Hostname: page-component-cd9895bd7-dk4vv Total loading time: 0 Render date: 2024-12-23T17:07:06.593Z Has data issue: false hasContentIssue false

Validity and reliability of the Turkish version of the Sustainable and Healthy Eating Behaviors Scale

Published online by Cambridge University Press:  08 August 2022

Eda Köksal
Affiliation:
Faculty of Health Sciences, Department of Nutrition and Dietetics, Gazi University, Emek, Ankara, Turkey
Saniye Bilici
Affiliation:
Faculty of Health Sciences, Department of Nutrition and Dietetics, Gazi University, Emek, Ankara, Turkey
Merve Esra Çıtar Dazıroğlu*
Affiliation:
Faculty of Health Sciences, Department of Nutrition and Dietetics, Gazi University, Emek, Ankara, Turkey
Nazlıcan Erdoğan Gövez
Affiliation:
Faculty of Health Sciences, Department of Nutrition and Dietetics, Gazi University, Emek, Ankara, Turkey
*
*Corresponding author: Merve Esra Çıtar Dazıroğlu, email [email protected]
Rights & Permissions [Opens in a new window]

Abstract

This study was conducted to determine the validity and reliability of the Turkish version of the Sustainable and Healthy Eating (SHE) Behaviors Scale. The original scale included eight factors and thirty-four items related to the SHE behaviors of adults. The research was carried out in three stages with a total of 586 participants aged 19 to 50 years. The Cronbach alpha coefficient was used to evaluate internal consistency reliability and the test–retest method was applied. Exploratory factor analysis (EFA) was performed to determine the factor structure. The model obtained with EFA was evaluated with confirmatory factor analysis (CFA). The Cronbachαcoefficient of the scale was found to be excellent at 0·912, and the intra-class correlation coefficient was found to be good at 0·832 using the test–retest method. Considering the suitability of the data for factor analysis, the Kaiser–Meier–Olkin coefficient was 0·859, and the significance level of the Bartlett test of sphericity was less than 0·05 (χ2=3·803,25; P < 0·05). As a result of EFA, the items of the scale were found to be distributed in seven factor dimensions. The factor loadings of the items were between 0·516 and 0·890, and the factors explained 67 % of the variance. Considering the fit indices obtained as a result of the analysis of this model with CFA, it was seen that the model had an acceptable fit (χ2/sd = 2·593, comparative fit index = 0·915, Tucker–Lewis index=0·902, standardised root mean square error = 0·0754 and root mean square error of approximation = 0·067). In conclusion, the Turkish version of the SHE Behaviors Scale has credible reliability and construct validity to assess the sustainable and healthy eating behaviours of the Turkish adult population.

Type
Research Article
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), 2022. Published by Cambridge University Press on behalf of The Nutrition Society

Consuming a healthy diet throughout the course of life helps to prevent malnutrition in all its forms as well as various non-communicable diseases and conditions. However, increased production of processed foods, rapid urbanisation and changing lifestyles have led to a shift in dietary patterns. People are now consuming more foods high in energy, fats, free sugars and salt/Na, and many people do not eat enough fruits, vegetables and other dietary fibres such as whole grains(1). In recent years, governments have become aware that this kind of dietary pattern has adverse effects not only on human health but also on environmental health. Hence, researchers are now focusing on the potential impacts of the sustainability of the ecosystem regarding individual and community health, and a significant relationship between human health and the health of the planet has been claimed(Reference Burlingame and Dernini2). It is clear that by adapting healthy diets, more environmentally friendly eating habits are formed, and this contributes to the improvement of public health(Reference Żakowska-Biemans, Pieniak and Kostyra3). In addition, the amount and the quality of the food consumed should be sufficient as a whole, food culture should be protected and food diversity should be supported in line with the nutritional guidelines established by scientific authorities. Promoting biodiversity is crucial not only in the cultural and ecological fields but also in the fight against malnutrition(Reference Aranceta-Bartrina and Pérez-Rodrigo4).

