Evaluation of the social capacity of intermediate development with an emphasis on the smart growth approach (Sarab neighborhood of Mashhad)
Subject Areas : Urban planning
Lotfali Kozehgar
1
*
,
sajad saeedi
2
,
Nasim Niknami
3
1 - Shahid Beheshti University
2 - Shahid Beheshti University
3 - shahid beheshti university
Keywords: Social capacities, intermediate development, smart growth, Mashhad, Sarab neighborhood.,
Abstract :
Introduction: The approach of smart urban growth with micro and macro level policies strengthens social equality and environmental justice, and intermediate development is an essential part of smart growth by addressing development within and redeveloping the area using its potentials. Sarab neighborhood located in the city of Mashhad, as the second metropolis of Iran, due to its location and type of texture and also because of its proximity to the threshold of Razavi's holy shrine, has many hidden capacities and social capabilities that, if realized, can be used as a force in the development process of the city. be used as a stimulant. Methodology: The research method in the present study is applied in terms of its analytical and correlational nature, and the information is collected through library and documentary studies, and the findings are obtained from field surveys and questionnaires, in order to create sufficient scientific evidence needed to achieve The purpose of the research was analyzed by the statistical analysis of Phi and Cramer's V correlation coefficient for nominal variables and Kruskal Wallis for ordinal variables in the form of SPSS software. Results and discussion: The results of the analysis of 18 correlations show that only 1 case had no significant relationship and the rest were significant and their correlation coefficient is positive and has a value. Conclusion: According to the results, according to the relationship between the social indicators of intelligent growth and the individual characteristics of the residents, which is positive and positive, it means that their relationship is meaningful and direct. Therefore, by increasing and promoting the intermediate development of Sarab neighborhood in Mashhad, emphasizing on the smart growth approach, it will also increase the social capacities of the neighborhood.
1. Malekshahi, Gholamreza, Kadami, Mostafa, and Bagheri Hojat, Mozhgan. (2019). Assessment of secondary development in the main area and the built space of Ahvaz region. Urban structure and function studies, 5(16), 129-152. doi: 10.22080/shahr.2018.2015 (In Persian).
2. Mahmoudzadeh, Hassan, & Abedini Iranq, Roya. (2022). Prioritizing smart growth indicators to identify physical capacities for intermediate development with an emphasis on scenario writing (case study: Tabriz region 3). Human Settlements Planning Studies, 16(3), 537-550. (In Persian).
3. Asadi, Ahmad, & Pourmohammadi, Mohammadreza. (2021). The development of interfaith and its impact on various components in the worn-out fabric of Zanjan city. Scientific Journal of Geography and Planning, 24(72), 35-59. doi: 10.22034/gp.2020.10889 (In Persian).
4. Mostafavi, Najmeh Sadat, (2019), providing a framework for measuring the social capacity of inter-connected development in urban contexts, case example: Koi Rudaki Arak, https://civilica.com/doc/1247644 (In Persian).
5. Zanganeh, Ahmad and Ahangari, Navid and Mousavi, Shahrabano, (2022), the effects of smart urban growth on sustainable social development in district 12 of Tehran, https://civilica.com/doc/1627032 (In Persian).
6. Dadashpour, Hashem. and Afaqpour, Atusa. (2017). New epistemological and theoretical rationality governing the spatial organization of urban systems. Quarterly Journal of Interdisciplinary Studies in Humanities, 8(2), 1-28. doi: 10.22035/isih.2016.214 (In Persian).
7. Razavian, Mohammad Taghi, Kanuni, Reza and Yarmoradi, Kiyomarth. (2017), urban environment. Science Publications. First Edition. Tehran (In Persian).
8. Mirzabaki, Maleeha, Rahnama, Mohammad Rahim, & Ajzashokohi, Mohammad. (2021). An analysis of the cultural-social capacities influencing the worn-out tissues on endogenous development (case study: Tabriz metropolis). Urban Social Geography, 7(2), 77-96. doi: 10.22103/JUSG.2020.2020 (In Persian).
9. Roozkhosh, Farnoush, Moulavi, Mehrnaz and Salaripour, Aliakbar.(2020) Investigating the Relationship between Smart Growth Parameters and the Theory of Space Syntax in a Variety of Urban Contexts (Case study: Bojnourd). Naqshejahan; 9 (4) :313-322 URL: http://bsnt.modares.ac.ir/article-2-22218-fa.html (In Persian).
10. Statistics of Mashhad city (Statistical yearbook of Mashhad city). 2020. Vice President of Planning and Development of Human Capital of Mashhad Municipality. Mashhad (In Persian).
11. Sajadian, Mahyar. Firouzi, Mohammad Ali. Pourahmad, Ahmad. (2023). Zoning of Ahvaz metropolis from the point of view of smart growth by using the combination of gray relational analysis (GRA) model and GIS. Physical Development Planning Quarterly. Volume 9, Number 3 - Serial Number 27, Azar, Page 79-96. Digital Identifier (DOI): 10.30473/PSP.2022.61999.2552 (In Persian)
12. Razavian, Mohammad Taghi and Kozehgar Kaleji, Lotf Ali. (2020), Urban Land Use Planning, Academic Jihad of Shahid Beheshti Medical Sciences Unit. Tehran, Iran (In Persian).
