Mapping and measuring urban-rural inequalities in accessibility to social infrastructures

Chenmeng Guo; Weiqi Zhou; Chuanbao Jing; Dawa Zhaxi

doi:10.1016/j.geosus.2023.11.004

Geography and Sustainability ›› 2024, Vol. 5 ›› Issue (1) :41 -51. DOI: 10.1016/j.geosus.2023.11.004

Research Article

review-article

Mapping and measuring urban-rural inequalities in accessibility to social infrastructures

Chenmeng Guo ^a^,^b
, Weiqi Zhou ^a^,^b^,^c^,^*
, Chuanbao Jing ^d
, Dawa Zhaxi ^a^,^b

Author information +

History +

PDF

Abstract

Equal access to social infrastructures is a fundamental prerequisite for sustainable development, but has long been a great challenge worldwide. Previous studies have primarily focused on the accessibility to social infrastructures in urban areas across various scales, with less attention to rural areas, where inequality can be more severe. Particularly, few have investigated the disparities of accessibility to social infrastructures between urban and rural areas. Here, using the Changsha–Zhuzhou–Xiangtan urban agglomeration, China, as an example, we investigated the inequality of accessibility in both urban and rural areas, and further compared the urban-rural difference. Accessibility was measured by travel time of residents to infrastructures. We selected four types of social infrastructures including supermarkets, bus stops, primary schools, and health care, which were fundamentally important to both urban and rural residents. We found large disparities in accessibility between urban and rural areas, ranging from 20 min to 2 h. Rural residents had to spend one to two more hours to bus stops than urban residents, and 20 min more to the other three types of infrastructures. Furthermore, accessibility to multiple infrastructures showed greater urban-rural differences. Rural residents in more than half of the towns had no access to any infrastructure within 15 min, while more than 60% of the urban residents could access to all infrastructures within 15 min. Our results revealed quantitative accessibility gap between urban and rural areas and underscored the necessity of social infrastructures planning to address such disparities.

Keywords

Accessibility / Social infrastructures / Urban-rural difference / Inequality / Regional sustainability

Cite this article

Download citation ▾

Chenmeng Guo, Weiqi Zhou, Chuanbao Jing, Dawa Zhaxi. Mapping and measuring urban-rural inequalities in accessibility to social infrastructures. Geography and Sustainability, 2024, 5(1): 41-51 DOI:10.1016/j.geosus.2023.11.004

登录浏览全文

4963

注册一个新账户忘记密码

Declaration of Competing Interests

The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Acknowledgements

This research was supported by funding from the National Natural Science Foundation of China (Grant No. U21A2010), the National Science Fund for Distinguished Young Scholars (Grant No. 42225104), and the National Key Research and Development Program (Grant No. 2022YFF1301100).

Supplementary materials

Supplementary material associated with this article can be found, in the online version, at doi:10.1016/j.geosus.2023.11.004.

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Antunes, A, Seco, A, Pinto, N., 2003. An accessibility–maximization approach to road network planning. Comput-Aided Civ. Inf., 18(3), 224-240.

[2]	Bettencourt, L. M. A., 2013. The origins of scaling in cities. Science 340(6139), 1438-1441.

[3]	Bettencourt, L. M. A., Lobo, J, Helbing, D, Kuhnert, C, West, G. B., 2007. Growth, innovation, scaling, and the pace of life in cities. Proc. Natl. Acad. Sci. U.S.A., 104(17), 7301-7306.

[4]	Boeri, A, Longo, D, Gianfrate, V, Lorenzo, V., 2017. Resilient communities. Social infrastructures for sustainable growth of urban areas. A case study. Int. J. Sustain. Dev. Plan., 12(2), 227-237.

[5]	Boyle, C, Mudd, G, Mihelcic, J. R., Anastas, P, Collins, T, Culligan, P, Edwards, M, Gabe, J, Gallagher, P, Handy, S., 2010. Delivering sustainable infrastructure that supports the urban built environment. Environ. Sci. Technol., 44(13), 4836-4840.

[6]	Brelsford, C, Lobo, J, Hand, J, Bettencourt, L. M. A., 2017. Heterogeneity and scale of sustainable development in cities. Proc. Natl. Acad. Sci. U.S.A., 114(34), 8963-8968.

