Journal Search Engine

to

Search Advanced Search Adode Reader(link)
Download PDF Export Citation PMC Previewer
ISSN : 1225-5009(Print)
ISSN : 2287-772X(Online)
Flower Research Journal Vol.31 No.3 pp.122-136
DOI : https://doi.org/10.11623/frj.2023.31.3.01

Classification of the Types of Community Gardens Based on Their Function through an Expert Focus Group Interview

Jiwon Park, Doori Lee, Miae Jeong*
Garden and Plant Resources Division, Korea National Arboretum, Pocheon-si, Gyeonggi-do, 11186, Korea


Correspondence to Miae Jeong Tel: +82-31-540-8958 E-mail:
miaejeong630@korea.kr ORCID: https://orcid.org/0000-0002-1242-7859

11/05/2023 27/06/2023

Abstract


To functionally classify the types of gardens that can be used in a city, this study examined the perceived functions of gardens in Korea by reviewing the previous case studies, field surveys concerning gardens in cities, and interviews with stakeholders. First, the roles and effects of gardens identified in the earlier studies were clustered into similar concepts. To ensure validity, the types of functions of the gardens were named based on opinions gathered through meetings with experts. Field surveys were conducted on 31 cases studied over four years. The data obtained were applied to supplement the redefined classification criteria and items for gardens in the city as described above. The current status of the gardens was analyzed by type. The gardens were divided into four categories: socio-cultural, environmental, economic, and health-related. The sociocultural type was dominant among the community gardens in Korea. The results of this study may be used as a reference for the intended function of building an urban garden and to prepare guidelines for introducing socio-cultural, environmental, economic, and health-type gardens in the future.



garden benefit , landscape , mental health , physical activity , social cohesion , urban biodiversity

초록

    Introduction

    Since the 1960s, rapid economic growth and industrialisation have concentrated populations in urban areas, and the development of new suburban towns has left existing urban areas faced ageing infrastructure, traffic congestion and pollution (Jang et al. 2017;Lee 2016;Park et al. 2016). In Korea, urban renewal projects were implemented to address this rapid urban decline and achieved many successful outcomes. However, this caused conflicts among residents due to their method of complete demolition (Gu 2021), and the meaning of urban regeneration is currently changing around localized maintenance, resident participation, and sustainability (Jung 2018). Thus, it requires an approach in which public institutions and local residents work together to resolve village issues and promote community restoration and revitalization, rather than the traditional public institution-driven method (Fox-Kämper et al. 2018;Jin 2012).

    In 1890s of United States, garden construction in urban occurred as community garden, which social phenomenon showed the expansion into the public (Armstrong 2000). Community gardens contribute to the health effect enhancement, social strengthening, and urban biodiversity (Goddard et al 2010;Howorth et al 2020;Kang et al 2020;Lee and Jeong 2020). These changes have highlighted gardens as a link between urban regeneration and resident participation, creating social values, such as food production and community revitalization and-improving urban aesthetics (Egli et al. 2016;Park et al. 2016). Accordingly, gardens established in the cities could make participants to feel a sense of accomplishment (Scott et al. 2020;Tournier and Postal 2014) and to revitalize the local community by improving relationships with neighbors (Lee 2019b;Teig et al. 2009). In addition, traditional gardens in usual have been established by people themselves as places of participation and community recovery through garden tending in the contemporary period (Sim and Zoh 2015). Therefore, the concept of a community garden that can be utilized in the city is defined as a high-quality green space—a space for physical and mental recovery, community solidarity, and creating social and cultural content not only in underdeveloped areas but also in daily living areas.

    Although various functions of the garden were dealt with in some previous studies (Park et al. 2017a;Park et al. 2017b;Lee 2005;Tracey et al. 2020);, which comprehensively considered the detailed functions covered above were insufficient and there was also a lack of research that substituted the function of the garden in the actual case. To establish that gardens play various roles in a city, it is necessary to classify their types based on their function. Hence, this study was conducted with field surveys of gardens in the city to categorize the types based on their functions in Korea through interviews with users and stakeholders. The findings of this study might serve as guidelines regarding the establishment, operation, and management of each garden type in the future.