13. Safari Ahmadvand, M. (2023). The role of smart growth in preventing uncontrolled urban development (Khorramabad city case study). Scientific Journal of New Research Approaches in Management and Accounting, 6(23), 215-233. Retrieved from https://majournal.ir/index.php/ma/article/view/1726 (In Persian).
14. Bahadori Amjaz, F,L. Anabestani, A, A. and Tavakolinia, J. (2023). The Roles of the Main Components of the Formation of Smart Growth Approach in the Sustainable Development of Rural Settlements: A Case Study of Jiroft County. Spatial Planning, Tehran, Iran. 12(2), 91-118. doi: 10.22108/sppl.2022.132321.1639 (In Persian(
15. Bai, X., Steiner, R. L., & Zhai, W. (2021). Beyond Neighborhood Design: Exploring the Effects of Smart Growth on Older Adults’ Travel Behavior over Time. Journal of Planning Education and Research, 0(0). https://doi.org/10.1177/0739456X211020352
16. UN-Habitat، (2022). Envisaging the future of cities. https://unhabitat.org/sites/default/files/2022/06/wcr_2022.pdf
17. Susanti, R, Soetomo, S, Buchori, I, Brotosunaryo, P, 2016, Smart growth, smart city and density: in search of the appropriate indicator for residential density in Indonesia, Procedia - Social and Behavioral Sciences, 227, PP, 194-201.
18. Niemets, K; Kravchenko, K; Kandyba, Y; Kobylin, P; Morar, C; World cities in terms of the sustainable development concept. Geography and Sustainability. PP 304–311
19. Zheng، W.، Ke، X.، Xiao، B.، Zhou، T.، (2019). Optimising land use allocation to balance ecosystem services and economic benefits - a case study in Wuhan، China. J. Environ. Manag. 248، 109306. https://doi.org/10.1016/j.jenvman.2019.109306.
20. Ferreira، C.S.S.، Kalantari، Z.، Salvati، L.، Canfora، L.، Zambon، I.، Walsh، R.P.D.، (2019). Urban areas. In: Pereira، Paulo (Ed.)، Advances in Chemical Pollution، Environmental Management and Protection، vol. 4. Elsevier، ISBN 9780128164150، pp. 207–249. https://doi.org/10.1016/bs.apmp.2019.07.004
21. Hess P.M& Sorensen A. 2015. Compact, concurrent, and contiguous: smart growth and 50 years of residential planning in the Toronto region. Urban George: 36: 127. https://doi.org/10.1080/02723638.2014. 947859.
22. Chen, G., Wu, J.X., Wang, N., (2017). Comprehensive modelling and planning of urban smart growth, Advances in Intelligent Systems Research (AISR), Vol 141, 392-402.
23. Ghalib, H. Smart Growth in Cairo's Urban Development Strategy. 'st International Conference on Towards a Better Quality of Life, 2018, Available at SSRN: https://ssrn.com/abstract=3162546. Or http://dx.doi.org/10.2139/ssrn.3162546.
24. Datta, M., Staszewski, O., Raschi, E., Frosch, M., Hagemeyer, N., Tay, T. L., ..., & Prinz, M. (2018). Histone deacetylases 1 and 2 regulate microglia function during development, homeostasis, and neurodegeneration in a context-dependent manner. Immunity, 48(3), 514-529.
25. Li, L., Ren, X., (2019). A novel evaluation model for urban smart growth based on principal component regression and radial basis function neural network, Sustainability, 11, 6125; doi:10.3390/su11216125
26. Liu G, Han, X. Li, Z. 2018, Urban Smart Growth Mathematical Model and Application, Applied and Computational Mathematics; Vol.7(3): 83-88. https://doi.org/10.11648/j.acm.20180703.
27. Yuwei Z, Mengyue Y. A. 2018, Smart Growth Plan Based on the Improved Gini Coefficient. Front Manag Res. 2(1): 20-9. https://dx.doi.org/10.22606/finr.2018.21. 003.
28. McCormack, Ed. Goodchild A. and Bassok, A. Smart Growth and Urban Goods Movement. Washington, DC: National Academies of Sciences, Engineering. and Medicine. The National Academies Press, 2013. https://doi.org/10.17226/22522.
29. Tsimpo, C. and Wodon, Q. (Eds.). (2019). Residential piped water in Uganda. World Bank Publications.
30. Litman, T, Understanding Smart Growth Savings, Evaluating Economic Savings and Benefits of Compact Development, and How They Are Misrepresented By Critics, Victoria Transport Policy Institute, 2019.
31. EPA (Environmental Protection Agency), 2010. Smart growth, A guide to developing and implementing greenhouse gas reduction programs, Local government climate and energy strategy guides. 1-11.
32. Shifa,M, Yabo,Z, Xiaohong, T, 2020, Exploring Smart Growth Boundaries of Urban Agglomeration with Land Use Spatial Optimization: A Case Study of Changsha- Zhuzhou- Xiangtan City Group, China, Chinese Geographical Science, Vol. 30 No. 4 pp. 665–676
33. zone8.mashad.ir, (available: 1402)