1. Introduction
Historically, “Sustainable Development” was associated with a negative meaning rather than a positive one [
1]. It was often seen as a prohibition and limitation, and for which strict laws were applied, for example by limiting the production of greenhouse gases. Specifically, the concept of a “sustainable city” refers much more to restrictions and bans than to “positive” life practices promoted by public authorities [
2].
Many scholars are debating on new sustainable strategies and the concept of social innovation is envisaged as a new business model in order to achieve social goals [
3]. Nowadays, social innovation is gaining a lot of interest in the academic literature in addressing social issues. However, social innovation is mainly focused on the social dimension without properly addressing the impact on the ecological side. Thus, social innovation should evolve as a broader social ecological innovation in order to guide society towards social, ecological and sustainable transformations and outcomes.
Among the various models of social ecological, innovation, community gardens could represent a different and viable way to enhance the value of the environmental dimension as well as the social one. The current academic literature provides numerous testimonies of the social, environmental and economic dimensions of community gardens. However, there are no empirical studies that analyze community gardens from the perspective of socio ecological innovation. Therefore, the intent of this article is to provide empirical evidence of the multidimensionality of community gardens in order to determine a social and ecological innovation strategy for sustainable development based on the community gardens framework. Thus, enhancing community garden attributes can trigger a virtuous social innovation mechanism aimed at the sustainable transformation of urban areas and, moreover, also applicable to rural areas.
The hypotheses of this study are:
Hypothesis 1 (H1). Community gardens are mainly influenced by social and environmental dimensions. Thus, they can be considered as social ecological innovation tools.
Hypothesis 2 (H2). Social and environmental attributes correlate each other. So, Policy makers need only implement few attributes in order to maximize the effect of community gardens based on social ecological innovation.
The empirical analysis is based on the direct survey of 150 gardeners in the area of Naples. Subsequently, the data gathered were analyzed by using a variance and correlation analysis.
The structure of the article is organized as follows. After this introduction, the second chapter profiles the urban garden and the social innovation theory according to the most recent studies. The third one describes the method adopted within the present study. The fourth chapter provides the result of the analysis by showing the most important attributes of community gardens. The fifth chapter provides the interpretation of the result integrated by additional academic studies in order to validate the hypotheses. Finally, the conclusions offer some suggestions for using the result of the article as well as suggestions for further studies.
2. Theoretical Background
According to Keeble [
4], sustainable development is “Development that meets the needs of the present without compromising the ability of future generations to meet their own needs”. Thus, this definition aims to achieve global economic welfare by preserving the Earth’s resources and the environment. This means environmental, economic, social and institutional improvement, both locally and globally, to achieve immediate objectives without jeopardizing future ones. This concept always encompasses these three dimensions: economic, social and environmental.
According to Duit and Galaz and Walker et al. [
5,
6], new management and governance systems are acutely needed to find more sustainable pathways in order to deal with the current society challenges. Social Innovation is recognized as an innovative solution to sustainability challenges. Phills, Deiglmeier and Miller [
7] define social innovation as: “A novel solution to a social problem that is more effective, efficient and sustainable than existing solutions and for which the value created accrues primarily to society as a whole rather than to private individuals”.
Cunha, Benneworth and Oliveira [
8] summarize the key aspects of social innovation by highlighting the following two distinct groups of characteristics that underlie its definitions:
Long-term social value creation: Social Innovation is concerned with social justice for the society as a whole. It focuses on social value creation and community development through collaborative action to deliver benefits over a long term.
Novel system-changing solutions: Social Innovation leverages, cross-sectoral and cross-disciplinary insights, to deliver novel solutions that are system-changing.
Thus, Social Innovation is able to achieve benefit for society and also enhance society’s capacity to act [
9]. Topics dealt with in the literature on sustainability and social innovation are focused more deeply on the conditions and dynamics of innovations and their role for a wider transformation of models in social organization and collective decision-making [
10,
11,
12]. Hence, the main goal of social innovation is to achieve sustainable transformation to for meet social needs. According to Nicholls and Murdock [
13], major transformations in societies can occur without improving their capacity to learn from, respond to and manage environmental feedback from dynamic ecosystems. From this perspective, social innovation can be an important mean for changing societies, but the reduced or non-existent ability to incorporate the ecological dimension can lead to non-sustainable transformation and development. Sustainable innovation must consider the environmental dimension as a driver as well as the social and economic ones. For example, nowadays there is gradual shift to bio fuels as a way to mitigate climate change [
14,
15], but this solution could have the drawback of leading to destructive land-use change and biodiversity loss [
16]. Thus, the environmental dimension must be explored in depth in order to evaluate the real impact on the ecosystem, otherwise any societal transition could lead to further ecological degradation that would be difficult to get out of [
17]. Therefore, the Social Innovation should evolve as a broader social ecological innovation in order to guide society towards social ecological sustainable transformation and outcomes. According to Olsson and Galaz [
3], social ecological innovation is “social innovation, including new technology, strategies, concepts, ideas, institutions, and organizations that enhance the capacity of ecosystems to generate services and help steer away from multiple earth-system thresholds”.