    Materials and Methods

    First, the functions and effects of gardens identified from previous studies were clustered into similar concepts (Fig. 1). To ensure validity, the garden function types were named after opinions were gathered from expert meetings. Next, field surveys were conducted on 31 cases over four years (2019– 2022) to identify the gardens with addresses, areas, land types, detailed facilities, operating programs, and functions. Finally, field survey data were applied to supplement the above redefined classification criteria and items for the city gardens, and the current status of gardens by type was analyzed.

    Keywords Identified for garden functions from literature review

    Keywords were searched regarding garden functions, effects, roles, types, and services, and relevant literature was extracted from Korean and international journals, reports, and theses. The key results from the literature on the functions of gardens, in line with the study topic, were summarized and organized by keywords (Table 1). The detailed functions of gardens were represented by consolidating similar terms when there were overlapping meanings due to similar words. The detailed functions of the listed gardens were classified and clustered into related concepts.

    An analysis of Korean and international literatures about the functions of gardens showed that gardens in modern cities communicate with local residents and contribute to the recovery of community life (Lee and Jeong 2020;Park et al. 2017a). With the productive directly growing eating crops (Egli et al. 2016;Guitart et al. 2014;Martin et al. 2017), gardens have been found to improve landscapes by providing natural beauty to the city (Gil and Park 2022;Kim 2021;Park et al. 2020) and to increase the value of - ecological network and biodiversity in city (Goddard et al. 2010;Sierra-Guerrero and Amarillo-Suárez 2017;Speak et al. 2015). Gardens also provide psychological peace through contact with nature (Kang et al. 2020;Lee 2019a;Nordh and Østby 2013) and help maintain physical health through growing plants (Egli et al. 2016;van den Berg et al. 2010). Furthermore, gardens increase the value of buildings (Lee 2005) and serve as a place for environmental education (Mo 2021;Lee 2005). 5 functional types of gardens have been classified through the previous studies, these are social, cultural, environmental, economic and health benefits (Table 1).

    Focus group interview (FGI) with Identified keywords about the functions

    An expert questionnaire survey was conducted to validate the types of identified functions. The interviewees included 12 experts with garden-related work experience more than 10 years and a Doctor of Philosophy (Table 2). As data for the FGIs, a questionnaire was distributed, including questions about selecting the function types of gardens and representing the degree of agreement between the functions on a 4-point Likert scale. Additional questions were asked during interviews. Face-to-face and online meetings were conducted from October 12 to 13, 2022. The final decision on the garden types was made based on the questionnaire results and the FGI participants’ opinions. As a result of the FGIs, 4 types of gardens were classified: socio-cultural, environmental, economic, health, as social and cultural were combined into socio-cultural.

    Classify the functions of community gardens by case (study location classification)

    To validate whether garden types could be applied to gardens in cities across Korea, community gardens surveyed from 2019 to 2022 were classified into 4 types. The scope of this study included 31 locations of gardens established in urban regeneration and environmental improvement projects in Korea, including four from the Community Garden Establishment Resident-Suggested Project (Seoul), 20 from the Citizen Participatory Village Gardening Project (Gyeonggi-do), six from the Village Garden Project (Ministry of Security and Public Administration), and one from the Green Fund Support Project (Korea Forest Service). The purpose, shape, and characteristics of gardens were identified from a survey of their current status and interviews with stakeholders, and the most suitable types of urban gardens were selected.

    Results and Discussion

    Keywords identified for the concepts and functions of urban gardens

    This study was based on the classification of garden functions by Park et al. (2017b) into cultural, environmental, social, and additional functions in economic and healthy in 5 functions (Howorth et al. 2020;Jeong et al. 2017;Kang et al. 2020;Lee 2005;Thompson 2018;Tournier and Postal 2014;Tracey et al. 2020;Scott et al. 2020).

    Research trends in social functions (26.5%) focus on their contribution to enhancing local attachment, such as social cohesion and sense of place. The cultural function (12.2%) is focused on educating and engaging. In particular, social connectedness and political and educational effects received the highest proportion of studies. For health functions, psychological assessments (18.4%) predominate, while physiological assessments (6.1%) are less common. For environmental functions, the majority of studies focused on connectivity and regulation (14.3%). It can also be seen that the promotion of urban biodiversity through gardens (6.1%) continues to be studied. As for the economic function, research was mainly carried out on the reduction of social costs (8.2%). The overall proportion of literature shows that the economic function (8.2%) is somewhat under-researched compared to the other functions, suggesting that future research should focus on the economic function of gardens (Table 1). Consequently, the detailed functions mentioned in each previous studies are shown in Table 3.

