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Review

The Influence of Food Production Experience on Dietary Knowledge, Awareness, Behaviors, and Health among Japanese: A Systematic Review

by
Daisuke Machida
1,* and
Osamu Kushida
2
1
Department of Health and Nutrition, Faculty of Health and Welfare, Takasaki University of Health and Welfare, Takasaki, Gunma 370-0033, Japan
2
Department of Nutrition and Life Sciences, School of Food and Nutritional Sciences, University of Shizuoka, Yada, Suruga-ku, Shizuoka 422-8526, Japan
*
Author to whom correspondence should be addressed.
Int. J. Environ. Res. Public Health 2020, 17(3), 924; https://doi.org/10.3390/ijerph17030924
Submission received: 9 January 2020 / Revised: 30 January 2020 / Accepted: 30 January 2020 / Published: 2 February 2020
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Abstract

:
This study aimed to reveal the influence of food production experience on dietary knowledge, dietary awareness, dietary behaviors, and health among Japanese populations. We conducted a systematic review of articles published between January 2000 and September 2018 (PROSPERO registration number: CRD42019117163) using the following four databases: PubMed, Web of Science, CiNii, and ICHUSHI. The search formulas were created by combining search terms “agricultural experience,” “garden,” “diet,” “food,” “physical activity,” “health,” and “well-being.” The articles were identified by titles, abstracts, and whole texts. We evaluated the content of the articles that met the adoption criteria. We included original articles from peer-reviewed scientific journals, articles written in Japanese or English, observational or interventional studies with statistical analyses, and articles targeting general Japanese people (except for those targeting patients or disabled) to examine the relationship according to the purpose of this review. Nineteen articles met the study criteria, including 10 cross-sectional studies, one retrospective study, seven pre–post studies, and three non-randomized controlled trials. Two studies combined multiple research designs. Thus, food production experiences were suggested to have a positive influence on dietary knowledge, dietary awareness, food preference, dietary behaviors, and mental health among the Japanese. However, the overall quality of the included studies was low. Further verification with randomized controlled trials and prospective cohort studies is required.

1. Introduction

The Third Basic Program for Shokuiku (food and nutrition education) Promotion formulated by the Japanese Ministry of Agriculture, Forestry, and Fishery sets the basic policies with target values and proposes measures for Shokuiku promotion between 2016 and 2020 [1]. This program has a goal of increasing the percentage of people (households) who have experienced work in agriculture, forestry, and fishery [1]. These food production experiences have the purposes of increasing the awareness and understanding of food and diet. However, there is not sufficient scientific evidence of whether this goal is valid. Therefore, it is necessary to scientifically verify what type of effect is expected by the promotion of these food production experiences.
On a global scale, multiple systematic reviews and quick scans have discussed the associations between food production experiences and dietary knowledge, awareness, behavior, and health [2,3,4,5,6,7,8,9,10,11,12,13]. Studies have considered urban gardens [2,3], community gardens [4,5,6], school gardens [7,8,9], garden-based interventions [10,11,12], and community supported agriculture [13] as interventions or exposures. They have included participants in broad life stages such as children, adults, and the elderly. These previous studies noted the following positive effects: dietary knowledge and awareness [2,7,8,9,12], fruit and vegetable preference [7,8,9,11,12], healthy dietary behaviors [2,3,4,5,6,7,8,9,10,11,12,13], physical activity [3,4,7], mental health [3,4,5], and social well-being [3,4,5].
Several systematic reviews on food production experiences have included studies targeting Japanese populations [14,15]. For example, a systematic review of the relationship between vegetable gardening and vegetable intake included two studies of Japanese populations, both of which have confirmed positive associations [14]. In addition, a meta-analysis including two studies of Japanese populations that examined the relationship between gardening and health concluded that gardening had positive effects on health [15]. However, we cannot find a systematic review that clarifies the influence of food production experiences on dietary knowledge, dietary awareness, dietary behavior, and health focusing on the Japanese population. The articles adopted in recent systematic reviews were mostly conducted in the United States and Europe. There are some differences in culture and social environment between Japan and these countries. In other words, sufficient evidence to support the goal set by the Ministry of Agriculture, Forestry, and Fisheries has not been collected [1].
Here, we conducted a systematic review of recent studies among Japanese populations about the relationships between food production experiences and dietary knowledge, dietary awareness, dietary behaviors, and health to collect Japanese evidence on this subject. The food production experiences defined in this study include daily food production (such as home gardening and school gardening) and food production experiences on farms. In addition, we included not only agriculture, but also fishery and forestry (the production of mushrooms and wild plant shoots was classified as forestry in Japan [16]). However, we excluded studies about professional farmers and non-food production agricultural experiences (such as growing flowers or trees). Additionally, dietary awareness includes food interests, food preference, and the feeling of having no leftovers, which are predisposing factors for dietary behaviors, similar to dietary knowledge [17]. Dietary behaviors include actual behavior, such as dietary intake, meal preparations, and changing of taste. The World Health Organization [18] defines health as follows: “a state of complete physical, mental and social well-being and not merely the absence of disease or infirmity.” In the study referred to above [18], physical health (e.g., body mass index (BMI) and blood pressure), mental health (including not only bad mental symptoms but also positive or negative emotions, such as mood), and social well-being (e.g., social cohesion) was defined as health. Subjective health, a measure of overall health and known to be related to mortality [19], was also adopted as a component of health. Because quality of life and well-being interact with health, or are often used synonymously with health, they were included in this review as indicators of overall health and subjective health. In addition, physical activity, a factor affecting health as well as diet [17], was included in this review.

2. Materials and Methods

2.1. Search Strategy

This research was reported according to the Preferred Reporting Items for Systematic Reviews and Meta-analyses Statement (PRISMA) [20]. We conducted literature searches from October 29 to December 19, 2018, using the following four databases: PubMed, Web of Science, Citation Information by National institute of informatics (CiNii), and Igaku Chuo Zasshi (ICHUSHI). We tried to collect comprehensive Japanese evidence by searching for articles written in Japanese using two domestic databases (Cinii and ICHUSHI). We set PI(E)CO as follows: P (patient): Japanese; I(E) (intervention (exposure)): having food production experience; C (comparison): not having food production experience; O (outcome): dietary knowledge, dietary awareness, food preference, dietary behavior, physical activity, and health conditions. Based on the PI(E)CO method, search terms were selected, and search formulas used in each database were created (Supplementary Table S1). The review plan was registered under the International Prospective Register of Systematic Reviews (PROSPERO; registration number: CRD42019117163) [21].