Social and ecological innovation could be beneficial to overcome the challenges related to the production of food. The world population grows more and more, and we must face the imposing demand for food both in terms of quantity and variety. According to Gordon et al. [
18], food production has a significant impact on climate change, biodiversity and land system change. Moreover, dietary habits and consumption patterns based on high animal-based products and low vegetable products put further pressure on the planet, as the first are generally less calorie-efficient and emit more greenhouse gases [
19]. Besides these environmental challenges, agri-food systems also face social challenges such as inequality and marginalization [
20]. Consequently, a transformation of the agri-food systems towards sustainability is necessary in order to ensure planetary health, which is fundamental for human wellbeing [
17,
21].
In the urban context, this problem leads to a shift in attention towards city gardening, where urban agriculture now dominates the discussion [
22]. According to Simon-Rojo [
23], urban agriculture is divided into two major macro categories: urban farming and community gardening. The first is associated with farms located in the urban area. The second is associated with everything concerning the small-scale urban cultivation of both edible and aromatic plants and plants for ornamental purposes.
According to Urban Agriculture Committee of the CFSC, the community gardens are cultivation activities, public or private, occurring within the urban areas for the production of vegetables, flowers and fruit.
The community gardening can be further deployed in:
Gardens for individual production purposes (e.g., family gardens).
Gardens with collective management and production (e.g., therapeutic, or shared gardens).
From this perspective, community gardening can offer affordable and convenient access to fresh products, particularly for urban populations with limited access to supermarkets. In the last decade, there was an explosion of interest of gardening. The role and potential of gardening within the city is presently seen as integral to making local and healthy foods more accessible, mitigating the negative impacts of urbanization, lowering carbon emissions, and encouraging emerging forms in the community and sociality in the urban space; all of these benefits resonate with sustainability goals [
24].
Community gardens can also guarantee the protection of biodiversity and promote a model of agriculture that excludes chemical products for crops, avoiding pesticides as much as possible and ensuring the use of sustainable best practices such as containers for waste separation [
25]. Some studies have investigated the environmental benefits of community gardening. The expansion of green areas in the city, including community gardens, improves the microclimate through the evapotranspiration process [
26]. The green areas help in removing energy and heat from the atmosphere and producing water vapor. This process is useful during the summer or in dry areas, since a greater humidity in the air and less energy in the atmosphere contribute to the achievement of comfort in poorly ventilated urban areas [
27]. The presence of trees but also herbaceous plants reduces suspended dust and the polluting charge of many compounds, including nitrogen dioxide [
28]. Thus, the environmental impact of community gardens is clear. In addition, the Technical University of Crete has also empirically proved the benefits of community gardens in reducing the temperature of the air and the earth’s surface temperature in an experiment conducted in the Chalepa district in Greece [
29].
Most studies have also researched the benefits of community gardening for community development [
30]. According to Sanecka et al. [
31], community gardens are examples of stewardship arenas where people can re-connect with nature by building social cohesion and promoting democratic values through cooperation and debate. With community gardens, the gathering and passing on of practices, knowledge and experience for community building and management of local ecosystems through the preservation of social–ecological memory is possible [
32]. According to Filkobski [
33], community gardens support community cohesion, as they have the ability to create a civil conscience towards green areas. This research also states that community gardens are capable of embellishing neighborhoods for the benefit of residents, who then feel more pride and attachment to the area in which they live [
34]. Nowadays, community gardens are designed to be a resource for the development of a parallel economy, based on a network of relationships, sharing of values and objectives to support the community. Community gardens have triggered a collaboration mechanism (sharing economy) among various urban farmers that generate positive effects in terms of economy, health and knowledge [
35].