[7]	Brelsford, C, Martin, T, Hand, J, Bettencourt, L. M., 2018. Toward cities without slums, topology and the spatial evolution of neighborhoods. Sci. Adv., 4(8), eaar4644.

[8]	Cabannes, Y, Ming, Z., 2014. Participatory budgeting at scale and bridging the rural–urban divide in Chengdu. Environ. Urban., 26(1), 257-275.

[9]	Cai, J, Huang, C, Deng, Z, Li, L., 2023. Transport accessibility and poverty alleviation in Guizhou Province of China: spatiotemporal pattern and impact analysis. Sustainability 15(4), 3143.

[10]	Cattaneo, A, Nelson, A, McMenomy, T., 2021. Global mapping of urban-rural catchment areas reveals unequal access to services. Proc. Natl. Acad. Sci. U.S.A., 118(2), e2011990118.

[11]	Cyr, M. E., Etchin, A. G., Guthrie, B. J., Benneyan, J. C., 2019. Access to specialty healthcare in urban versus rural US populations: a systematic literature review. BMC Health Serv. Res., 19(1), 974.

[12]	Chen, Q, Xu, J, Zhao, J, Zhang, B., 2017. Endogenous schooling, school proximity and returns to rural schooling in Northwestern China. China Agric. Econ. Rev., 9(2), 270-286.

[13]	Cui, X, Ma, L, Tao, T, Zhang, W., 2022. Do the supply of and demand for rural public service facilities match? Assessment based on the perspective of rural residents. Sustain. Cities Soc., 82, 103905.

[14]	Dadashpoor, H, Rostami, F, Alizadeh, B. J. C., 2016. Is inequality in the distribution of urban facilities inequitable? Exploring a method for identifying spatial inequity in an Iranian city. Cities 52, 159-172.

[15]	Fransen, L, Del Bufalo, G, Reviglio, E., 2018. Boosting Investment in Social Infrastructure in Europe: Report of the High-Level Task Force on Investing in Social Infrastructure in Europe. Publications Office of the European Union

[16]	Frolova, E. V., Vinichenko, M. V., Kirillov, A. V., Rogach, O. V., Kabanova, E. E., 2016. Development of social infrastructure in the management practices of local authorities, trends and factors. Int. J. Environ. Sci. Educ., 11(15), 7421-7430.

[17]	González-González, E, Nogués, S., 2019. Long-term differential effects of transport infrastructure investment in rural areas. Transp. Res. Part A 125, 234-247.

[18]	Grum, B, Grum, D. K., 2020. Concepts of social sustainability based on social infrastructure and quality of life. Facilities 38(11/12), 783-800.

[19]

Halpern, B. S., Klein, C. J., Brown, C. J., Beger, M, Grantham, H. S., Mangubhai, S, Ruckelshaus, M, Tulloch, V. J., Watts, M, White, C, Possingham, H. P., 2013. Achieving the triple bottom line in the face of inherent trade-offs among social equity, economic return, and conservation. Proc. Natl. Acad. Sci. U.S.A., 110(15), 6229-6234.

[20]	Han, L, Zhang, X, Zhou, W, Shen, M, Huang, Y, Li, W, Qian, Y., 2021. Transformation of China's urbanization and eco-environment dynamics, an insight with location-based population-weighted indicators. Environ. Sci. Pollut. Res., 28(13), 16558-16567.

[21]	Herberholz, C, Phuntsho, S., 2018. Social capital, outpatient care utilization and choice between different levels of health facilities in rural and urban areas of Bhutan. Soc. Sci. Med., 211, 102-113.

[22]	Hu, Y, Zhang, J, Chen, Y. 2010. Equalization of urban and rural basic public facilities based on GIS: a case study of educational facilities in Changzhou. 18th International Conference on Geoinformatics, Beijing, China, pp.1-5.

[23]	Jiang, L, Chen, J, Tian, Y, Luo, J., 2022. Spatial pattern and influencing factors of basic education resources in rural areas around Metropolises—a case study of Wuhan City’s new urban districts. ISPRS Int. J. Geo-Inf., 11(11), 576.