The concept of sustainable nutrition was proposed to define a diet that avoids the excessive degradation and consumption of natural resources and that also adheres to principles of nutrition that will maintain long-term health(Reference Jones, Hoey and Blesh5). Although not universally accepted, it was defined by the FAO of the UN as follows: ‘Sustainable diets, contributing to food security for the healthy life of the current and future generations, have low environmental impacts, are protective of and sensitive to biodiversity and ecosystem, and are culturally acceptable, accessible, economically viable and affordable, nutritionally adequate, safe and healthy diets that make the best use of natural and human resources’(Reference Burlingame and Dernini2).

At the Second International Nutrition Conference in 2014, the FAO and WHO devoted nine of sixty nutritional recommendations to sustainable food system actions that promote healthy food. In September 2015, the UN adopted the sustainable development goals (SDG), a set of seventeen global goals with specific targets aimed at ending poverty, protecting the planet and ensuring prosperity for all by 2030. It is noteworthy that achieving several SDG is crucial for achieving the nutrition goal. ‘Nutrition’ is an essential component for achieving many of the other SDG. The need for better nutrition was recognised in the SDG, which aim to ‘end hunger, achieve food security, improve nutrition, and promote sustainable agriculture.’ Unfortunately, the world is not making overall progress toward the SDG, such as ensuring access to safe, nutritious and sufficient food for all people year round and eradicating all forms of malnutrition. Regarding policy, work needs to be done at the production level to provide easier and healthier food choices at the consumption level(Reference Grosso, Mateo and Rangelov6). Considering the situation in Turkey, Turkey ranks 70th out of 165 countries according to the Sustainable Development Reports. This means that Turkey is a country that still requires significant development in terms of sustainability(Reference Sachs, Kroll and Lafortune7). The FAO declared that one of the pathways to food system transformation is changing consumer behaviours to strengthen food environments and promote dietary patterns that have positive impacts on human health and the environment(8). Therefore, it is clear that more emphasis should be placed on sustainability worldwide.

In this context, interventions targeting the general population are needed to educate people and promote behaviour change toward the adoption of healthy and sustainable diets within daily routines. Healthcare providers should be involved in promoting such goals and educating populations for healthier and more sustainable lifestyles. Promoting food sustainability requires more attention to the cultural and social contexts of consumers(Reference Schösler and de Boer9). By determining the level of awareness, behaviours and attitudes of individuals regarding sustainability and to increase their awareness, it is important to provide education and create policies in this context. Therefore, as the first step, scales and questionnaires related to this issue are critical. Several validated measurement scales exist for assessing various aspects of sustainable food-related behaviours (e.g. Index of Sustainability of Food Practices, Sustainable Food Behavior Scale or Green Eating Behavior Scale)(Reference Tobler, Visschers and Siegrist10Reference Weller, Greene and Redding12). However, these scales determine sustainable behaviours without considering the principles of healthy nutrition. The Sustainable and Healthy Eating (SHE) Behaviors Scale was developed by Żakowska-Biemans et al. to measure the self-reported sustainable and healthy eating behaviours of young adults(Reference Żakowska-Biemans, Pieniak and Kostyra3). Because it deals with the concepts of both sustainability and healthy nutrition, the SHE Behaviors Scale was used in this study. In this process, it was also important to confirm the validity and reliability of the scale in Turkish as there are no other scales for assessing sustainable and healthy eating behaviours.

This study therefore aimed to evaluate the validity and reliability of the SHE Behaviors Scale developed by Żakowska-Biemans et al.(Reference Żakowska-Biemans, Pieniak and Kostyra3) in the Turkish population.

Methods

Study design and participants

This cross-sectional study was conducted between September 2019 and December 2020 in three stages with participants aged between 19 and 50 years (X ± sd: 27·7 ± 8·65 years) who were living in Ankara, the capital city of Turkey, and were selected by the snowball sampling method. Individuals were excluded from the study if they had any psychological disorder and/or chronic disease requiring the following of a specific diet, had any eating disorder, were pregnant and/or breastfeeding or did not agree to participate in the study.

In the first stage, the language validity of the SHE Behaviors Scale developed by Żakowska-Biemans et al.(Reference Żakowska-Biemans, Pieniak and Kostyra3) was conducted with twenty individuals.

