Korean Journal of Environment and Ecology (한국환경생태학회지)

Korean Society of Environment and Ecology (한국환경생태학회)
권호 표지
DOI QR코드

DOI QR Code

Cause Analysis of the Rising Temperature in Mixed City of Urban and Rural Area - Case of Miryang City, Kyongsangnamdo -

도농복합도시 온도상승 영향요인 분석 - 경남 밀야시를 대상으로 -

  • Hong, Suk-Hwan (Dept. of Landscape Architecture, Pusan National Univ.)
  • Received : 2013.11.20
  • Accepted : 2013.12.31
  • Published : 2013.12.31
Download PDF
⟨ Previous Next ⟩

Abstract

This study was conducted to determine factors causing urban temperature rises in a mixed urban and rural city in Korea. The study site was Miryang City. For this study, temperature changes over a 36 year period from 1974 to 2010, as well as changes made in the urban environment of the city were examined. Changes in the urban environment included data pertaining to both urban development and changing land use, as well as the changing lifestyle patterns of the populace. The study showed that a rise in the average annual temperature and the average annual mean-maximum temperature were statistically significant and the greatest determining factor for the temperature rise was a corresponding decrease in arable land. The study also showed that the decrease in cultivated land was directly and significantly related to an expansion of regional urbanization. There is a direct relationship between the decrease in cultivated land and an increase in the annual-mean-maximum temperature compared with annual-mean temperature. This increase can be explained as arable land works as an "island" of cooler temperatures in the hottest times of the day. A decrease of $1km^2$ of arable land is expected to cause an increase of $0.08^{\circ}C$ of annual-maximum-mean temperature and $0.06^{\circ}C$ of annual-mean temperature.

본 연구는 도시와 농촌이 혼재되어 있는 도농복합도시인 밀양시를 대상으로 도시온도 상승에 관한 영향요인을 분석하고자 수행하였다. 이를 위해 1974년부터 2010년까지 36년간의 온도자료와 온도에 영향을 미칠 수 있는 도시환경변화 요소를 살펴보았다. 도시환경변화 요소는 생활패턴의 변화로 나타나는 사회적 요소와 도시 토지이용 변화에서 나타나는 구조적 측면에서 각각 살펴보았다. 연구결과 온도는 연평균기온과 연평균최고기온의 상승이 통계적으로 유의미하였으며 이에 가장 영향력이 높은 요인으로는 경작지 감소이었다. 일반적으로 경작지의 감소는 시가화지역 확대로 이어지므로 이는 동일한 관점에서 바라볼 필요성이 있었다. 경작지의 감소는 평균기온상승보다 한낮의 온도상승에 미치는 영향이 더 큰 것으로 나타나 경작지가 일중 가장 뜨거운 시기에 냉섬으로 작용한다고 볼 수 있었다. 경작지 면적의 $1km^2$ 감소는 약 $0.08^{\circ}C$의 연평균최고기온 상승을, 연평균기온의 약 $0.06^{\circ}C$ 상승을 유발하는 것으로 예측되었다.

Keywords

References

  1. Ahn, J.S.(2007) Study on the Thermal Environment Assessment for the Urban Environment Planning. Doctoral thesis of Keimyoung Univ., 167pp. (in Korean with English abstract)
  2. Gallo, K.P., A.L. McNab, T.R. Karl, J.F. Brown, J.J. Hood and J. D. Tarpley (1993) The use of NOAA AVHRR data for assessment of the urban heat island effect. J Appl Meteorol 32: 899-908. https://doi.org/10.1175/1520-0450(1993)032<0899:TUONAD>2.0.CO;2
  3. Ki, K.S.(2006) A Study on Temperature Change Profiles by the Landuse and the Landcover Change of the Paddy Field in the Metropolitan Area. Master's thesis of Univ. of Seoul, 95pp. (in Korean with English abstract)
  4. Kim, H.O. and J.M. Yeom(2012) Effect of the urban land cover types on the surface temperature: case study of Ilsan New City. Korean Society of Remote Sensing 28(2): 203-214. (in Korean with English abstract) https://doi.org/10.7780/kjrs.2012.28.2.203
  5. Landsberg, H.E.(1981) The Urban Climate. Academic Press, 275pp.
  6. Lee, H.Y.(1995) Potential effects of land-use change on the local climate. Korean Journal of Remote Sensing 11(3): 83-100. (in Korean with English abstract)
  7. Lu, D. and Q. Weng(2006) Spectral mixture analysis of ASTER images for examining the relationship between urban thermal features and biophysical descriptors in Indianapolis, Indiana, USA. Remote Sens Environ 104: 157-167. https://doi.org/10.1016/j.rse.2005.11.015
  8. Nichol, J.E.(1998) Visualization of urban surface temperatures derived from satellite images. Int J Remote Sens 19: 1635-1637. Oke, T.R.(1982) The energetic basis of the urban heat island. Quart J Royal Meteorol Soc 108: 1-24.
  9. Owen, T.W., T.N. Carlson and R.R. Gillies(1998) An assessment of satellite remotely-sensed land cover parameters in quantitatively describing the climatic effect of urbanization. International Journal of Remote Sensing 19: 1663-1681. https://doi.org/10.1080/014311698215171
  10. Park, I.H., G.S. Jang, J.Y. Kim, C.H. Park and D.J. Seo(2000) Effect of cool islands on the thermal mitigation in urban area: Case study of Taegu Metropolitan City. Korean Journal of Landscape Architecture 28(1): 11-18. (in Korean with English abstract)
  11. Park, M.H.(2001) A study on the urban heat island phenomenon using Landsat TM thermal infrared data. Journal of the Korean Society of Civil Engineers 21(6-D): 861-874. (in Korean with English abstract)
  12. Quattrochi, D.A. and M.K. Ridd(1998) Analysis of vegetation within a semiarid urban environment using high spatial resolution airborne thermal infrared remote sensing data. Atmos Environ 32: 19-33. https://doi.org/10.1016/S1352-2310(97)00179-9
  13. Ryu, T.H. and J.S. Um(2013) Evaluating changing trends of surface temperature in winter according to rooftop color using remotely sensed thermal infrared image. Journal of the Korean Society for Geospatial Information System 21(1): 27-37. (in Korean with English abstract)
  14. Streutker, D.R.(2002) A remote sensing study of the urban heat island of Houston, Texas. Int J Remote Sens 23: 2595-2608. https://doi.org/10.1080/01431160110115023
  15. Voogt, J.A. and T.R. Oke(2003) Thermal remote sensing of urban areas. Remote Sensing of Environment 86: 370-384. https://doi.org/10.1016/S0034-4257(03)00079-8
  16. Weng, Q., D. Lu and J. Schubring(2004) Estimation of land surface temperature-vegetation abundance relationship for urban heat island studies. Remote Sens Environ 89: 467-483. https://doi.org/10.1016/j.rse.2003.11.005
  17. Wilson, J.S., M. Clay, E. Martin, D. Stuckey and V.R. Kim(2003) Evaluating environmental influences of zoning in urban ecosystems with remote sensing. Remote Sens Environ 86: 303-321. https://doi.org/10.1016/S0034-4257(03)00084-1
  18. Xian, G. and M. Crane(2006) An analysis of urban thermal characteristics and associated land cover in Tampa Bay and Las Vegas using landsat satellite data. Remote Sens Environ 104: 147-156. https://doi.org/10.1016/j.rse.2005.09.023