According to Grahn, Demers and Kingsley [
36], it is clear that community gardens create relationships between individuals and territories and are considered therapeutic, especially for older people with mental disorders because they are an excellent anti-stress activity. The practice of garden therapy renders the garden a habitat for enhanced wellbeing and healing for fragile people or people going through particularly difficult phases of their lives [
37,
38,
39]. The possibility of having a visible result offers a sense of accomplishment of a craft, which is not only work for its own sake but a way to practice what has been learned about gardening [
40]. Each garden answers the challenge to create a more sustainable lifestyle because it represents the ideal habitat for promoting processes of change towards a more sustainable community, [
41] encouraging the abandonment of behaviors harmful to people like excessive urbanization and promoting the quality of the environment and human society [
33,
34,
42]. The care of a vegetable garden involves taking responsibility not only for oneself and one’s surroundings but also for future generations [
43]. The spread of community gardens has had a positive and direct impact on people’s health by reducing the risk of disease that a sedentary and isolated life can lead to, resulting in decreased costs in public health [
44]. Through community gardens, concrete, everyday practices become a steppingstone to a horizon of values and ideals for the future of the planet. Community gardens are an effective way for people to learn how to value food, nature and the environment [
45].
According to Sepúlveda and Edwards, Camps-Calvet et al. [
46,
47], community gardens provide opportunity for empowering local communities, improving their quality of life by creating new jobs, promoting certain food products, generating new revenue streams, forms of solidarity, aggregation and integration among the various actors and educating younger generations to respect the environmental characteristics of an area.
Community gardens are the first and most concrete connection between urban reality and rural culture because they support the transformation of the cities and allow urban gardeners to maintain relationships with rural culture [
47,
48,
49].
Therefore, whatever the typology of community gardens, they always embody the three dimensions of sustainability: social, environmental, and economic. Thus, they can act as a powerful social innovation agent. In fact, according to the University of Manchester, the term urban social-ecological innovation (USEI) includes a “wide array of urban ecological movements which have been described through a broad and often complex social-ecological nomenclature including: Civic ecology [
50], urban environmental movements [
51], social-ecological innovation [
3] and organized social-ecological innovation [
52], community-based urban land management [
53], urban greening [
54], user participation [
55], collectively managed community gardens [
55], community gardening [
56] and community agriculture [
51]”. Thus, community gardens are clearly a social-ecological innovation tool to achieve sustainable development.
3. Methodology
An empirical analysis based on a structured interview (questionnaire) prepared by Parthenope University and distributed to a sample of 150 gardeners in the area of Naples was conducted by using a purposive sampling. The following process was applied to define the sample and questionnaire and to achieve the maximum level of data integrity and homogeneity.
STEP 1 identification of the number of representative community gardens by sampling
- A.
Selection of the Area.
The choice of the Naples area was mainly due to the already deep knowledge of the context and the actors, with a better managing communication with the population and a better understanding of the network of relationships.
- B.
Selection of the driver aspects on community gardens.
The aim of this analysis was the identification of macro-categories of community gardens community. The following categories were identified:
- C.
Selection of the number of community gardens to use for the statistical analysis with the aim of maximizing the cost–benefit effects.
Two community gardens were selected to cover all macro-categories.
STEP 2 identification of the number of people to be interviewed
- D.
Identification of stakeholders to interview and the definition of quotas by gender, age, educational level.
The choice of stakeholder was mainly influenced by the need to trace a large and significant part of the population. In addition, no reliable data were already available on stakeholder’s distribution for gender, age or educational level. This factor led us to submit a questionnaire on almost all the stakeholders available in the selected community gardeners. The following stakeholders were identified and interviewed: head of organizations, direct-producers, farmers, parents and relatives of the farmer, municipal organizations and all the people involved in urban garden activities in general. In the frame of our analysis these stakeholders were identified as gardeners.
- E.
Determination of the sample size.
The number of 150 was considered adequate based on the author’s judgment, because no official data were available.
STEP 3 Questionnaire preparation and validation
- F.
Determination of questions.
The questions were defined on the basis of an analysis of the academic literature and on similar empirical experiences.
- G.
Questionnaire validation.
The questionnaire was reviewed by small number of stakeholders, with the function of checking the quality of the questions.
- H.
Questionnaire submission.
The stakeholders were invited to fill questionnaire voluntarily and anonymously.
