Evaluation of The Effects of Urban Sprawl On Local Climate Change By Temperature and Raining Parameters: The Example of Konya Province


Abstract views: 229 / PDF downloads: 183

Authors

DOI:

https://doi.org/10.52520/masjaps.v7i2id197

Keywords:

Urban sprawl, climate change, mann-kendall tests, sen’s slope

Abstract

Changes in economic policies also affect urbanization policies. In this context, increase of the cooperative and mass housing system and the location of mass housing in the city periphery have been effective in increasing the use of private vehicles. For this reason, urbanization in this process has been experienced in the form of urban sprawl. Although similar processes are experienced in Turkey, some legal regulations have also been effective on urban sprawl. For example, the widening of administrative borders in provinces with metropolitan status with Law No. 6360 is among the factors that trigger urban sprawl. The main problems caused by urban sprawl are the increase in energy demand and the decrease in urban carbon sink areas. Accordingly, changes are observed in the temperature and raining data, which are an effect of climate change in the local area. In this study, the effect of urban sprawl on local climate change over the example of Konya province was tested through temperature and raining parameters. In the study based on the 3 central districts of Konya (Karatay, Meram and Selçuklu), the temperature and raining data between 1960 and 2019 were associated with the growth of the city in the form of fringing or sprawling.

 

References

Barnes, K.B., Morgan III., Roberge, J. M., Lowe, S. 2001. Sprawl development: Its patterns, consequences, and measurement, Towson University, Towson, 1-24.

Bornstein, R., Lin, Q. 2000. Urban heat islands and summertime convective thunderstorms in Atlanta: Three cases studies. Atmos. Environ., 34: 507–516.

Büyükyıldız, M., Berktay, A. 2004. Parametrik olmayan testler kullanılarak sakarya havzası yağışlarının trend analizi. Selçuk Üniversitesi Mühendislik-Mimarlık Fakültesi Dergisi, 19(2): 23-38.

Chapman, S., Watson, J.E.M., Salazar, A., Thatcher, M., McAlpine, C.A. 2017. The impact of urbanization and climate change on urban temperatures: a systematic review. Landscape Ecology, 32(10): 1921–1935.

Cieslewicz, D.J. 2002. The environmental impacts of sprawl, Urban sprawl: Causes, consequences& policy responses, The urban institute press, Washington.

Crutzen, P.J. 2004. New directions: The growing urban heat and pollution island effect—Impact on chemistry and climate. Atmos. Environ., 38: 3539–3540.

Ewing, R., Pendall, R., Chen, D. 2002. Measuring sprawl and its impact: The character and consequences of metropolitan expansion, Washington, DC: Smart Growth America.

Frumkin, H., Frank, L., Jackson, R.J. 2004. Urban sprawl and public health: Designing, planning, and building for healthy communities, Island Press, 1-34.

Gillham, O. 2002. The limitless city: a primer on the urban sprawl debate, Island Press, 3-45.

Grimm, N., Faeth, S., Golubiewski, N., Redman, C., Wu, J., Bai, X., Briggs, J. 2008. Global change and the ecology of cities, Science, 319: 756–760.

Harvey, R.O., Clark, W.A.V. 1971. The nature and economics of urban sprawl, In Internal Structure of the City, ed: L.S. Bourne, New York:Oxford University Press.

Hoffmann, P., Krueger, O., Schlünzen, K.H. 2012. A statistical model for the urban heat island and its application to a climate change scenario. International Journal of Climatology, 32(8): 1238–1248.

Jain, S.K., Kumar, V. 2012. Trend analysis of rainfall and temperature data for India. Current Science, 102 (1): 37-49.

Kanda, M. 2006. Progress in the scale modeling of urban climate: Review. Theor. Appl. Climatol., 84: 23–34.

Lowry, W.P. 1998. Urban effects on precipitation. Prog. Phys. Geogr., 22 (4): 477–520.

McCarthy, M.P., Best, M.J., Betts, R.A. 2010. Climate change in cities due to global warming and urban effects. Geophysical Research Letters, 37(9).

Miller, R.B., Small, C. 2003. Cities from space: potential applications of remote sensing in urban environment research and policy. Environment and Science and Policy, 6: 129-137.

Molders, N., Olson, M.A. 2004. Impact of urban effects on precipitation in high latitudes. J. Hydrometeor, 5: 409–429.

Nechyba, T.J., Walsh, R.P. 2004. Urban sprawl. The Journal of Economic Perspectives, 18(4): 177-200.

Oleson, K. 2012. Contrasts between urban and rural climate in CCSM4 CMIP5 climate change scenarios. Journal of Climate, 25(5): 1390–1412.

Pataki, D.E., Bowling. D.R., J.R. Ehleringer, 2003. Seasonal cycle of carbon dioxide and its isotopic composition in an urban atmosphere: Anthropogenic and biogenic effects. J. Geophys.

Pendall, R. 1999. Do land-use controls cause sprawl?, Environment and Planning B: Planning and Design, 26 (4): 555-571.

Powell, R. 2007. Urban Sprawl in Reno-Sparks, Washoe County, Nevada, University of Nevada, Reno.

Sailor, D.J., Lu, L. 2004. A top–down methodology for developing diurnal and seasonal anthropogenic heating profiles for urban areas. Atmospheric Environment, 38(17): 2737–2748.

Shepherd, J.M. 2005. A review of current investigations of urbaninduced rainfall and recommendations for the future. Earth Interactions, 9.

Shepherd, J.M., Pierce, H., A.J. Negri, 2002. Rainfall modification by major urban areas: Observations from spaceborne rain radar on the TRMM satellite. J. Appl. Meteor., 41: 689–701.

Souch, C., Grimmond, S. 2006. Applied climatology: Urban climate. Prog. Phys. Geogr., 30(2): 270–279.

Squires, G.D. 2002. Urban sprawl and the uneven development of metropolitan America, Urban sprawl: Causes, consequences, and policy responses, 1-22.

Thielen, J., Wobrock, W., Gadian, A., Mestayer, P.G., J.D. Creutin, 2000. The possible influence of urban surfaces on rainfall development: A sensitivity study in 2D in the mesogammascale. Atmos. Res., 54: 15–39.

Voogt, J.A., Oke, T.R. 2003. Thermal remote sensing of urban climate. Remote Sens. Environ., 86: 370–384.

Weitz, J., Moore, T. 1998. Development inside urban growth boundaries: Oregon's empirical evidence of contiguous urban form, Journal of the American Planning Association, 64 (4): 424-440.

Zhang, J.Y., Dong, W.J., Wu, L.Y., Wei, J. F., Chen, P.Y., Lee, D.K. 2005. Impact of landuse changes on surface warming in China. Adv. Atmos. Sci., 22(3): 343–348.

Zhou, L., Dickinson, R.R., Tian, Y., Fang, J., Li, Q., Kaufmann, R. K., Tucker, C.J., Myneni, R.B. 2004. Evidence for a significant urbanization effect on climate in China. Proc. Natl. Acad. Sci. USA, 101: 9540–9544.

Downloads

Published

2022-06-07

How to Cite

KOÇAK, E. (2022). Evaluation of The Effects of Urban Sprawl On Local Climate Change By Temperature and Raining Parameters: The Example of Konya Province. MAS Journal of Applied Sciences, 7(2), 452–473. https://doi.org/10.52520/masjaps.v7i2id197

Issue

Vol. 7 No. 2 (2022)

Section

Articles

License

Copyright (c) 2022 MAS Journal of Applied Sciences

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.