutrition behaviors. Dissert Abstr Int Sect A: Humanities Soc Sci 67, issue 9-A, 3315.Google Scholar
50. Cornish, LS & Morales, C (2015) The impact of consumer confusion on nutrition literacy and subsequent dietary behavior. Psychol Mark 32, 558574.Google Scholar
51. Vidgen, HA & Gallegos, D (2012) Defining food literacy, its components, development and relationship to food intake: a case study of young people and disadvantage. https://eprints.qut.edu.au/53786/1/Food_literacy_and_young_people_report.pdf (accessed July 2016).Google Scholar
52. Metcalf Food Solutions (2010) Menu 2020: Ten Good Food Ideas for Ontario. http://metcalffoundation.com/wp-content/uploads/2011/05/menu-2020.pdf (accessed July 2016).Google Scholar
53. Hollywood, LE (2013) Healthful grocery shopping. Perceptions and barriers. Appetite 70, 119126.Google Scholar
54. Hersch, D (2014) The impact of cooking classes on food-related preferences, attitudes, and behaviors of school-aged children: a systematic review of the evidence, 2003–2014. Prev Chronic Dis 11, E193.Google Scholar
55. Miketinas, D, Cater, M, Zawodiniak, B et al. (2015) An exploratory study of high school students’ intrinsic motivation and perceived competence to cook: development of a culinary skills curriculum and survey instrument. FASEB J 29, 1 Suppl., 264.4.Google Scholar
57. Peterborough County-City Health Unit (2007) Food Security Community Partnership Project: An Overview of 2006–2007 Activities and Recommendations for Continuation. http://peterboroughpublichealth.ca/wp-content/uploads/2011/10/PH-food-security-report-2007.pdf (accessed July 2016).Google Scholar
58. Vrhonvnik, L (2012) A pilot study for the development of a food skills survey tool. https://qspace.library.queensu.ca/bitstream/handle/1974/7323/Vrhovnik_Lydia_201207_MSc.pdf;jsessionid=B0EAFAE855157C13F939AD4B6C574154?sequence=3 (accessed July 2016).Google Scholar
59. Bronfenbrenner, U (1999) Environments in developmental perspective: theoretical and operational models. In Measuring Environment Across the Life Span: Emerging Methods and Concepts, pp. 328 [SL Friedman and TD Wachs, editors]. Washington, DC: American Psychological Association Press.Google Scholar
60. Stead, M, Caraher, M, Wrieden, W et al. (2004) Confident, fearful and hopeless cooks: findings from the development of a food-skills initiative. Br Food J 106, 274287.Google Scholar
61. Hardcastle, J & Blake, N (2016) Influences underlying family food choices in mothers from an economically disadvantaged community. Eat Behav 20, 18.Google Scholar
62. Soliah, L, Walter, J & Antosh, D (2006) Quantifying the impact of food preparation skills among college women. Coll Stud J 40, 7290739.Google Scholar
63. Vidgen, HA (editor) (2016) Food Literacy: Key Concepts for Health and Education. London: Routledge.Google Scholar
64. Cha, E, Kim, KH, Lerner, HM et al. (2014) Health literacy, self-efficacy, food label use, and diet in young adults. Am J Health Behav 38, 331339.Google Scholar
65. Condrasky, MD, Williams, JE, Catalano, PM et al. (2011) Development of psychosocial scales for evaluating the impact of a culinary nutrition education program on cooking and healthful eating. J Nutr Educ Behav 43, 511516.Google Scholar
66. Panichelli, J, Seman, L, Berg, C et al. (2011) Skills-based nutrition education for low-income families at the supermarket. J Am Diet Assoc 111, A48.Google Scholar
67. Cullen, T, Hatch, J, Martin, W et al. (2015) Food literacy: definition and framework for action. J Can Diet Pract Res 76, 140145.Google Scholar
Figure 0

Fig. 1 Peer-reviewed article yield

Figure 1

Table 1 List of electronic databases searched on 12 February 2016

Figure 2

Fig. 2 Grey literature yield

Figure 3

Table 2 Food literacy attributes and descriptors from the scoping review

Figure 4

Fig. 3 Food literacy conceptual model

Supplementary material: File

Azevedo Perry supplementary material

Table S1

Download Azevedo Perry supplementary material(File)
File 13 KB
Supplementary material: File

Azevedo Perry supplementary material

Table S2

Download Azevedo Perry supplementary material(File)
File 16.7 KB