According to this criteria, two gardens were selected for this study. The first one, within the urban area of Naples, is the Social Garden of Health and Wellness of Ponticelli situated inside the De Filippo City Park. This garden consists of one hectare of land dedicated to community gardens. It is managed by the municipality through several organizations. The second one was in Soccavo, in the peri-urban area of Naples, where the Progetto Pace Association uses around 1000 square meters for community garden purposes. These two typologies of gardens were selected because they were representative of public and private community garden management, urban and peri-urban community gardens, as well as small and big community gardens. Therefore, we decided to interview the following set of stakeholders involved in the urban garden activity in the Naples area: head of organizations, direct-producers, farmers, parents and relatives of the farmer, municipal organizations and all the people involved in urban garden activities in general [
48]. The timeframe of this survey was limited to a data collection session in the months of October and November 2016. The questionnaire was filled in anonymously by the sample. Moreover, the questionnaire included a disclaimer to be authorized on using the information for academic research studies. The questionnaire was divided into five sections. The first relates to the degree of satisfaction and the methods of use with the practice of community gardens; the second part is aimed at detecting the social function performed by the community garden; the third concerns the environmental function of the vegetable garden; the fourth investigates the economic function, and finally the last section includes questions related to the personal data of the interviewees. The questionnaire was created in order to associate a metric scale from 1 to 5 for each variable according to Likert Scale. The value 1 corresponds to the absence of relevance given to the variable, while the value 5 indicates the high relevance given to the variable.
Table 1 depicts the scale.
Only the agreement attribute was applicable to the social, environmental and economic variables analyzed in this study. We applied this approach in order to perform a quantitative analysis of the data collected. The investigation was focused on social and environmental variables to highlight the social–ecological dimensions of community gardens. In addition, the economical dimension was also analyzed in order to compare the weight of these three functions. Therefore, the analysis was performed by using the following three groups of variables: Social, Environmental and Economic (
Table 2). A preliminary literature review on community gardens was performed in order to properly select the variables appropriately.
The references [
30,
32,
57,
58,
59,
60,
61] were used as bibliographic sources to identify the variables.
A preliminary analysis was performed to select the significant community garden factors according to criteria based on high mean (average) and small variance (p. 7). The significant community garden factors were selected on the basis of the following criteria:
According to these criteria, the subsequent analyses were performed only to those variables that are considered as very relevant for most of the sample (e.g., the eight variables in bold, as per
Table 3). The significant community garden factors were analyzed by using the Analysis of Variance (ANOVA one-factor) and the correlation analysis using Microsoft Excel. It is a parametric statistical technique used to compare datasets and to detect differences in means (averages) between various levels of a factor, or between different groups [
62]. According to von Eye and Bogat [
63], this method can be applied both in the context of variable-oriented research and in person-oriented research. In this perspective, this analysis was performed to get insight information on the significant community garden factors as well as on the relevant group orientations. Although ANOVA is widely used, it was important to check the validity of key assumptions before applying the analysis to the questionnaire data. As discussed by Hogg and Ledolter [
64]. These assumptions are:
The values for each level follow a Normal (a.k.a., Gaussian) distribution.
The variances are the same for each level (Homogeneity of Variance).
Hence, the ANOVA was performed to evaluate the differences in means between different community garden factors and for different age classes of the selected sample. The aim of the latter evaluation was to identify to what extent the significant community garden factors are influenced by different age classes within the sample of 150 gardeners. To this purpose, the sample was decomposed into age classes to verify whether age influences the weight of the selected significant variables. The following two age classes were selected
as they represented about 80% of the total (118 out of 150). The analysis was also performed for the age classes 25–50 and over 50, equivalent to 96% of the sample, with no significant variations in the results. Thus, ANOVA was used to verify that the significant community garden factors are not influenced by the age (i.e., this is null hypothesis, H0). For this purpose, a statistical test, called the F test, was applied. The F test is simply a ratio between two variances and follows the value of the F distribution. It was used to verify the null hypothesis. Basically, the value of the test F is compared with the statistical critical value F, depending on the significance level chosen (e.g., the selected significant level was p-value = 0.05 (5%). ANOVA uses the F test to determine whether the variability of the means between the groups (e.g., between 35–50 and 50–65) is greater than the variability of the observations within the groups (e.g., within 35–50 and within 50–65). The result of this analysis provides important information to state whether or not the significant community garden factors are universally accepted by the whole sample without any difference due to age. This information is critical for any stakeholder with the intention of introducing social innovation strategies based on a Community Garden. Basically, if the ratio is sufficiently large, it is possible to conclude that not all averages are equal, and therefore the null hypothesis is rejected. On the contrary, if the value is low enough, the null hypothesis is confirmed.
In the frame of this paper:
The null hypothesis is verified, F < Fcrit;
The null hypothesis is rejected, F > Fcrit.