    Types of garden functions classified by FGI

    The experts were asked to select five keywords associated with each of the 5 types of gardens classified in the literature that they considered important. Table 4 provides the functions and effects of the types of gardens identified in the expert questionnaire. The social type of gardens showed a strong attachment to the community, improved aesthetics, community revitalization, opportunities for recreation and leisure activities, and improved welfare for local residents. The high importance of items related to community cohesion and urban beautification was similar to previous studies (Egli et al. 2016;Park 2017;Park et al. 2017a), with the exception that crime reduction, education, and experience through gardening were excluded due to the low importance of expert opinion. Other community related items (social bonding, friendship, socialising and interaction) were grouped together as community activation. The cultural type of gardens showed a high level of urban vitality, aesthetics, and connection with nature. This is similar to the results of previous studies (Park 2015;Park et al. 2017b) in that gardens are used to appreciate natural landscapes and pursue aesthetic values, but cultural heritage implications were excluded due to the low importance of expert opinion. The environmental type of gardens showed a high level of resting space for citizens, biodiversity recovery, improved streetscape, linkage with urban green spaces, and an improved urban regeneration environment. Among the ecosystem services of gardens classified in previous studies (Mo 2021;Park et al. 2017b), regulating services such as carbon dioxide reduction and heat island phenomenon mitigation were found to be of low importance in expert opinions. On the other hand, the function as a connecting green space highlighted by Goddard et al. (2010) was found to be important. The economic type of gardens indicated a high level of local welfare, tourism, increased real estate value, eco-tourism and eco-healing, job creation, and local economic revitalization. In Park et al. (2017b), tourism and employment were classified as social functions, but in expert opinions they were classified as economic functions, similar to the classification in Park (2017). The health type of gardens showed a high level of relaxation and healing, improved quality of life, stress relief, stability, and relaxation. This is similar to previous studies that emphasised mental and physical effects (Haworth et al. 2020;Thompson 2018;Schram-Bijkerk et al. 2018;), while achievement and self-esteem, highlighted in Tournier and Postal (2014) and Scott et al. (2020), were excluded due to the low importance of expert opinion.

    As the FGI relies on the subjective judgement of experts, we use the inter-rater agreement to calculate the content validity index, which measures how well an item represents the content. According to Lawshe (1975), it is considered valid if the validity index is 0.56 or higher in the content validity ratio (CVR) from 12 experts. For each of the five functions - social, environmental, economic, cultural and health - respondents were asked to indicate how important they thought the corresponding sub-function was for each function in Table 5. The social type of gardens showed a high level of validity in social bonding, local community revitalization, and improved quality of life of local residents, whereas the cultural type showed a high level of validity in the order of natural landscapes, opportunities for recreation and leisure activities, and aesthetics. The environmental type of gardens showed a high level of validity regarding resting space, urban green space connection, and biodiversity recovery. The economic type of gardens showed a high level of validity in ecotourism, eco-healing, sustainable development, and job creation, while the health type showed the highest level of validity in physical activity (Table 5).

    During the FGIs, most experts suggested the following opinions regarding the overlap between social and cultural functions:

    It is a structure in which detailed social and cultural functions overlap when gardens are classified into five functions. Since cultural functions can be regarded as part of social functions, they should be clustered into a single concept.

    “When a society lasts, it develops into a culture. The society referred to in this study is the concept of socialization, and it becomes a culture when socialization is over. Since it becomes a culture only when it is socialized, the focus should be on the social functions of gardens in the early stage. As socialization proceeds by revitalizing the community, restoring relationships within the organization, and generating a sense of understanding and respect for others through effects, such as softness and relaxation provided from parks, and then develops into a culture, it should be integrated into socio-cultural functions.”

    “The garden functions showing the public interest would be properly explained only when social and cultural functions are consolidated.”

    In addition to expert opinion, previous studies by Pyo and Choi (2021) and Hong and Lee (2021) also have grouped social and cultural together and explained gardens under socio-cultural functions. As a result, four types of gardens were selected: socio-cultural, environmental, economic, and health. Based on the FGI results, the socio-cultural type of gardens included some functions such as attachment to the local community, local community revitalization, urban revitalization, and improved appearances and aesthetics, while the environmental type included resting space for citizens, improved streetscape, improved urban regeneration environment, linkage with urban green spaces, and biodiversity recovery. The economic type of gardens included local welfare, local economy revitalization, tourism, job creation, and increased real estate value, while the health type included relaxation and healing, a sense of stability, stress relief, and improved quality of life (Table 6).