2.2. Screening

The inclusion criteria for the articles were as follows: articles with original data in peer-reviewed scientific journals issued by an academic association; written in Japanese or English; observational or interventional studies in which statistical analyses were performed; targeted general Japanese people aged one year old or older and examined relationships between food production experiences and dietary knowledge, dietary awareness, food preference, dietary behaviors, physical activity, or health conditions. The publication date range was set from January 1, 2000, to September 30, 2018. We excluded studies that targeted patients or disabled people and focused on professional farmers and gardeners. Based on these criteria, the titles and abstracts were scrutinized (primary screening). In addition, more articles that met the criteria were added by a manual search of the reference lists of the identified articles and a related book [22]. Then, the text of the selected documents was read carefully (secondary screening). The above process was conducted independently by the first author and the second author. If there were any differences in the screening result, we resolved it via discussion. Then, we organized the evidence table about the subjects, research methods, and results, and adjusted the variables according to the articles.

2.3. Assessment of Research Quality

We conducted an assessment of the risk of bias using the Study Quality Assessment Tools from the National Institute of Health National Heart, Lung, and Blood Institute [23]. Specifically, the Quality Assessment Tool of Controlled Intervention Studies (14 items) for intervention studies with controlled groups, the Quality Assessment Tool for Before–After (Pre–Post) Studies with No Control Group (12 items) for intervention studies with no control groups, and the Quality Assessment Tool for Observational Cohort and Cross-Sectional Studies (14 items) for observational studies were used. First, each item was classified as YES, NO, or OTHER (cannot determine: CD, not applicable: NA, not reported: NR). Then, we calculated the percentage of YES responses for the total number of items excluding NA (the higher the ratio, the lower the risk of bias). The studies with a YES percentage of 32% or less were ranked as “poor,” those with 33% to 65% as “fair,” and those with 66% or more as “good,” according to a previous systematic review [2]. This assessment was conducted by the first author, and the second author checked the results of the assessment. If there were any differences in the assessment results, we resolved them via discussion.

3. Results

3.1. Article Selection

The flowchart of study selection is shown in Figure 1. From the database search, a total of 3304 articles (PubMed: 67, Web of Science: 33, CiNii: 2910, ICHUSHI: 294) were identified. We excluded 3163 cases in the primary screening. In addition, one article was added by manual searching. Secondary screening was performed for the remaining 142 articles, and 123 were excluded. Finally, 19 articles were included [24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42].

3.2. Outline of Articles

We present the evidence table of the included articles in Table 1. All of the 19 articles (10 cross-sectional studies, one retrospective study, seven pre–post studies, and three non-randomized controlled trials) were conducted in Japan. We grouped the articles according to age of the participants, as described below.
Three of the 19 articles focused on preschoolers [24,25,26], including one cross-sectional study [24], one pre–post study [26], and one combined non-randomized controlled and pre–post study [25]. The interventions or exposures in these studies included one study assessing tomato gardening experience at home [24] and two studies assessing growing and harvesting vegetables (tomatoes or eggplant) in kindergarten [25,26]. The results showed positive relationships between the exposures and a preference for grown vegetables [24,25], dietary awareness [24,25], and dietary behaviors [24,25,26]. However, the evaluation methods were essentially self-administered questionnaires without demonstrated validity or reliability of the outcome indicators.
Among the 19 articles, nine targeted elementally and junior high school students [27,28,29,30,31,32,33,34,35]. Four were cross-sectional studies [28,29,30,31], two were pre–post studies [32,34], two were non-randomized controlled studies [33,35], and one was a combined non-randomized controlled and cross-sectional study [27]. The interventions or exposures in these studies included eight studies assessing agriculture or gardening experiences via school programs [27,28,29,30,31,32,33,35]. These included both in-school and out-of-school programs. One study considered not only school programs but also vegetable growing at home and agricultural experiences on trips as the exposures [31]. One study treated an agricultural experience as an intervention; however, there was no clear statement as to whether it was a school program [34]. The results of five studies showed a significant association with good dietary awareness among students with food production experience [27,28,29,30,35]. One study showed significantly more dietary knowledge and better behavior related to diet [31]. Two studies confirmed good changes in mood [32,34], and one study showed significant improvement in the sense of taste [33]. Six of the nine studies described the validity and/or reliability of the outcome measures [28,29,30,32,33,34].
Three of the 19 articles targeted university and junior college students [36,37,38]. One was a retrospective study [36], and two were pre–post studies [37,38]. The interventions or exposures in these studies included one study that assessed agricultural experience from elementary school to high school [36] and two studies that assessed horticulture works such as sowing seeds, weeding, and plowing [37,38]. The results of one study showed a positive relationship between agricultural experience and dietary awareness and dietary knowledge [36]. However, there was no description about the validity or reliability of the outcome indicators [36]. Another study showed that diastolic blood pressure was significantly increased, and pulse rate was significantly decreased soon after sowing vegetable seeds [37]. There was no significant change in systolic blood pressure [37]. Another study confirmed good changes in mood as a whole soon after sowing [38]. Additionally, there was a significant increase in feeling pleasure soon after weeding and sowing [38]. However, a significant decrease in relaxation soon after weeding and plowing was also shown [38]. This study described the validity of the outcome measures [38].
Four of the 19 articles targeted adults and the elderly [39,40,41,42]. All were cross-sectional studies [39,40,41,42]. The exposures in three of these studies were community gardens [39,40,42], and one of these studies additionally assessed agricultural experience on a farm [42]. Another study assessed the number of types of cultivation activities being performed [41]. The results of one study showed a significant positive relationship between participation in community gardens or agricultural experience on farms and almost all survey items of dietary awareness (20/21 items) [42]. Another study showed significant positive relationships between the number of types of cultivation activities and opportunities to obtain vegetables and dietary diversity [41]. Yet another study revealed significant positive relationships between urban community gardening and vegetable intake, perceived general health, subjective health complaints, general mental health, and social cohesion [39]. However, community gardeners drink more frequently [39]. BMI and physical activity were not associated with community gardening [39]. Conversely, community gardening in a suburban area was significantly associated with a greater amount of physical activity [40]. Additionally, vegetable intake, perceived general health, and social cohesion were not related with community gardening in a suburban area [40]. There was no significant relationship between community gardening and BMI in a suburban area, similar to urban community gardening [40]. In three of the four studies, outcome measures that were evaluated for reliability and/or validity were used [39,40,41].

3.3. Study Quality

Of the 10 cross-sectional studies and one retrospective study, 10 [24,28,29,30,31,36,39,40,41,42] had a “Fair” study quality and one [27] was “Poor.” Of the seven pre–post studies, one [32] had a “Good” study quality and six [25,26,27,34,37,38] were “Fair.” Of the three non-randomized controlled trials, one [25] had a “Fair” study quality and two [33,35] were “Poor.” The details of the assessment are shown in Supplementary Table S2.