In the second stage, it was planned to apply the original scale consisting of eight factors and thirty-four items to at least 170 individuals. That decision was reached based on the suggestion that the number of individuals should be at least 5–10 times greater than the number of items in a scale when determining sample size for explanatory factor analysis (EFA) in studies developed in different languages and/or cultures(Reference Osborne and Costello13). In this context, 226 individuals were reached. To evaluate the reliability of the scale, it was re-administered to fifty people 15 d later using the test–retest method.

In the third stage of the study, since it was not appropriate to use the same dataset in the analysis of the model obtained by EFA for confirmatory factor analysis (CFA), a different data set of similar size was used, and this stage was completed with 360 individuals(Reference Van Prooijen and Van Der Kloot14). A flowchart of the study is provided in Fig. 1.

Fig. 1. Flowchart for this study.

For the validity and reliability analysis of the scale, permission was obtained from the authors of the original scale via e-mail. Permission was subsequently obtained from the Gazi University Ethics Committee (dated 26·06·2019 and numbered 07), and the study was carried out in accordance with the principles of the Declaration of Helsinki.

Sustainable and healthy eating behaviors scale

The SHE Behaviors Scale was developed by Żakowska-Biemans et al.(Reference Żakowska-Biemans, Pieniak and Kostyra3) to identify how young adults interpret the concept of SHE with an instrument that measures self-reported consumer SHE behaviours. This scale consists of eight factors and thirty-four items in total. The eight factors are Healthy and Balanced Nutrition, Quality Labels (Local and Organic), Meat Reduction, Local Food, Low Fat, Avoiding Food Waste, Animal Welfare and Seasonal Foods. The thirty-four items are scored on a Likert-type scale (Table 1). Factor 1 contains ten questions, factor 2 contains five, factor 3 contains four and factors 4–8 each contain three questions. Participants are asked to score each item as ‘never,’ ‘very rarely,’ ‘rarely,’ ‘sometimes,’ ‘often,’ ‘very often,’ or ‘always.’ ‘Never’ is rated as 1 point and ‘always’ as 7 points. Factor scores are calculated by taking the average of the scores (between 1 and 7 points) given to the items in that factor. In calculating the total scale score, the average of the scores given to all factors is taken(Reference Żakowska-Biemans, Pieniak and Kostyra3) (Table 1).

Table 1. Mean (X), standard deviation (sd), total item score correlations and Cronbach’s α values of the Sustainable and Healthy Eating Behaviors scale

* Items 26 and 27 are coefficient included in the model.

** Items 26 and 27 are non-model coefficient.

Language validity

In the process of adapting the scale to Turkish, studies were first carried out to ensure language validity. As a translation technique, the standard procedure recommended by Brislin (1986) and Prieto (1992) was followed, whereby the scale was translated from English to the target language (Turkish) by researchers who knew both languages well(Reference Brislin, Lonner and Berry15,Reference Prieto16) .

The original scale was independently translated from English to Turkish by three experts with a good command of English. In the language adaptation, the standard translation–back translation method was used to minimise differences in expression. The translation from English was done by native Turkish speakers who had not seen the original English version of the scale and were fluent in both languages. To ensure the clarity of the scale and its suitability for both the research and the culture, the researchers reviewed it. The researchers examined the agreement in meaning and the Turkish text was obtained from the most appropriate expressions. After all statements of the scale were corrected by the researchers, it was applied to twenty individuals who met the inclusion criteria and was finalised in line with their recommendations about the meaning. The data obtained as a result of this pre-application were not used in the later stages of the study.

Reliability and validity evaluation

After the scale was adapted to Turkish, its internal consistency reliability was evaluated with the Cronbach α coefficient. While the α coefficient should be at least 0·70, values of 0·80 and above are considered very good and values of 0·90 and above are considered excellent(Reference Kline17).

In addition, since there is no other scale similar to the scale being evaluated here, the scale’s reliability was determined by the test–retest method. The intraclass correlation coefficient was obtained as a result of re-administering the scale to fifty people 15 d later. intraclass correlation coefficients are evaluated as reflecting moderate reliability within the range of 0·50–0·75 and good reliability within the range of 0·75–0·90(Reference Koo and Li18).