The results of the questionnaire were further analyzed by using the Pearson correlation analysis. This is a statistical method used to evaluate the strength of the relationship between community gardens variables [
65] and to obtain information on the predictive relationship between the significant community garden factors that can be exploited in practice. In other words, the correlation coefficients were used to evaluate the strength (direction and magnitude) of the relationship between two variables [
66]. However, correlation does not imply causation [
67]. Thus, using only the correlation analysis, it is not possible to state a cause-and-effect relationship. Hence, an additional test was needed to test the significance of Pearson’s correlation coefficient or, in other words, the linear relationship between independent community garden factors. According to Student [
68] and Fisher [
69], the significance of correlation coefficients can be tested by using Student
t-distribution and the Fisher z-transformation [
67]. For the purpose of this paper, the Student’s
t-test (e.g.,
t-test in Microsoft Excel) was applied to evaluate the significance of the correlation coefficients. This test makes it possible to calculate the significance according to probability (p) levels and gives information on the likelihood that the correlation coefficient will occur with no relationship within the selected sample. It must be noted that a smaller
p level indicates a more significant relationship [
67]. In the frame of this study, a value of
p less than or equal to 0.05 (5%) was considered acceptable in order to state that significant community gardens factors are directly related to each other. Hence, the most correlated factors were identified as high influential factors because on changing them; there is an important effect on the others as well, and the total result is maximized.
4. Results
The first step was the calculation of the mean (average) and the variance in social, environmental and economic variables in order to define the most significant ones as depicted in the
Table 3.
The first evidence of these results is the low score of economical motivation compared to the social and environmental ones; in fact, few interviewees declared that they practiced gardening for economical purposes. All three variables of this category do not have a strong impact on the interviewees. On the other hand, the questions related to the social and environmental function of community garden cultivation are the most significant in terms of average score and variance. This first result was important in order to focus the analysis only on the social and environmental variables. According to the results, eight variables were identified as truly relevant for most of the sample (e.g., the eight variables in bold as per
Table 3). The socialization and historical memory for retired people was considered as compliant to the criteria even if the variance exceeds the selected limit (e.g., 1.05 ≈ 1). These variables were identified as significant factors for community gardens. Thus, these variables were analyzed by using ANOVA to check whether or not the average of eight social and environmental variables are influenced by age.
The
Table 4 below shows the result of the analysis.
As shown in the tables, the H0 is accepted for all variables (e.g., F > Fcrit and p-Value > 0.05), so the age classes do not influence the social and environmental variables. The significant social and environmental factors are equally important in the different age classes of the sample. Thus, this result provides evidence of the robustness of the selected social and environmental variables.
In addition to ANOVA, a correlation analysis was carried out to understand the mutual dependence between the variables (
Table 5). The analysis shows how the variables are related to each other and how the change in one variable could influence another. This result was fundamental in evaluating the most powerful variables (called High Influential Factors) in terms of ability to influence other variables. This result represents a crucial information for any stakeholder, e.g., Institution and Policy Makers, to optimize social and ecological innovation strategies based on community gardens.
Subsequently, the Student’s t-test was conducted to evaluate the significance of the correlation analysis and relevant values. The result of this test shows that most of the variables have a cause–effect relationship (p < 0.05 (5%)).
5. Discussion
This paper shows the community gardens in light of social, economic and environmental dimensions by using an empirical survey. From this perspective, they are acting as tools to boost sustainable development. In particular, the result of the analysis (
Table 3) shows that social and environmental dimensions are the most relevant community garden attributes. Therefore, community gardens can be seen as a social and ecological innovation tool. Specifically, the result of the analysis (
Table 3) has identified the most significant social and environmental factors. In particular, it is seen that the sample considers the environmental attributes of the community garden to be more important than the social ones (
Table 3) due to bigger average values and smaller variance. The analyses of variance (
Table 4) has also highlighted that these factors are not dependent on or influenced by the different age classes used in the empirical survey. Therefore, they can be considered as universally accepted factors. Finally, the subsequent correlation analysis (
Table 5) has also identified the relationship (direction and magnitude) between the environmental and social attributes of community gardens. This result was important in identifying the high influencing factors, i.e., those factors that have a greater potential to influence other attributes. Thus, these results provide useful and insight information in order optimize social and ecological innovation strategies by creating a pattern based on the high influencing factors.