4. Discussion

In this systematic review, we summarized the relationships between food production experiences and dietary knowledge, dietary awareness, dietary behaviors, and health among Japanese populations. Nineteen articles were assessed in this review [24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42] that evaluated agricultural experiences, such as gardening, as interventions and exposures. No studies assessed food production experiences that could be classified as fishery or forestry. Therefore, in the future, the relationship between fishery or forestry experiences and dietary knowledge, dietary awareness, dietary behaviors, and health must be examined. This study has provided much clarification about the relationship between agricultural experiences and dietary knowledge, dietary awareness, dietary behaviors, and health. We discuss this subject below.

4.1. Dietary Knowledge and Awareness

For preschoolers, positive relationships were shown between agricultural experiences and dietary awareness [24,25]. Similarly, positive effects on food preference were suggested [24,25]. The results were consistent in the two studies assessing this age group. Western studies have also reported improved dietary awareness among preschoolers who participate in gardens [9,10,11]. There may have been an increase in interest and preference due to increased exposure [43]. Although two such studies were assessed in this review, one [24] was the baseline analysis of the other study [25]. Therefore, the participants were overlapping. Additionally, research using assessment tools that have been verified for validity and reliability is desirable. In the future, it will be necessary to reexamine whether there is a similar trend in other regions in Japan. Moreover, no studies examined the relationship between agricultural experiences and dietary knowledge.
School children also displayed positive relationships between agricultural experiences and dietary awareness [27,28,30,35]. In particular, the index of gratitude for food used in two studies has been verified for reliability and validity and is credible [28,30]. Additionally, positive relationships between agricultural experiences and dietary knowledge were confirmed [31]. However, only one study with this finding has been reported, and the validity of the indicators has not been shown, so further verification is necessary in the future among Japanese populations.
No studies examined the relationship between agricultural experiences and dietary awareness in university and junior college students. One study suggested a positive association with dietary knowledge [36]. Additionally, in adults and the elderly, one study showed a positive association between agricultural experiences and dietary awareness [42], and no studies examined the association between agricultural experiences and dietary knowledge. There was no description about the validity of the outcome indicators [36,42]. It has become clear that there are few studies in Japan that use dietary knowledge and awareness as outcomes among these life stages. Western studies have identified a relationship between urban gardening and increased dietary awareness among adults [2]. Overall, further research is desired in the future among these life stages in Japan.

4.2. Dietary Behaviors

For subjects ranging in age from preschoolers to college students, we confirmed a positive relationship between agricultural experiences and dietary behavior in multiple studies [24,25,26,29,31,33,36]. Both an increased intake of harvested crops [24,26] and relationships with the following various dietary behaviors were reported: helping with shopping and meal preparation [25,31], eating balanced meals [25,36], not leaving food leftover [29], and improvement of sense of taste [33]. We assume that the changes in dietary behaviors occurred due to changes in the determinants of dietary behavior such as dietary knowledge and awareness [44]. Agricultural experience not only increases interest and preference for the cultivated crop and increases its intake, but increased dietary interest may also lead to a positive change in overall dietary behavior. However, only two studies using an outcome indicator demonstrated validity or reliability [29,33]. Additionally, studies conducted in the United States have reported that the combination of gardening experience in early childhood and gardening during college, and continued gardening for two years in college students, have a further positive influence on fruit and vegetable intake [45,46]. In the future, such long-term research must be conducted in Japan.
For adults and the elderly, a positive relationship between cultivation and vegetable availability and dietary diversity was found in an urban area [41]. Higher vegetable availability increases vegetable intake frequency, which is believed to have resulted in improved dietary diversity. In addition, the results of the relationship between community gardening and fruit and vegetable intake were not consistent in the two studies assessing this topic [39,40]. One study showed a positive relationship [39], whereas the other did not [40]. This may be due to differences in the survey areas. In urban areas, community gardening is related to fruit and vegetable intake because it becomes an effective route to obtain fruits and vegetables [39]. However, in suburban areas, home gardening is also an important route to obtain fruits and vegetables in addition to community gardening [40]. Additionally, suburban residents often obtain fruit and vegetables from neighbors [47]. Thus, there are many factors that affect fruit and vegetable intake, and it seems there was no positive relationship between community gardening and fruit and vegetable intake in the suburban area. However, in the United States, a positive relationship between community gardening and fruit and vegetable intake has been reported in both rural and urban areas [48,49,50,51]. In addition, after conducting this systematic review, new Japanese articles were published that reported a positive relationship between vegetable cultivation or home/community gardening and vegetable intake [47,52]. The study about vegetable cultivation evaluated residents living in rural, suburban, and urban areas and adjusted for the random effects of the areas in the analysis [47]. The other study was a web survey on community gardening; thus, we cannot grasp the geographical conditions in which the respondents live [52]. Generally, a positive relationship between agricultural experiences and fruit and vegetable intake among adults and the elderly was shown. However, further research will be necessary for the consideration of regional differences such as the accessibility of fruit and vegetables. Moreover, we must note that the evaluation method of fruit and vegetable intake in the studies did not demonstrate sufficient validity or reliability [39,40,47,52].

4.3. Physical Activity

Physical activity was assessed in two studies in adults and the elderly [39,40]. However, the results were not consistent. Furthermore, in the latest report, a positive relationship between community gardening and physical activity was reported [52]. We think this may be due to the differences between urban and suburban areas. Individuals tend to travel by car in suburban areas, and physical activity levels tend to be low overall. Therefore, community gardening is a good opportunity for physical activity. Conversely, in urban areas, many individuals travel by walking, and the overall physical activity level is high. Therefore, community gardening does not appear to contribute to physical activity in urban areas. Of course, we must consider that only one study used an indicator with demonstrated validity and reliability [40]. Additionally, we could not identify any reports that examined the influence on physical activity in studies other than among adults and the elderly. In the United States, a study on elementary school children reported a positive association between physical activity and school garden participation [53]. In the future, the relationship between gardening and physical activity should be studied among Japanese children.

4.4. Overall Health

Subjective health was also reported only in adults and the elderly, and these results were inconsistent [39,40]. The evaluation methods were the same in two studies, which used a single question scored on a five-point scale [39,40]. Gender differences may be responsible for the discrepancy in results. One study included only men, and there was no significant relationship between subjective health and community gardening [40]. A German study showed that gardening moderated the relationship between self-rated health and social exclusion only among women, not men [54]. Women are likely more involved in social activities during gardening than men, or conversely, women replace or supplement social contact with plants, and as a result, subjective health may be maintained due to a reduction in the perception of social exclusion [54]. Referring to this finding, there is a gender difference in the impact of gardening on subjective health; that is, the effect may be significant in women. In addition, a study in the United States reported a positive relationship between self-rated health and community gardening via collective efficacy using a path analysis [55]. However, such a path analysis has not been conducted in Japanese studies. Thus, further studies about the relationship between agricultural experiences and subjective health, and the underlying mechanism of the relationship are necessary in Japanese populations.