The scale was evaluated with EFA in terms of construct validity. The Kaiser–Meier–Olkin coefficient was used to test whether the sample size was sufficient in this study, and the Bartlett test of sphericity was used to determine whether there was a correlation between the items that were prerequisites for factor analysis. The Kaiser–Meier–Olkin value should be ≥ 0·60 and the significance level of the Bartlett sphericity test should be less than 0·05(Reference Streiner, Norman and Cairney19). To evaluate the necessity of the items in the scale, the factor loadings obtained as a result of EFA and the corrected item-total score correlations were examined(Reference Streiner, Norman and Cairney19,Reference Dimitrov20) .

After evaluating the scale’s suitability for factor analysis, varimax rotation principal component analysis was applied to evaluate the construct validity and factor structure of the scale with EFA. Factors with eigenvalues (λ) of ≥ 1·0 obtained by the extraction of principal components were accepted(Reference Dimitrov20).

CFA was used to compare the factor structure of the adapted scale with the factor structure of the original scale in order to identify similarities and differences and to evaluate the suitability of the model for the relevant society(Reference Hurley, Scandura and Schriesheim21). The items in the factor structure that emerged as a result of EFA were also re-examined with CFA without any modifications, and chi-square/degree of freedom (χ2/sd), root mean square error of approximation (RMSEA), standardised root mean square error, comparative fit index (CFI) and Tucker–Lewis index values were reported as fit indices(Reference Brown22).

In the evaluation of these fit indices, chi-square/degree of freedom (χ2/sd) values of < 3, CFI and Tucker–Lewis index values of ≥ 0·90, and standardised root mean square error and RMSEA values of ≤ 0·08 were considered as acceptable fit criteria(Reference Brown22,Reference Hu and Bentler23) .

Statistical evaluation

In the evaluation of the data, IBM SPSS Statistics 22.0 was used for EFA, reliability analysis and descriptive statistics, and IBM SPSS Amos was used for CFA. Item scores from the scale are given as mean (X) and standard deviation (sd) values.

Results

Study population

To determine the reliability of the scale, 226 individuals were reached. The mean age of these individuals was 21·6 ± 1·86 years and 91·2 % of them were women. To determine the validity, 360 individuals were reached. The mean age of these individuals was 27·7 ± 8·65 years and 58·1 % were women.

Reliability and validity analysis

After the scale was adapted to Turkish, its internal consistency reliability was calculated with the Cronbach α reliability coefficient and was found to be excellent at 0·912. The lowest Cronbach α coefficient of the factors was that for the Healthy and Balanced Nutrition factor at 0·764, and after removing two items (items 26 and 27) with item-total correlations of less than 0·30, the highest was determined to be 0·901 for the factor of Meat Reduction. In the evaluation of the reliability of the scale after applying the test–retest method, the intraclass correlation coefficient value was determined to be 0·832, signifying good reliability. When the mean values of the factors of the scale were examined, it was found that the highest mean score was 4·6 ± 0·76 for quality labels (local and organic) and the lowest mean score was 2·8 ± 1·28 for local food (Table 1).

EFA was performed to determine how many factors the thirty-four items in the scale were distributed in and to reveal the factor structure of the scale. The result obtained for the Kaiser–Meier–Olkin coefficient showed that the sample size was sufficient (Kaiser–Meier–Olkin = 0·859). As a result of the Bartlett test of sphericity, the correlation level between the items was found to be sufficient for factor analysis (χ2 = 3·803,25; P < 0·05). As a result, eight-factor rotation was applied, as in the original version of the scale. When the factor structures that emerged as a result of rotation with eight factors were examined, it was observed that there were seven factors with eigenvalues above 1, unlike the original, and the items were distributed among these factors. In addition, as a result of EFA, the factor loadings of two of the thirty-four items (items 26 and 27) were excluded from the scale because they overlapped with another factor. The difference was less than 0·1 and the item-total correlations were less than 0·30. After this stage, two items were removed and EFA analysis was performed again with thirty-two items. As a result of this updated EFA, it was seen that the factor loadings of the items in the seven factors with eigenvalues of greater than 1 were greater than 0·50 and the scale explained 67 % of the total variance. As can be seen in Table 2, the distribution of the remaining thirty-two items in the final version of the scale was as follows: items 1–8 were grouped within the first factor, items 9–15 within the second factor, items 28–31 within the third factor, items 23–25 within the fourth factor, items 16–19 within the fifth factor, items 20–22 within the sixth factor and items 32–34 within the seventh factor (Table 2).