    Analysis of types in community garden cases in Korea

    The garden cases were classified into four function types based on expert questionnaire survey results. Unlike location and form, much subjectivity is involved in functions during the classification process. Hence, instead of classifying all the functions performed in gardens, this study restricted the classification to the functions found in small-scale gardens established as part of urban regeneration projects and identifiable through one-time field surveys and interviews.

    An analysis of the current status showed that the socio-cultural type of gardens included garden-related education, improved landscape, events (community revitalization), and rest (shelter); the environmental type included linkage with green spaces, biodiversity preservation, climate change response; the economic type included linkage with local commercial areas, production activities, profit creation from tourism, and job creation; and the health type included linkage with health and welfare facilities, space for resting and healing, and garden experience activities (Table 7). Most of the 31 gardens studied in Korea were found to have cultural functions. This seems to reflect that this study surveyed gardens where communities such as resident associations and cooperatives participated in establishing the gardens. It was found that gardens included socio-cultural and other functions as characteristics. Based on these findings, the types of gardens were divided according to each case location’s geographical characteristics and functional elements.

    In most cases of the socio-cultural type of gardens, there were garden centers, garden docents, and experience and commentary programs, and they were found to be spaces where garden activities were conducted actively as residents led operations and management. It was found that most case locations of the socio-cultural type of gardens considered gardens as revitalizing the local community and improving aesthetics. In the case of Mirinae Village, Bucheon, a garden was created to expand a space for communication between residents, and various types of benches, swing chairs, and sitting walls were thus installed. A garden-based festival was held to promote solidarity among residents, and garden commentary and garden maintenance activities where residents participated in person were also conducted (Table 8).

    In the case of Maeholdure, Osan, representing the environmental type of gardens, a garden was established under the mountain, and a school and houses were located nearby, connecting the large green area and daily living space. It was found that gardens were seen as addressing accumulating garbage in the area. The resting space was created with benches and pergolas, rainwater recycling tanks, solar garden lights, and garden facilities that considered environmental factors with recycled materials (Table 8). This study found only three cases of environmental-type gardens with a large green area near mountains that served to respond to climate change or preserve biodiversity, suggesting a lack of environment-type gardens in Korea. Facilities related to climate change response were found to be fragmented facilities, such as rainwater storage facilities or solar gardens, and there was only one case that built a habitat for biodiversity. Given that the built-up area in Seoul is 61.39% (Seoul Open Data Plaza 2019), there are limited, sufficiently large areas for gardens to be established in Korean cities. Options to preserve urban biodiversity include not only parks, but also small-scale gardens, which may serve as a habitat and a connected green space to form an ecological network (Goddard et al. 2010), Urban green spaces with a higher level of biodiversity provide greater physical and psychological benefits to citizens (Fisher et al. 2022;Fuller et al. 2007;Loram et al. 2011). Therefore, it is necessary to actively promote the establishment of gardens that include ecological functions and prepare an ultimate solution to environmental problems.

    Six economic types of gardens were found to generate profits through festivals, instructors, and farming association activities or to create jobs for older adults managing gardens. Furthermore, for-profit garden programs, such as horticultural activities, crafts, accommodations, and dining, were also conducted. Sema Art, Osan was found to consider a garden, as workshops were not very active, although there were many of them nearby. An outdoor stage was installed in the garden to hold a village festival with nearby workshops, which was found to have gradually revitalized the local commercial area (Table 8).

    The health type of gardens was limited to gardens in medical institutions or welfare facilities, and this study found only one, which was the lowest number among the results. The community garden at Chuncheon National Hospital is characterized by its design that considers patients in the hospital in terms of the garden configuration. Even though they were temporary, garden-based activities were also conducted for patient healing (Table 8). As garden activities help to improve mental health, rehabilitate by increasing physical activity, and assist in coping with long-term diseases (Scott et al. 2020;Thompson 2018;Howorth et al. 2020), it is necessary to consider continuing a program instead of a temporary activity program after establishing a garden. It is necessary to promote the establishment of gardens tailored to the underprivileged, such as older adults, the disabled, and the mentally ill.