4.5. Physical Health

BMI was also reported only in adults and the elderly; these results were consistent in that community gardening was not significantly associated with BMI [39,40]. A study in the United States confirmed an inverse relationship between BMI and community gardening among adults [56]. The average BMI of participants in the U.S. study [56] was clearly higher than that of a study in Japan [40]. Another study in Japan did not report a representative value for BMI [39], but it is likely similar to that of the first Japanese study [40]. Therefore, there seems to be an inverse relationship between gardening and BMI if a group with a high BMI is assessed. In addition, a study on children in New Zealand reported an inverse relationship between gardening and BMI [57]. The relationship between gardening and BMI among children must be examined in Japan.
In junior college students, the relationships between sowing seeds and blood pressure and pulse were reported [37]. The mechanism of this relationship seems to be due to exercise and stress load, but this is not clarified in the study [37]. The National Heart, Lung, and Blood Institute recommends 30–45 min of physical activity (gardening) to reduce blood pressure [58]. This study examined changes in blood pressure and pulse before and soon after sowing seeds [37]. However, the medium to long-term reduction of blood pressure due to habitual gardening must be examined.

4.6. Mental Health

Two studies of elementary and junior high school students showed reductions in anxiety and anger due to agricultural experiences [32,34]. Furthermore, in junior college students, improvements in fatigue and overall mood after sowing and improvements in pleasure feelings after weeding and sowing were observed [38]. However, the sense of relaxation decreased after weeding and plowing [38]. In a study of adults and the elderly, community gardeners had better mental health than non-community gardeners [39]. In these studies, well-developed indicators were used to evaluate mental health [32,34,38,39]. Previously, a meta-analysis with gardening as an intervention (exposure) reported a positive association with reduced anxiety and depression [19]. Overall, moderate agricultural activity that is not too burdensome may have positive impacts on mental health.

4.7. Social Well-Being

There were two reports on community gardening and social cohesion for adults and the elderly; however, the results were not consistent [39,40]. The scales used in these studies were not the same, but both of the scales had been developed in previous studies [39,40]. In addition, an article published after this systematic review showed a positive association between gardening and social ties [52]. This discrepancy may be due to gender differences. The studies involving both men and women showed a positive relationship [39,52]. However, the study involving only men did not show a positive association [40]. As noted above, gardening was shown to moderate the relationship between self-rated health and social exclusion only among women, not men [54]. Therefore, with a focus on the gender difference, further research about the relationship between agricultural experiences and social well-being is necessary in Japan.

4.8. Limitations

This study has some limitations. First, the overall study quality was not high. There were no randomized controlled trials or prospective cohort studies. There were some non-randomized controlled studies and one retrospective study, but the study quality was not good. The only article that was assessed as having good study quality was a pre–post study. Therefore, more high-quality studies are necessary in Japan. In addition, the possibility of publication bias cannot be denied. Here we only targeted articles with original data in peer-reviewed scientific journals issued by academic associations. Thus, we may need to explore gray literature to avoid publication bias and to increase completeness. However, we might have avoided publication bias by using documents written in Japanese identified via domestic databases. Moreover, although only Japanese people are targeted in this study, it is possible that new knowledge may be obtained by evaluating research in East Asian countries that have similar social contexts as Japan.

5. Conclusions

The results suggest that there is a positive influence of agricultural experiences on dietary knowledge, dietary awareness, dietary behaviors, and mental health among Japanese populations. Accordingly, it was suggested that promoting agricultural experiences could contribute to improving the diet and mental health of Japanese people. However, there were no randomized controlled trials or prospective cohort studies, and the overall quality of the studies was not high. In the future, considering the differences in intervention types and cultivation methods, further verification with randomized controlled trials and prospective cohort studies is required among Japanese populations. In addition, there have been no reports showing the influence of fishery and forestry experience on dietary knowledge, dietary awareness, dietary behaviors, and health, so we must examine these influences.

Supplementary Materials

The following are available online at https://www.mdpi.com/1660-4601/17/3/924/s1, Table S1: The search formula used for each database, Table S2: Results of bias risk assessment, and PRISMA checklist [59] of this systematic review.

Author Contributions

Conceptualization, D.M. and O.K.; methodology, D.M. and O.K.; validation, D.M. and O.K.; investigation, D.M. and O.K.; data curation, D.M.; writing, D.M. and O.K.; project administration, D.M.; funding acquisition, D.M. All authors have read and agreed to the published version of the manuscript.

Funding

This study was implemented as a part of the Ministry of Agriculture, Forestry, and Fishery’s project “Committee of Case Study on shokuiku (Food and nutrition education)” in 2018 and was implemented with the support of Japan Travel Co., Ltd. (the trustee of this project). This study was funded by JSPS KAKENHI, grant number JP18K13037.

Acknowledgments

The authors would like to thank the members of the “Committee of Case Study on shokuiku.” The authors would also like to thank Enago (www.enago.jp) for the English language review.

Conflicts of Interest

The authors declare no conflict of interest.