Table 2. Distribution of SHE behaviors scale items according to factors of a result of EFA, factor loadings, eigenvalues of factors and percentages to explain variance

The items in the factor structure that emerged as a result of EFA were re-examined with CFA without changing them and the χ2/sd, RMSEA, standardised root mean square error, CFI and Tucker–Lewis index fit indices were calculated, as shown in Table 3. According to the fit indices used in this study, the model has an acceptable fit. According to these results, the values obtained from the scale confirm the acceptability and applicability of the Turkish version (Annex 1) of the SHE Behaviors Scale (Table 3).

Table 3. Fit statistics of model with CFA

Discussion

Consumers play a crucial role in promoting sustainable food systems, influencing them through choices and habits, and they also have an incomparable impact on the environment and natural resources(Reference Pocol, Marinescu and Amuza24). As promoting food sustainability requires much more attention to cultural and social contexts, we aimed to demonstrate the validity and reliability of the SHE Behaviors Scale among Turkish adults. This scale was developed for adults, and Turkish validity and reliability studies were also conducted among adults. Accordingly, this scale is suitable for use in the adult population of this society. It is thought that those who work in other fields of health, and especially nutrition and dietetics, can also use this scale to contribute to the development of nutritional behaviour.

According to the results of this study, the Turkish version of the SHE Behaviors Scale is valid and reliable with seven factors and thirty-two items. As a result of EFA, higher total variance was explained than the total variance (64·7 %) in the original study. The Cronbach α internal reliability coefficients of the study ranged from 0·764 to 0·901, similar to those of the original scale (0·60–0·92). Similarly to this study, the χ2/sd, CFI and RMSEA values were also evaluated in the original study and the desired high values were obtained.

It was seen that the CFI was 0·96 while the χ2/sd and RMSEA values, which are desired to be low, were 1·74 and 0·059, respectively. In this study, both these fit indices and others were found to have suitable values, as in the original.

Among consumers, local products are perceived as healthier, unprocessed and containing fewer preservatives. Some consumers express their confidence in natural, unprocessed food products and the value of local products is seen to lie in their quality, interpreted as naturalness and freshness(Reference Barska and Wojciechowska-Solis25). In the present study, when the mean values of the subdimensions of the scale were examined, the Quality Labels factor, which includes regional and organic items, was found to have the highest value. These findings were supported by the results of some other studies that reported that quality is an important criterion in terms of consumer awareness(Reference Luykx and Van Ruth26,Reference Sevilmiş, Olgun and Artukoğlu27) .

The mean value of the Local Food factor in the scale was found to be the lowest at 2·8 ± 1·28. This may have been due to the fact that these products are not easily available at markets or directly from their producers, and they are expensive. The mean score for the Seasonal Foods and Avoiding Food Waste factor was found to be 3·9 ± 0·99. In the original study of Żakowska-Biemans et al.(Reference Żakowska-Biemans, Pieniak and Kostyra3), unlike our study, the highest score was found for these two factors (4·92 ± 1·16 and 4·67 ± 1·16). The Food Sustainability Index scores of 78 countries were published by the Barilla Food and Nutrition Center in 2021(28), and when the rate of food loss was evaluated over the total products produced in the country, Turkey’s score was found to be 52·1, reflecting high sustainability. According to this result, it should be emphasised that more attention is being paid to food waste at the end consumer level in this country, although it is still necessary to develop stricter policies to prevent food loss in Turkey. Turkey has been actively fighting food waste with a campaign called ‘Save Your Food’ launched by FAO, with Turkey cooperating to raise public awareness and promote good practices in the food supply chain. The campaign led to Turkey’s first National Strategy and Action Plan on the Prevention and Reduction of Food Loss and Waste, developed by the FAO and the Ministry of Agriculture and Forestry(29). Furthermore, the mean score for the Meat Reduction factor of the scale was found to be 4·1 ± 1·22. Looking at the Food Sustainability Index, Turkey’s sustainability score was found to be 100·0 (high sustainability) due to relatively low meat consumption levels. In this study, it was observed that individuals tended to reduce their meat consumption since the scores obtained for the Meat Reduction factor were high(28).