[24]	Jing, C, Zhou, W, Qian, Y., 2022. Spatial disparities of social and ecological infrastructures and their coupled relationships in cities. Sustain. Cities. Soc., 86, 104117.

[25]	Johnson, K. M., Lichter, D. T., 2019. Rural depopulation: growth and decline processes over the past century. Rural Sociol., 84, 3-27.

[26]	Klinenberg, E., 2018. Palaces for the People: How Social Infrastructure Can Help Fight Inequality, Polarization, and the Decline of Civic Life. Crown

[27]	Latham, A, Layton, J., 2019. Social infrastructure and the public life of cities, studying urban sociality and public spaces. Geogr. Compass 13(7), e12444.

[28]	Levinson, D., 2012. Network structure and city size. PLoS One 7(1), e29721.

[29]	Li, A, Zhang, J., 2011. Equal urban rural public service facility development. Planners 27(11), 7.

[30]	Li, Z, Jiang, W, Wang, W, Lei, X, Deng, Y., 2019. Exploring spatial-temporal change and gravity center movement of construction land in the Chang–Zhu–Tan urban agglomeration. J. Geogr. Sci., 29, 1363-1380.

[31]	Linard, C, Gilbert, M, Snow, R. W., Noor, A. M., Tatem, A. J., 2012. Population distribution, settlement patterns and accessibility across Africa in 2010. PLoS One 7(2), e31743.

[32]	Liu, S, Qin, Y, Xu, Y., 2019. Inequality and influencing factors of spatial accessibility of medical facilities in rural areas of China: a case study of Henan Province. Int. J. Environ. Res. Public Health 16(10), 1833.

[33]	Lovett, A, Haynes, R, Sünnenberg, G, Gale, S., 2002. Car travel time and accessibility by bus to general practitioner services, a study using patient registers and GIS. Soc. Sci. Med., 55(1), 97-111.

[34]	Lu, C, Zhang, Z, Lan, X., 2019. Impact of China's referral reform on the equity and spatial accessibility of healthcare resources, a case study of Beijing. Soc. Sci. Med., 235, 112386.

[35]	Ma, L, Liu, S, Fang, F, Che, X, Chen, M., 2020. Evaluation of urban-rural difference and integration based on quality of life. Sustain. Cities Soc., 54, 101877.

[36]	Mao, Q, Long, Y, Wu, K., 2016. Spatio-temporal changes of population density and urbanization pattern in China (2000–2010). China City Plan. Rev., 25(4), 8-14.

[37]	Montalvo, J, Ruiz-Labrador, E, Montoya-Bernabéu, P, Acosta-Gallo, B., 2019. Rural–urban gradients and human population dynamics. Sustainability 11, 3107.

[38]	Moreno, C, Allam, Z, Chabaud, D, Gall, C, Pratlong, F., 2021. Introducing the “15-min city”, sustainability, resilience and place identity in future post-pandemic cities. Smart Cities 4(1), 93-111.

[39]	Moseley, M. J., 1979. Accessibility: The Rural Challenge. Methuen, London, UK

[40]	Pandey, B, Brelsford, C, Seto, K. C., 2022. Infrastructure inequality is a characteristic of urbanization. Proc. Natl. Acad. Sci. U.S.A., 119(15), e2119890119.

[41]	Pearce, J, Witten, K, Bartie, P., 2006. Neighborhoods and health: a GIS approach to measuring community resource accessibility. J. Epidemiol. Commun. Health 60(5), 389-395.

[42]	Pinto, L. V., Ferreira, C. S. S., Inácio, M, Pereira, P., 2022. Urban green spaces accessibility in two European cities, Vilnius (Lithuania) and Coimbra (Portugal). Geogr. Sustain., 3(1), 74-84.

[43]	Raza, A, Akuh, R, Zhong, M, Almansoub, Y., 2021. Public transit equity with the concept of TimeMode-dependent accessibility using geostatistics methods, Lorenz curves, and Gini coefficients. Case Stud. Transp. Policy 11, 100956.

[44]	Raza, A, Safdar, M, Zhong, M, Hunt, J. D., 2022. Analyzing spatial location preference of urban activities with mode-dependent accessibility using integrated land use–transport models. Land 11, 1139.