References

  1. Ministry of Agriculture, Forestry and Fisheries, Japan. Shokuiku Promotion Policies: FY2017 (White Paper on Shokuiku) [Summary]. Available online: http://www.maff.go.jp/j/syokuiku/wpaper/attach/pdf/h29_index-15.pdf (accessed on 21 November 2019).
  2. Garcia, M.T.; Ribeiro, S.M.; Germani, A.C.C.G.; Bógus, C.M. The impact of urban gardens on adequate and healthy food: A systematic review. Public Health Nutr. 2018, 21, 416–425. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  3. Schram-Bijkerk, D.; Otte, P.; Dirven, L.; Breure, A.M. Indicators to support healthy urban gardening in urban management. Sci. Total Environ. 2018, 621, 863–871. [Google Scholar] [CrossRef] [PubMed]
  4. Egli, V.; Oliver, M.; Tautolo, E.S. The development of a model of community garden benefits to wellbeing. Prev. Med. Rep. 2016, 3, 348–352. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  5. Genter, C.; Roberts, A.; Richardson, J.; Sheaff, M. The contribution of allotment gardening to health and wellbeing: A systematic review of the literature. Br. J. Occup. 2015, 78, 593–605. [Google Scholar] [CrossRef]
  6. McCormack, L.A.; Laska, M.N.; Larson, N.I.; Story, M. Review of the nutritional implications of farmers’ markets and community gardens: A call for evaluation and research efforts. J. Am. Diet. Assoc. 2010, 110, 399–408. [Google Scholar] [CrossRef]
  7. Ohly, H.; Gentry, S.; Wigglesworth, R.; Bethel, A.; Lovell, R.; Garside, R. A systematic review of the health and well-being impacts of school gardening: Synthesis of quantitative and qualitative evidence. BMC Public Health 2016, 16, 286. [Google Scholar]
  8. Berezowitz, C.K.; Bontrager Yoder, A.B.; Schoeller, D.A. School gardens enhance academic performance and dietary outcomes in children. J. Sch. Health 2015, 85, 508–518. [Google Scholar] [CrossRef]
  9. Davis, J.N.; Spaniol, M.R.; Somerset, S. Sustenance and sustainability: Maximizing the impact of school gardens on health outcomes. Public Health Nutr. 2015, 18, 2358–2367. [Google Scholar] [CrossRef]
  10. Savoie-Roskos, M.R.; Wengreen, H.; Durward, C. Increasing fruit and vegetable intake among children and youth through gardening-based interventions: A systematic review. J. Acad Nutr. Diet. 2017, 117, 240–250. [Google Scholar] [CrossRef] [Green Version]
  11. Langellotto, G.A.; Gup, A. Gardening increases vegetable consumption in school-aged children: A meta-analytical synthesis. HortTechnology 2012, 22, 430–445. [Google Scholar] [CrossRef] [Green Version]
  12. Robinson-O’Brien, R.; Story, M.; Heim, S. Impact of garden-based youth nutrition intervention programs: A review. J. Am. Diet. Assoc. 2009, 109, 273–280. [Google Scholar] [CrossRef] [PubMed]
  13. Vasquez, A.; Sherwood, N.E.; Larson, N.; Story, M. Community-supported agriculture as a dietary and health improvement strategy: A narrative review. J. Acad Nutr. Diet. 2017, 117, 83–94. [Google Scholar] [CrossRef] [PubMed]
  14. Machida, D.; Yoshida, T. Relationship between vegetable intake and homegrown vegetable growing/intake among adults in developed countries: A systematic review. Jpn. J. Nutr. Diet. 2015, 73, 62–68. [Google Scholar] [CrossRef] [Green Version]
  15. Soga, M.; Gaston, K.J.; Yamaura, Y. Gardening is beneficial for health: A meta-analysis. Prev. Med. Rep. 2016, 5, 92–99. [Google Scholar] [CrossRef]
  16. Ministry of Agriculture, Forestry and Fisheries, Japan. Annual Report on Forest and Forestry in Japan Fiscal Year 2017 (Summary). Available online: http://www.maff.go.jp/e/data/publish/attach/pdf/index-95.pdf (accessed on 21 November 2019).
  17. Green, L.W.; Kreuter, M.W. Health Program. Planning: An. Education and Ecological Approach; Igaku-Shoin Ltd.: Tokyo, Japan, 2005; pp. 8–19. [Google Scholar]
  18. World health organization. Constitution of the World Health Organization. Available online: http://apps.who.int/gb/bd/PDF/bd47/EN/constitution-en.pdf?ua=1 (accessed on 20 January 2020).
  19. DeSalvo, K.B.; Bloser, N.; Reynolds, K.; He, J.; Muntner, P. Mortality prediction with a single general self-rated health question. A meta-analysis. J. Gen. Intern. Med 2006, 21, 267–275. [Google Scholar] [CrossRef] [Green Version]
  20. Moher, D.; Liberati, A.; Tetzlaff, J.; Altman, D.G.; PRISMA Group. Preferred reporting items for systematic reviews and meta-analyses: The PRISMA statement. PLoS Med. 2009, 6, e1000097. [Google Scholar] [CrossRef] [Green Version]
  21. PROSPERO. Relationship between Agriculture, Forestry and Fishery Experience and Food Knowledge ·Food Attitudes Eating Behaviors, Physical Activity, or Health: A Systematic Review of Japanese. Available online: https://www.crd.york.ac.uk/prospero/display_record.php?RecordID=117163 (accessed on 9 September 2019).
  22. Yamada, I. Programs of Agricultural Experience for Children in Japan: Toward Enhancing Education Effect and Local Revitalization; Association of agriculture and forestry statistics (Nourintoukeikyoukai): Tokyo, Japan, 2016. [Google Scholar]
  23. National Heart, Lung, and blood Institute. Study Quality Assessment Tools. Available online: https://www.nhlbi.nih.gov/health-topics/study-quality-assessment-tools (accessed on 9 September 2019).
  24. Kida, H.; Arakawa, Y.; Takahashi, N. Relationships among preschoolers’ home garden experiences, preference for vegetables, and interests/concerns regarding food: Focus on experience of eating tomatoes grown in their home garden. J. Jpn. Soc. Shokuiku 2018, 12, 211–217. [Google Scholar]
  25. Kida, H.; Takeda, F.; Arakawa, Y. Tomato cultivation in a kindergarten: Influence of a vegetable growing activity on picky eating habits among preschoolers. Jpn. J. Nutr. Diet. 2016, 74, 20–28. [Google Scholar] [CrossRef] [Green Version]
  26. Kanno, Y.; Murayama, N. Impact of experience of cultivation of one kind of vegetable on vegetable consumption for preschool children of 4-years old. Niigata Iryou Hukushi Gakkaishi 2011, 11, 64–69. [Google Scholar]
  27. Ying, G.; Yabe, M. The effect of agricultural experience on environmental awareness and eating habits among rural children in Japan. Jpn. J. Environ. Educ. 2014, 24, 40–49. [Google Scholar]
  28. Taniguchi, T.; Akamatsu, R. Comparative study on children’s cognitive factors about agriculture in two regions. Jpn. J. Nutr. Diet. 2010, 68, 25–30. [Google Scholar] [CrossRef]
  29. Taniguchi, T.; Akamatsu, R. Psychosocial predictors of leftover food in Japanese elementary school students. Jpn. J. Health Educ. Promot. 2009, 17, 24–33. [Google Scholar]
  30. Akamatsu, R.; Izuchi, H. Reliability and validity of the “Gratitude for Food” scale for children. Jpn. J. Health Educ. Promot. 2009, 17, 147–159. [Google Scholar]
  31. Oura, Y.; Yamada, I.; Kataoka, M.; Yamamoto, J. Observing the effects of school luncheon and food agriculture education on children. J. Rural. Probl. 2009, 45, 254–257. [Google Scholar] [CrossRef] [Green Version]