    Conclusion

    This study evaluated various functions of urban gardens based on previous studies and identified and validated function types of gardens through FGIs. 4 Functions were classified based on the actual cases of gardens established in Korea. The socio-cultural type of gardens (75.0%) is a garden adjacent to the daily living space, allowing residents to directly participate in the maintenance and is useful to spread garden activities, thereby revitalizing the local community and improving landscapes. The environmental type of gardens (7.5%) is a garden located around a large green area that connects with other green areas within the daily living area and positively affects residents’ resting spaces and biodiversity. The economic type of gardens (15.0%) is a garden that coexists with the surrounding commercial area to attract visitors and boost the local economy. The health type of gardens (2.5%) can be defined as a garden that enhances quality of life by providing a gardening and healing program designed to improve the health of its intended participants. The analysis of cases in Korea showed that there are many socio-cultural type gardens, while there is a lack of gardens of the other types - resulting from the characteristics of the housing culture in Korea, where apartments account for most houses, and consequently, the socio-cultural type of gardens also seems to account for the majority. The results of this study may serve as a reference for determining the functions to be pursued when establishing a city garden. Furthermore, it is necessary to prepare guidelines to introduce different types of gardens, as well as the socio-cultural type of gardens.

    Acknowledgments

    This study was carried out with the support of Korea National Arboretum, Republic of Korea (Project No. KNA4-1-2, 19-7). And we would like to thank Editage (www.editage.co.kr) for English language editing.

    Figure

    FRJ-31-3-122_F1.gif

    Study process flow chart.

    Table

    Classification of previous study cases according to key results.

    Status of experts who participated in FGI.

    Primary results of identified function types and detailed functions of community gardens.

    Results of frequency analysis by 4 types of community garden function.

    Content validity verification results for representative functions by 4 types.

    Type and detailed function derived from results of FGI.

    The number of garden cases and their detailed elements based on the function.

    Introduction of cases about the 4 types of gardens.