Conclusion

Sustainable and healthy nutrition is a multi-faceted concept, and all foods that are consumed have environmental effects. Shifting towards a more sustainable food consumption pattern is an important strategy to mitigate climate change. Consumers’ sustainable diet preferences also entail characteristics such as cultural acceptability, accessibility, economic fairness and affordability, which highlights the connections among health, environmental sustainability and the food production aspects of a diet with the dietary patterns of consumers as the common denominator. The Turkish version of the SHE Behaviors Scale was found to be valid and reliable for determining sustainable and healthy eating behaviours of adults.

Acknowledgments

The authors would like to thank the Gazi University Academic Writing Application and Research Centre for proofreading this article.

None.

E. K.: Writing – Review and Editing, Methodology, Data Curation, Formal Analysis, Supervision. S. B.: Writing – Review and Editing, Methodology, Data Curation, Formal Analysis and Supervision. M. E. Ç. D.: Writing – Original Draft, Methodology. N. E. G.: Writing – Original Draft and Methodology.

There are no conflicts of interest.

Supplementary material

For supplementary material/s referred to in this article, please visit https://doi.org/10.1017/S0007114522002525

References

World Health Organization (2020) Healthy Diet 2020. https://www.who.int/news-room/fact-sheets/detail/healthy-diet (accessed November 2021).Google Scholar
Burlingame, B & Dernini, S (2012) Sustainable Diets and Biodiversity Directions and Solutions for Policy, Research and Action. Rome: FAO Headquarters.Google Scholar
Żakowska-Biemans, S, Pieniak, Z, Kostyra, E, et al. (2019) Searching for a measure integrating sustainable and healthy eating behaviors. Nutrients 11, 95.CrossRefGoogle ScholarPubMed
Aranceta-Bartrina, J & Pérez-Rodrigo, C (2018) Dietary guidelines: pyramids, wheels, plates and sustainability in nutrition education. Encyclopedia Food Security Sustainability 2, 393399.Google Scholar
Jones, AD, Hoey, L, Blesh, J, et al. (2016) A systematic review of the measurement of sustainable diets. Adv Nutr 7, 641664.CrossRefGoogle ScholarPubMed
Grosso, G, Mateo, A, Rangelov, N, et al. (2020) Nutrition in the context of the sustainable development goals. Eur J Public Health 30, i19i23.10.1093/eurpub/ckaa034CrossRefGoogle ScholarPubMed
Sachs, J, Kroll, C, Lafortune, G, et al. (2021) Sustainable Development Report 2021. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
World Health Organization (2020) The State of Food Security and Nutrition in the World 2020: Transforming Food Systems for Affordable Healthy Diets. Rome, Italy: Food & Agriculture Organization.Google Scholar
Schösler, H & de Boer, J (2018) Towards more sustainable diets: insights from the food philosophies of ‘gourmets’ and their relevance for policy strategies. Appetite 127, 5968.CrossRefGoogle ScholarPubMed
Tobler, C, Visschers, VH & Siegrist, M (2011) Eating green. Consumers’ willingness to adopt ecological food consumption behaviors. Appetite 57, 674682.CrossRefGoogle ScholarPubMed
Verain, MC, Dagevos, H & Antonides, G (2015) Sustainable food consumption. Product choice or curtailment? Appetite 91, 375384.CrossRefGoogle ScholarPubMed
Weller, KE, Greene, GW, Redding, CA, et al. (2014) Development and validation of green eating behaviors, stage of change, decisional balance, and self-efficacy scales in college students. J Nutr Educ Behav 46, 324333.CrossRefGoogle ScholarPubMed