  32. Yamada, I. Analysis of changes in children’s mood due to agricultural and rural experiences. J. Rural Probl 2008, 44, 181–185. [Google Scholar]
  33. Yoshida, T.; Kouda, K.; Nakamura, H.; Nishio, N. Taste development from health education among schoolchildren: A two-year intervention study. J. Physiol. Anthr. 2008, 27, 1–5. [Google Scholar] [CrossRef] [Green Version]
  34. Yamamoto, T. Changes in feelings and emotions of children after participation in an agricultural hands-on study program: A quantitative evaluation of the educational and recreational benefits of learning through farming and rural experiences in agricultural farming villages (II). J. Rural Life Soc. Jpn. 2008, 52, 22–29. [Google Scholar]
  35. Shimamura, M.; Tsumura, T. Improvement of awareness of taste by “one pot to one person” cultivation of gymnema sylvestre r. br. J. Jpn. Soc. Shokuiku 2013, 7, 167–170. [Google Scholar]
  36. Sato, K. The influence an agricultural experience on eating habits in university student’s from an elementary school. J. Jpn. Mibyo Syst. Assoc. 2015, 21, 7–14. [Google Scholar]
  37. Tsuchihashi, Y. Effects of various horticultural activities on blood pressure, pulse rate, degree of satisfaction and emotion in students of department of child care and pre-school education at women’s junior college. J. Jpn. Soc. Ppr. 2010, 9, 13–17. [Google Scholar]
  38. Otake, M.; Furuhashi, S.; Maeda, T.; Nakano, H.; Suzuki, T.; Oosawa, K. Analysis of effect that some gardening works cause for subject’s physiology and psychology. J. Jpn. Soc. Ppr. 2010, 10, 25–30. [Google Scholar]
  39. Soga, M.; Cox, D.T.; Yamaura, Y.; Gaston, K.J.; Kurisu, K.; Hanaki, K. Health benefits of urban allotment gardening: Improved physical and psychological well-being and social integration. Int. J. Environ. Res. Public Health 2017, 14, 71. [Google Scholar] [CrossRef] [PubMed]
  40. Machida, D.; Yoshida, T. Relationship between fruit and vegetable gardening and health-related factors: Male community gardeners aged 50-74 years living in a suburban area of Japan. Nihon Koshu Eisei Zasshi 2017, 64, 684–694. [Google Scholar]
  41. Amemiya, M.; Terada, T.; Yokohari, M.; Asami, Y. Relationship between agricultural activities and daily diets of urban residents. J. City Plan. Inst. Jpn. 2012, 47, 229–234. [Google Scholar]
  42. Noda, T. A study on the effect of farming experience on “shokuiku”: A case of recreational farming in nerima ward. Nihon Nogyo Keizai Gakkai Ronbunshu 2007, 294–301. Available online: https://ci.nii.ac.jp/naid/10020014845 (accessed on 9 December 2019).
  43. Zajonc, R.B. Attitudinal effects of mere exposure. J. Pers. Soc. Psychol. 1968, 9, 1–27. [Google Scholar] [CrossRef] [Green Version]
  44. World Health Organization, Regional Office for the Eastern Mediterranean. Health Education: Theoretical Concepts, Effective Strategies and Core Competencies: A Foundation Document to Guide Capacity Development of Health Educators. Available online: https://apps.who.int/iris/ (accessed on 20 January 2020).
  45. Loso, J.; Staub, D.; Colby, S.E.; Olfert, M.D.; Kattelmann, K.; Vilaro, M.; Colee, J.; Zhou, W.; Franzen-Castle, L.; Mathews, A.E. Gardening experience is associated with increased fruit and vegetable intake among first-year college students: A cross-sectional examination. J. Acad Nutr Diet. 2018, 118, 275–283. [Google Scholar] [CrossRef] [Green Version]
  46. Staub, D.; Colby, S.E.; Olfert, M.D.; Kattelmann, K.; Zhou, W.; Horacek, T.M.; Greene, G.W.; Radosavljevic, I.; Franzen-Castle, L.; Mathews, A.E. A multi-year examination of gardening experience and fruit and vegetable intake during college. Nutrients 2019, 11, 2088. [Google Scholar] [CrossRef] [Green Version]
  47. Machida, D.; Yoshida, T. Negative association of vegetable cultivation with the proportion of severely insufficient vegetable intake both directly and indirectly: A cross-sectional study in a city in Gunma, Japan. J. Rural Med. 2018, 13, 160–167. [Google Scholar] [CrossRef] [Green Version]
  48. Barnidge, E.K.; Hipp, P.R.; Estlund, A.; Duggan, K.; Barnhart, K.J.; Brownson, R.C. Association between community garden participation and fruit and vegetable consumption in rural Missouri. Int. J. Behav. Nutr. Phys. Act. 2013, 10, 128. [Google Scholar] [CrossRef] [Green Version]
  49. Carney, P.A.; Hamada, J.L.; Rdesinski, R.; Sprager, L.; Nichols, K.R.; Liu, B.Y.; Pelayo, J.; Sanchez, M.A.; Shannon, J. Impact of a community gardening project on vegetable intake, food security and family relationships: A community-based participatory research study. J. Community Health 2012, 37, 874–881. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  50. Alaimo, K.; Packnett, E.; Miles, R.A.; Kruger, D.J. Fruit and vegetable intake among urban community gardeners. J. Nutr. Educ. Behav. 2008, 40, 94–101. [Google Scholar] [CrossRef] [PubMed]
  51. Litt, J.S.; Soobader, M.J.; Turbin, M.S.; Hale, J.W.; Buchenau, M.; Marshall, J.A. The influence of social involvement, neighborhood aesthetics, and community garden participation on fruit and vegetable consumption. Am. J. Public Health 2011, 101, 1466–1473. [Google Scholar] [CrossRef] [PubMed]
  52. Machida, D. Relationship between community or home gardening and health of the elderly: A web-based cross-sectional survey in Japan. Int. J. Environ. Res. Public Health 2019, 16, 1389. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  53. Wells, N.M.; Myers, B.M.; Henderson, C.R., Jr. School gardens and physical activity: A randomized controlled trial of low-income elementary schools. Prev. Med. 2014, 69, S27–S33. [Google Scholar] [CrossRef] [PubMed]
  54. Hajek, A.; König, H.H. Self-rated health and social exclusion: Does gardening moderate this relation? evidence from the German ageing survey. Int. J. Environ. Res. Public Health 2019, 16, 1834. [Google Scholar] [CrossRef] [Green Version]
  55. Litt, J.S.; Schmiege, S.J.; Hale, J.W.; Buchenau, M.; Sancar, F. Exploring ecological, emotional and social levers of self-rated health for urban gardeners and non-gardeners: A path analysis. Soc. Sci. Med. 2015, 144, 1–8. [Google Scholar] [CrossRef] [Green Version]
  56. Zick, C.D.; Smith, K.R.; Kowaleski-Jones, L.; Uno, C.; Merrill, B.J. Harvesting more than vegetables: The potential weight control benefits of community gardening. Am. J. Public Health 2013, 103, 1110–1115. [Google Scholar] [CrossRef]
  57. Utter, J.; Denny, S.; Dyson, B. School gardens and adolescent nutrition and BMI: Results from a national, multilevel study. Prev. Med. 2016, 83, 1–4. [Google Scholar] [CrossRef]
  58. National Heart, Lung, and Blood Institute. Your Guide to Lowering Blood Pressure. Available online: http://ghk.h-cdn.co/assets/cm/15/11/54ff77204744d_-_hbp_low.pdf (accessed on 9 September 2019).
  59. PRISMA Website. PRISMA Checklist. Available online: http://prisma-statement.org/PRISMAStatement/Checklist (accessed on 20 January 2020).