According to the result of the analysis (
Table 3), the most important social variables are “socialization and historical memory for retired people”, “strengthening and sense of community” and “wellness and community”. On one hand, it is clear that shared memories and rights granted to civil society groups play a role in the resilience of community gardens action. On the other hand, there is a direct dependency of the latter two variables (
Table 5 and
Table 6). According to some empirical studies, there is a positive effect of the sense of community in increasing personal wellness (e.g., life satisfaction, loneliness), both in adult and adolescent populations [
70,
71,
72] (
Table 4). According to Berkman et al. [
73], socially oriented behaviors and a feeling of belonging to a meaningful social context (Sense of Community) increase social well-being and reinforce social participation. This result provides a confirmation of this relationship. Therefore, policy on community gardens should investigate and take advantage of this relationship because the boosting of one of these factors will indirectly increase (70%) the other as well. An additional effect is that the “wellness and community” also influences environmental attributes such as the redevelopment of empty or abandoned areas, urbanization effects mitigation and enhancement of local products. This correlation can be explained by the link between environmentalism and health. According to Langemeyer et al. [
74], the motivations of people choosing the protection of green spaces may be related to the relationship towards environmentalism but also to health. According to some scholars [
75], social cohesion and increased social contacts are the means by which the natural environment supports health promotion. This correlation can also be explained by the multi-dimensionality of the concept of wellness. According to Stoewen [
76], wellness encompasses several interdependent dimensions: physical, intellectual, emotional, social, spiritual, vocational, financial and environmental. Thus, the strong interdependency of “wellness and community” attributes should be explored by the institutions and policy makers that are proposing a social innovation strategy based on a community garden framework, and this attribute can be considered as a high influential factor in the frame of that strategy.
The questions related to the section of the questionnaire aimed at investigating the environmental function have been shown huge interest from farmers in this topic [
77]. All environmental variables play a strong role in the community garden definition (
Table 2). The most significant attribute is the redevelopment of empty or abandoned areas, the use of natural fertilizers, the urbanization effects mitigation, the enhancement of local products and, finally, the recovery of vegetable plants. The motivation behind the redevelopment of empty or abandoned areas in community gardens could be the freedom to self-organize management practices when restoring degraded places in urban landscapes [
14,
31,
50,
78]. Several studies have confirmed that community garden initiatives are driven by several factors, such as quality of the qualities of crops for consumption, health benefits, reducing environmental footprints, empowerment and strengthening of community ties and upkeep of cultural ecosystem services [
31,
79,
80]. In particular, there is one attribute, urbanization effects mitigation, which strongly influences all the other environmental factors (
Table 5 and
Table 6) with a side effect on social factors as well. Therefore, the second highest influential factor for community garden strategy is the urbanization effects mitigation.
According to the results of the correlation analysis (
Table 5) there are two variables, wellness and community and urbanization effects’ mitigation, which can influence almost all the other significant environmental and social attributes. Therefore, they are the highest influential factors needed to identify the best strategy to boost the community garden as a social and ecological tool (
Table 5). Thus, community gardens can be considered as a type of urban innovation called Urban Environmental Stewardship (UES), that can promote sustainability, ecosystem services, social networks, collective identity, and sense of place [
81].
Therefore, this empirical analysis shows that social innovation tools, such as community gardens, will embody the social attributes as well as the ecological dimensions. This interrelationship is crucial to achieving sustainable development. For instance, the current environmental crisis has been mainly caused by having excluded the ecological dimension from the social life [
82] and not including the harmonious relationship with the environment as a critical factor to achieve social well-being. Thus, the possible short-term positive effects (e.g., production of organic food [
83]) and long-term positive effects (e.g., reducing pollution) of the ecological dimension on social life have turned into negative effects (e.g., less healthy food and social limitations due to pollution). Social practices can operate in synergy with or in opposition to the local environment, producing either positive and sustainable “couplings” between social practices and environmental resources or destructive and unsustainable paths [
84]. According to the results of the analysis (
Table 5), the significant social and environmental factors are positively correlated to each other. Anyway, this correlation can, to some extent, evolve and change. Thus, this positive cross-correlation should be boosted and incentivized as soon as possible to obtain benefits in terms of sustainable development and avoidance of negative side effects. (e.g., gardeners perceive the community as a place to be isolated from the rest of the society).
In this perspective, community gardens have the capacity to create social and ecological capital that can enhance good practices and people’s positive interactions with the environment [
1]. Thus, the community garden acts as an ‘indicator’ [
46], revealing whether the ecological dimension has a detectable effect on social life.