    Reference

    1. Armstrong, D (2000) A survey of community gardens in upstate New York: Implications for health promotion and community development. Health Place 6:319-327
    2. Belmeziti A , Cherqui F , Kaufmann B (2018) Improving the multi-functionality of urban green spaces: Relations between components of green spaces and urban services. Sustain Cities Soc 43:1-10
    3. Block K , Gibbs L , Staiger PK , Gold L , Johnson B , Macfarlane S , Long C , Townsend M (2011) Growing community: The impact of the Stephanie Alexander Kitchen Garden Program on the social and learning environment in primary schools. Health Educ Behav 39:41-432
    4. Egli V , Oliver M , Tautolo ES (2016) The development of a model of community garden benefits to wellbeing. Prev Med Rep 3:348-352
    5. Fisher JC , Rankin E , Irvine KN , Goddard MA , Davies ZG , Dallimer M (2022) Can biodiverse streetscapes mitigate the effects of noise and air pollution on human wellbeing? Environ Res 212:113154
    6. Fox-Kämper R , Wesener A , Münderlein D , Sondermann M , McWilliam W , Kirk N (2018) Urban community gardens: An evaluation of governance approaches and related enablers and barriers at different development stages. Landsc Urban Plan 170:59-68
    7. Fuller RA , Irvine KN , Devine-Wright P , Warren PH , Gaston KJ (2007) Psychological benefits of green-space increase with biodiversity. Biol Lett 3:390-394
    8. Gil J , Park HS (2022) Perception of Korean Residential Gardens and Gardening in the 1920~30s. J Korean Inst Landsc Archit 50:138-148
    9. Goddard MA , Dougill AJ , Benton TG (2010) Scaling up from gardens: Biodiversity conservation in urban environment. Trends Ecol Evol 25:90-98
    10. Gu HM (2021) Urban generation in Korea, is it okay as it is? Korea Plan Assoc 21-25 https://www.dbpia.co.kr/journal/articleDetail?nodeId=NODE10526777
    11. Guitart DA , Pickering CM , Byrne JA (2014) Color me healthy: Food diversity in school community gardens in two rapidly urbanising Australian cities. Health Place 26: 110-117
    12. Hong D , Lee AR (2021) A life-friendly garden through the participation of residents. J Recreat Landsc 15: 89-96 http://www.riss.kr/link?id=A108029202
    13. Howarth M , Brettle A , Hardman M , Maden M (2020) What is the evidence for the impact of gardens and gardening on health and well-being: A scoping review and evidence-based logic model to guide healthcare strategy decision making on the use of gardening approaches as a social prescription. BMJ Open 10:e036923
    14. Jang CK , Hwang ML , Shin JY , Jung SG (2017) Analysis of satisfaction on alley garden’s components through urban regeneration: Focused on Bisan 2ㆍ3-dong in Daegu Metropolitan City. J Korean Inst Landsc Archit 45:137-148
    15. Jang EJ (2017) Development of horticultural program on community garden for social integration and communication in multicultural societies. Korean Soc Floral Art Des 37:33-48 http://www.riss.kr/link?id=A104181607
    16. Jeong NR , Jeong MI , Han S , Kin JS (2017) Study on community gardens for village development projects. J People Plants Environ 20:7-17
    17. Jin HS (2012) The meaning of maeul mandeulgie and urban regeneration in the view of public. Rev Archit Build Sci 56:66-70 https://www.dbpia.co.kr/journal/articleDetail?nodeId=NODE01889807
    18. Jo DG , Sim YJ , Yu YJ , Kim DY , Lee JH , HA EC , Yun AU , Kim SU , Jeong NR , Jang SG , Jeong YY , Jeong YI , Han SW , Kim JS (2016) Development of technics to construct practical gardens for Korean life. Nexusdesign. Resea rch paper
    19. Jung NR (2018) The role of village gardens in urban regeneration. Wonyesanup. Accessed Dec. 2022, http://www.wonyesanup.co.kr/news/articleView.html?idxno=38632
    20. Kang MJ , Jin HY , Lee JY , Kim SJ , Song SJ (2020) A systematic review of current research on the health benefits of garden environment. J Korea Inst Garden Des 6:282–292
    21. Kim C (2021) A study on the necessity of vertical garden in public places for urban environment improvement. J Korea Converg Soc 12:75–81
    22. Kim YG , Lee SM (2017) Improving building-related landscape systems to create green infrastructure. Archit Urban Res Inst https://www.auri.re.kr/gallery.es?mid=a10302000000&bid=0010&act=view&list_no=250
    23. Lawshe CH (1975) A quantitative approach to content validity. Pers psychol 28:563-575
    24. Lee A , Jeong N (2020) A basic plan model garden of social intergration community garden. J Recreat Landsc 14:81-87
    25. Lee DA (2005) Urban walls, the new spatial resources for green city. J Econ Geogr Soc Korea 8:465-482 https://scienceon.kisti.re.kr/srch/selectPORSrchArticle.do?cn=ATN0030127558
    26. Lee DG (2019a) Effects of elevated public skygarden on employees’ psychological restoration: A case study of Seoullo 7017. Master’s thesis, Chungbuk University http://www.riss.kr/link?id=T15069126
    27. Lee SA (2019b) Study on instruction and change process of village garden in low-rise residential area: Focused on Ansan Secksugol village. Master’s thesis, Seoul National University http://www.riss.kr/link?id=T15400256
    28. Lee SB (2016) A study on typology of overseas urban regeneration success cases from the perspective of urban marketing. Master’s thesis, University of Seoul http://www.riss.kr/link?id=T13971667