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Figure 1. Flowchart of the study selection process.
Figure 1. Flowchart of the study selection process.
Ijerph 17 00924 g001
Table
Table 1. Evidence table of food production experiences and dietary knowledge, dietary awareness, dietary behaviors and health.
Table 1. Evidence table of food production experiences and dietary knowledge, dietary awareness, dietary behaviors and health.
Author (Year) [Reference Number]SettingsParticipantsDesign/Intervention TermIntervention (Exposure)Outcome Investigated/Measurement MethodResults about the Benefits of Food Production ExperienceAdjusted VariablesQuality Rating *
Kida H. et al. (2018) [24]Sapporo city, Hokkaido, JPN335 children aged 3 to 4 years old in 6 kindergartensCross-sectional studyTomato gardening at homePreference of tomatoes, tomato eating habits, interest in foods (5 items)/self-administered questionnaireChildren who experienced tomato gardening at home tend to do the following more than children who did not experience tomato gardening: like tomatoes (p = 0.001), eat tomatoes without leaving (p < 0.001), help prepare food (p = 0.043), request tomatoes for food and snacks (p = 0.004)NoneFair
Kida H. et al. (2016) [25]Hokkaido, JPN221 children aged 3 to 4 years old in 5 kindergartens in a city (intervention group: 144 children in 3 kindergartens; control group: 77 children in 2 kindergartens)Non-randomized controlled trial and pre–post study/May to September 2012, and follow-up survey in March 2013Gardening, harvesting, and tasting tomatoesUnbalanced diet (whether they eat when served something they dislike), preference of tomatoes, interest in foods (4 items)/self-administered questionnaireAt follow-up, the percentage of those who improved their unbalanced diet was significantly higher in the intervention group than in the control group (p < 0.036). In the intervention group, unbalanced diet, preference of tomatoes, and interest in foods (2/4 items) improved after the intervention and at follow-up compared with before the intervention (p < 0.05). There was no significant change in these outcomes in the control group.NoneNon-randomized controlled trial: Fair Pre–post study: Fair
Kanno Y. et al. (2011) [26]Niigata city, Niigata, JPN38 children aged 4 years old in a kindergartenPre–post study/May to July 2010Vegetable gardening (gardening, harvesting, cooking, and tasting eggplant)Vegetable intake at lunch in kindergarten/survey on amounts of leftover eggplant intake at home/self-administered questionnaire (parents)Stir-fried eggplant with miso (p = 0.001), stir-fried eggplant with curry (p < 0.001), and another side dish (p < 0.001) intake at lunch in kindergarten were increased after the intervention. Eggplant intake at home was not significantly different before and after the intervention (p = 0.525).NoneFair
Ying G. et al. (2014) [27]Fukuoka, JPN116 elementally school students in a rural town (intervention group: 64; control group: 52)Pre–post study and cross-sectional study/September 2012 to March 2013Cultivation and processing of vegetables in classDietary awareness (5 items: allotment so that the score of the positive answers is high)/self-administered questionnaireAfter the intervention compared with before the intervention, the proportions of students who answered “I have no food I dislike (p < 0.05)” and “I usually want to eat a lot of vegetables (p < 0.01)” increased. In the comparison between the intervention group and control group after the intervention, the proportions of students who answered “I have no food I dislike (p < 0.05)” and “I usually want to eat a lot of vegetables (p < 0.01)” were greater in the intervention group than in the control group.NonePre–post study: Fair Cross-sectional study: Poor
Taniguchi T. et al. (2010) [28]Fukushima, JPN
Saitama, JPN		368 fifth-grade elementally school students Cross-sectional studySubjective scale of school gardening experience (1 = never to 4 = often)Feelings of gratitude for food and attitudes toward local products/self-administered questionnaireIn the entire analysis, there were positive correlations between school gardening experiences and feelings of gratitude for food (p < 0.05) and attitude toward local products (p < 0.01). According to the analyses by prefecture, there were no significant positive correlations with feelings of gratitude for food, but there was a significant positive correlation with attitude toward local products (p < 0.01 in both prefectures).NoneFair
Taniguchi T. et al. (2010) [29]Tokyo, JPN1994 fifth- and sixth-grade elementally school students in a wardCross-sectional studySubjective scale of school gardening experience (1 = never to 4 = often)Leftover food behavior score/self-administered questionnaireThere was a significant positive association between school gardening experiences and leftover food behavior score (total: p = 0.005; boys: p = 0.035, girls: p = 0.005).Preference of vegetables, feeling of waste, outcome expectancies, discipline at homeFair
Akamatsu R. et al. (2009) [30]Tokyo, JPN1994 fifth- and sixth-grade elementally school students in a wardCross-sectional studySubjective scale of school gardening experience (1 = never to 4 = often)Gratitude for food scale score/self-administered questionnaireThose who answered “often” to the school gardening experience had a significantly higher score of gratitude for food than the others (p < 0.001).NoneFair
Oura Y. et al. (2009) [31]Gunma, JPN524 fifth- and sixth-grade students from four elementary schoolsCross-sectional studySchools that were specified as model schools for food and agriculture education, vegetable growing experience at home, agricultural experience on tripsDietary knowledge (3 items), Dietary behavior (1 item)/self-administered questionnaireMore students in schools that were specified as model schools for food and agriculture education used local vegetables in school lunch (p < 0.01) and knew the sweet potato harvest season (p = 0.02) than students in other schools. More students with a vegetable growing experience at home used local vegetables in school lunch (p < 0.01) and knew local traditional foods (p < 0.01) than students who do not have a vegetable growing experience at home. More students who had agricultural experience on trips knew local traditional foods (p = 0.02) and more frequently went shopping with family members (p < 0.01) than those who did not have agricultural experience on trips.NoneFair
Yamada I. (2008) [32]Iiyama city, Nagano, JPN41 fifth-grade students from one elementary schoolPre–post study/8 days in September 2006Experience of agriculture and rural life as part of classProfile of mood states/self-administered questionnaire“A week ago” and “after” the experience, the students’ “nervousness-anxiety” was significantly relieved (p < 0.05). “Anger-hostility,” “vitality,” and “fatigue” were not significantly different.NoneGood