Osborne, JW & Costello, AB (2004) Sample size and subject to item ratio in principal components analysis. Pract Assess Res Eval 9, 11.Google Scholar
Van Prooijen, J-W & Van Der Kloot, WA (2001) Confirmatory analysis of exploratively obtained factor structures. Educ Psychol Meas 61, 777792.CrossRefGoogle Scholar
Brislin, RW (1986) The wording and translation of research instruments. In Cross-Cultural Research and Methodology Series, vol. 8 Field Methods in Cross-Cultural Research, pp. 137164 [Lonner, WL & Berry, JW, editors]. Thousand Oaks, CA: Sage Publications.Google Scholar
Prieto, AJ (1992) A method for translation of instruments to other languages. Adult Educ Q 43, 114.CrossRefGoogle Scholar
Kline, R (2016) Principles and Practices of Structural Equation Modeling, 4th ed. New York: The Guilford Press.Google Scholar
Koo, TK & Li, MY (2016) A guideline of selecting and reporting intraclass correlation coefficients for reliability research. J Chiropr Med 15, 155163.CrossRefGoogle ScholarPubMed
Streiner, DL, Norman, GR & Cairney, J (2015) Health Measurement Scales: a Practical Guide to their Development and Use. New York: Oxford University Press.CrossRefGoogle Scholar
Dimitrov, DM (2014) Statistical Methods for Validation of Assessment Scale Data in Counseling and Related Fields. New Jersey: John Wiley & Sons.Google Scholar
Hurley, AE, Scandura, TA, Schriesheim, CA, et al. (1997) Exploratory and confirmatory factor analysis: guidelines, issues, and alternatives. J Organ Behav 18, 667683.3.0.CO;2-T>CrossRefGoogle Scholar
Brown, TA (2015) Confirmatory Factor Analysis for Applied Research. New York: Guilford Publications. pp. 74.Google Scholar
Hu, L-T & Bentler, PM (1999) Cutoff criteria for fit indexes in covariance structure analysis: conventional criteria v. new alternatives. Struct Equ Model 6, 155.CrossRefGoogle Scholar
Pocol, CB, Marinescu, V, Amuza, A, et al. (2020) Sustainable v. unsustainable food consumption behaviour: a study among students from Romania, Bulgaria and Moldova. Sustainability 12, 4699.CrossRefGoogle Scholar
Barska, A & Wojciechowska-Solis, J (2020) E-consumers and local food products: a perspective for developing online shopping for local goods in Poland. Sustainability 12, 4958.CrossRefGoogle Scholar
Luykx, DM & Van Ruth, SM (2008) An overview of analytical methods for determining the geographical origin of food products. Food Chem 107, 897911.CrossRefGoogle Scholar
Sevilmiş, G, Olgun, A & Artukoğlu, M (2017) A research on factors which determines the effect of consumer decisions about functional products: the case of İzmir. J Agric Faculty Ege Univ 54, 351360.Google Scholar
Barilla Center for Food and Nutrition (2021) Food Sustainability Index 2021. https://foodsustainability.eiu.com/ (accessed November 2021).Google Scholar
Ministry of Agriculture and Forestry & Food and Agriculture Organization of the United Nations (2021) Preserve Your Food, Protect Your Table. https://www.fao.org/3/cb1074tr/CB1074TR.pdf (accessed November 2021).Google Scholar
Figure 0

Fig. 1. Flowchart for this study.

Figure 1

Table 1. Mean (X), standard deviation (sd), total item score correlations and Cronbach’s α values of the Sustainable and Healthy Eating Behaviors scale

Figure 2

Table 2. Distribution of SHE behaviors scale items according to factors of a result of EFA, factor loadings, eigenvalues of factors and percentages to explain variance

Figure 3

Table 3. Fit statistics of model with CFA

Supplementary material: File

Köksal et al. supplementary material

Köksal et al. supplementary material

Download Köksal et al. supplementary material(File)
File 107 KB