    29. Loram A , Warren P , Thompson K , Gaston K (2011) Urban domestic gardens: The effects of human interventions on garden composition. Environ Manag 48:808-824
    30. Martin P , Consalès JN , Scheromm P , Marchand P , Ghestem F , Darmon N (2017) Community gardening in poor neighborhoods in France: A way to re-think food practices? Appetite 116:589-598
    31. Mo YW (2021) Review of ecosystem services assessment methods in urban garden. J Korea Inst Garden Design 7:60–69
    32. Nordh H , Østby K (2013) Pocket parks for people: A study of park design and use. Urban For Urban Green 12:12-17
    33. Park J , Jeong M (2020) Analysis on the types of benefits of gardens in urban areas: Comparison of Korea and overseas cases. J People Plants Environ 23:667-681
    34. Park JM , Choi JK , Park EY (2016) A study on urban gardening in everyday life toward sustainable urban regeneration: Case of Sujin 2-dong, Seongnam-si in South Korea. J Korean Inst Landsc Archit 44:13-24
    35. Park JM , Sung JS , Cho H R (2017a) A study on the progress and implication of garden cities for the sustainable development. J Urban Des Insit Korea 18:21-35
    36. Park JY (2017) A study on the recognition of urban gardener program participants on the role of public garden, Master-thesis, Chonnam National University http://www.riss.kr/link?id=T14473718
    37. Park M (2018) A comparative study on the awareness of concepts for gardens and parks between the experts and general publics. J Korean Inst Landsc Archit 46:1-9
    38. Park M , Koo B , Choi JH (2017b) A basic study on the setting of the functions of gardens. J Korea Inst Garden Des 3:96-102
    39. Park MO (2015) A Study on the functions of gardens as the ecosystem cultural services. J Korea Inst Garden Des 1:115-123
    40. Park MO , Choi JH , Koo BH (2020) Comparison of the awareness of garden functions. J Korean Inst Landsc Archit 48:34-44
    41. Park MO , Yang SB , Seo HS , Park EA , Han ST , Koo BH (2018) A study on ecological features and funtional evaluation of small size wetland gardens of gong-ju city. J Korean Inst Garden Des 4:77-88
    42. Pyo S , Choi I (2021) A study on the use of urban idle spaces considering living area range of local residents in neighborhoods. J Korea Inst Spat Des 16:251-262
    43. Schram-Bijkerk D , Otte P , Dirven L , Breure AM (2018) Indicators to support healthy urban gardening in urban management. Sci Total Environ 621:863-871
    44. Scott TL , Masser BM , Pachana NA (2020) Positive aging benefits of home and community gardening activities: Older adults report enhanced self-esteem, productive endeavours, social engagement and exercise. SAGE Open Med 8
    45. Seoul Open Data Plaza (2019) Seoul metropolitan city’s urban area statistics. Accessed Nov. 2022, https://data.seoul.go.kr/dataList/569/S/2/datasetView.do
    46. Shim J , Yang J , Ahn D (2020) Analyses of usage behavior and importance of design elements for the design of a healing garden as a restoration environment: Targeted at the rooftop garden of the university library. J Recreat Landsc 14:1-12
    47. Sierra-Guerrero MC , Amarillo-Suárez AR (2017) Socioecological features of plant diversity in domestic gardens in the city of Bogotá, Colombia. Urban For Urban Green 28:54-62
    48. Sim JY , Zoh KJ (2015) Examination of urban gardening as an everydayness in urban residential area, Haebangchon. J Korean Inst Landsc Archit 43:1-12
    49. Speak AF , Mizgajski A , Borysiak J (2015) Allotment gardens and parks: Provision of ecosystem services with an emphasis on biodiversity. Urban For Urban Green 14:772-781
    50. Teig E , Amulya J , Bardwell L , Buchenau M , Marshall JA , Litt JS (2009) Collective efficacy in Denver, Colorado: Strengthening neighborhoods and health through community gardens. Health Place 15: 1115-1122
    51. Thompson R (2018) Gardening for health: a regular dose of gardening. Clin Med (Lond) 18:201-205
    52. Tournier I , Postal V (2014) An integrative model of the psychological benefits of gardening in older adults. Gériatrie et Psychologie Neuropsychiatrie du Viellissement 12:424–431
    53. Tracey D , Gray T , Sweeting J , Kingsley J , Bailey A , Pettitt P (2020) A systematic review protocol to identify the key benefits and associated program characteristics of community gardening for vulnerable populations. Int J Environ Res Public Health 17:2029
    54. van den Berg AE , van Winsum-Westra M , de Vries S , van Dillen SME (2010) Allotment gardening and health: A comparative survey among allotment gardeners and their neighbors without an allotment. Environ Health 9:74
    
    1. SEARCH

    2. Journal Abbreviation : 'Flower Res. J.'
      Frequency : Quarterly
      Doi Prefix : 10.11623/frj.
      ISSN : 1225-5009 (Print) / 2287-772X (Online)
      Year of Launching : 1991
      Publisher : The Korean Society for Floricultural Science
      Indexed/Tracked/Covered By :

    3. Online Submission

      submission.ijfs.org

    4. Template DOWNLOAD

      국문 영문 품종 리뷰

    5. 논문유사도검사

    6. KSFS

      Korean Society for
      Floricultural Science

    7. Contact Us
      Flower Research Journal

      - Tel: +82-54-820-5472
      - E-mail: kafid@hanmail.net