Yoshida T. et al. (2007) [33]Hamamatsu city, Shizuoka, JPN130 first-grade students from 2 elementary schools (intervention school 67; control school: 63)Non-randomized controlled trial/April 2000 to April 2002Eating education program (select four dishes, cook by yourself, experience a farm, taste discussion, and observe stools)Taste discernment ability/the whole-mouth method using Taste Desk (Sanwa Kagaku Kenkyusho CO LTD, Nagoya, Japan)Compared with the control school, the sensitivity results for sour (p < 0.05), bitter (p < 0.05), and total score of four tastes (p < 0.05) were significantly increased in the intervention school students.NonePoor
Yamamoto T. (2008) [34]Hokkaido, JPN Niigata, JPN447 students ranging in age from third grade of elementary school to first grade of junior high schoolPre–post study/unconfirmedExperience of agriculture and rural lifePsychological evaluation method of experience training for children/self-administered questionnaireOverall, anger (p < 0.01) and anxiety (p < 0.01) decreased after the intervention.NoneFair
Shimamura M. et al. (2013) [35]Nagoya city, Aichi, JPN599 students in the second grade of junior high school (intervention group: 449; control group: 150)Non-randomized controlled trial/2008 to 2010“One pot to one person” cultivation of Gymnema sylvestreInterest in taste and foods/self-administered questionnaireAfter the intervention, interest in taste and foods was significantly higher in the intervention group than in the control group (p < 0.05).NonePoor
Sato K. (2015) [36]JPN590 first- to fourth-grade students at a nursing university (exposed group: 484; control group: 106)Retrospective studyAgricultural experience from elementary school to high schoolDietary behavior: 7 items, dietary knowledge: 3 items (allotment so that the score of negative answers is high)/self-administered questionnaireThe following items had significantly lower scores in the exposed group: For dietary behavior, “Eat a complete meal of a staple food, main dish, and side dish for dinner (p = 0.048),” “I would like to participate in harvest work if there are fields in the university (p = 0.009).” For dietary knowledge, “I know about seasonal vegetables (p = 0.007),” “I know the word chisanchisho (local production for local consumption) (p = 0.013),” and “I know the four-group food score table (p = 0.015).”NoneFair
Tsuchihashi Y. (2010) [37]Nishinomiya city, Hyogo, JPN24 s-grade students in junior college (all women)Pre–post study/April to July 2005Sowing vegetable seedsBlood pressure, pulse rate/automatic digital blood pressure monitorThe diastolic blood pressure was significantly increased (p < 0.05) and the pulse rate was significantly decreased (p < 0.01). There was no significant change in systolic blood pressure.NoneFair
Otake M. et al. (2010) [38]Hokkaido, JPN9 university students Pre–post study/July to September 2007Horticulture work (weeding, plowing, and sowing) Profile of mood states/self-administered questionnaire. Pleasure feeling and relaxation (MCL-S.1)/self-administered questionnaireThe fatigue score (p = 0.026) and the overall score (p = 0.026) decreased significantly after sowing. There was a significant increase in pleasure feeling after weeding (p < 0.05) and sowing (p < 0.05) and a significant decrease in relaxation after weeding (p < 0.05) and plowing (p < 0.05).NoneFair
Soga M. et al. (2017) [39]Nerima, Tokyo, JPN332 residents in Nerima-ku (exposed group: 165, control group: 167)Cross-sectional studyParticipation in community gardeningDrinking, vegetable intake, physical activity perceived general health, subjective health complaints, BMI, general mental health (GHQ12), social cohesion/self-administered questionnaireThere was a relationship between good health and participation in community gardens for the following indicators: vegetable intake (p < 0.001), perceived general health (p < 0.001), subjective health complaints (p < 0.05), general mental health (p < 0.05), and social cohesion (p < 0.001).None Sex, age, family income, employment status, smoking, drinking, vegetable intake, physical activityFair
Machida D. et al. (2017) [40]Gunma, JPN251 men aged 50–74 years old living in a city (community gardener: 30, vegetable cultivator without community gardener: 91, nongardener: 130)Cross-sectional studyParticipation in community gardeningBMI, self-rated health Fruit and vegetable intake, physical activity, sitting time Social cohesion/self-administered questionnaireThe odds ratio of those performing a large amount of physical activity was 3.00 (1.18–7.64) among community gardeners compared with nongardeners. There was no significant association between the other outcomes and community gardening.None Age Educational backgroundFair
Amemiya M. (2012) [41]Kashiwa city, Chiba, JPN1612 residents in Kashiwa city aged 20–79 yearsCross-sectional studyNumber of types of cultivation activities performedOpportunity to obtain vegetables, Dietary diversity/self-administered questionnaireIf there were many types of crop cultivation activities, there were more opportunities to obtain vegetables (p = 0.01). If there were many types of crop cultivation activities, there was more dietary diversity (p < 0.01).NoneFair
Noda T. (2007) [42]Nerima-ku, Tokyo, JPN645 residents in Nerima (agricultural experience farm participants: 295, community garden participants: 182, control (non-participants): 168)Cross-sectional studyParticipation in agricultural experience farm, Participation in community gardeningDietary awareness (21 items)/self-administered questionnaire or interviewAgricultural experience farm participants and community garden participants had significantly higher dietary awareness than the control group (20/21 items: p < 0.05).NoneFair
* The Study Quality Assessment Tools from the National Institute of Health National Heart, Lung, and Blood Institute: 32% or less = “poor,” 33 to 65% = “fair,” 66% or more = “good”.

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Machida, D.; Kushida, O. The Influence of Food Production Experience on Dietary Knowledge, Awareness, Behaviors, and Health among Japanese: A Systematic Review. Int. J. Environ. Res. Public Health 2020, 17, 924. https://doi.org/10.3390/ijerph17030924

AMA Style

Machida D, Kushida O. The Influence of Food Production Experience on Dietary Knowledge, Awareness, Behaviors, and Health among Japanese: A Systematic Review. International Journal of Environmental Research and Public Health. 2020; 17(3):924. https://doi.org/10.3390/ijerph17030924

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Machida, Daisuke, and Osamu Kushida. 2020. "The Influence of Food Production Experience on Dietary Knowledge, Awareness, Behaviors, and Health among Japanese: A Systematic Review" International Journal of Environmental Research and Public Health 17, no. 3: 924. https://doi.org/10.3390/ijerph17030924

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