[45]	Regional Plan Association, 2007. Northeast Megaregion 2050: A Common Future. Regional Plan Association, New York.

[46]	Safdar, M, Jamal, A, Al-Ahmadi, H. M., Rahman, M. T., Almoshaogeh, M., 2022. Analysis of the influential factors towards adoption of car-sharing: a case study of a megacity in a developing country. Sustainability 14, 2778.

[47]	Sahasranaman, A, Bettencourt, L. M. A., 2021. Life between the city and the village: scaling analysis of service access in Indian urban slums. World Dev., 142, 105435.

[48]	Shah, T. I., Milosavljevic, S, Bath, B., 2017. Measuring geographical accessibility to rural and remote health care services: challenges and considerations. Spat. Spatio-Temporal Epidemiol., 21, 87-96.

[49]	Silverman, B. W., 1986. Density Estimation for Statistics and Data Analysis. Chapman and Hall, New York

[50]	Song, Y, Tan, Y, Song, Y, Wu, P, Cheng, J, Kim, M. J., Wang, X., 2018. Spatial and temporal variations of spatial population accessibility to public hospitals: a case study of rural–urban comparison. GISci. Remote Sens., 55(5), 718-744.

[51]	Tomej, K, Liburd, J. J., 2020. Sustainable accessibility in rural destinations: a public transport network approach. J. Sustain. Tour., 28(2), 222-239.

[52]	Um, J, Son, S. W., Lee, S. I., Jeong, H, Kim, B. J., 2009. Scaling laws between population and facility densities. Proc. Natl. Acad. Sci. U.S.A., 106(34), 14236-14240.

[53]	United Nations, 2015. Transforming Our World: The 2030 Agenda for Sustainable Development. United Nations General Assembly, New York.

[54]	United Nations, 2019. Global Sustainable Development Report 2019. Department of Economic and Social Affairs, New York.

[55]	Vitale Brovarone, E, Cotella, G., 2020. Improving rural accessibility: a multilayer approach. Sustainability 12(7), 2876.

[56]	Wang, K, Wang, F., 2020. Theory and measurement model of administrative region potential from a perspective of administrative division adjustment: taking Chongqing city as a case study. J. Geogr. Sci., 30(8), 1341-1362.

[57]	Weber, J, Kwan, M. P., 2002. Bringing time back in: a study on the influence of travel time variations and facility opening hours on individual accessibility. Prof. Geogr., 54(2), 226-240.

[58]

Weiss, D. J., Nelson, A, Gibson, H. S., Temperley, W, Peedell, S, Lieber, A, Hancher, M, Poyart, E, Belchior, S, Fullman, N, Mappin, B, Dalrymple, U, Rozier, J, Lucas, T. C. D., Howes, R. E., Tusting, L. S., Kang, S. Y., Cameron, E, Bisanzio, D, Battle, K. E., Bhatt, S, Gething, P. W., 2018. A global map of travel time to cities to assess inequalities in accessibility in 2015. Nature 553(7688), 333-336.

[59]	Weng, M, Ding, N, Li, J, Jin, X, Xiao, H, He, Z, Su, S., 2019. The 15-min walkable neighborhoods: measurement, social inequalities and implications for building healthy communities in urban China. J. Transp. Health 13, 259-273.

[60]	Woetzel, J, Garemo, N, Mischke, J, Kamra, P, Palter, R., 2017. Bridging Infrastructure Gaps: Has the World Made Progress?. McKinsey & Company

[61]	Wu, T. H., 2014. Research on layout planning of town center for public service facilities configuration. Dev. Small Cities Towns 11, 39-47.

[62]	Xu, Y, Olmos, L. E., Abbar, S, González, M. C., 2020. Deconstructing laws of accessibility and facility distribution in cities. Sci. Adv., 6(37), eabb4112.

[63]	Yu, Y., 2019. From traditional residential area planning to neighborhood life circle planning. City Plan. Rev., 43(5), 17-22.

[64]	Yu, Y, Wu, Y, Xu, X, Chen, Y, Tian, X, Wang, L, Chen, S., 2021. Spatial disparities and correlated variables of community care facility accessibility in rural areas of China. Sustainability 13(23), 13400.