Study on the Characteristics of Spatial Relationship between Heat Concentration and Heat-deepening Factors Using MODIS Based Heat Distribution Map |
Kim, Boeun
(National Disaster Management Research Institute, MOIS)
Lee, Mihee (National Disaster Management Research Institute, MOIS) Lee, Dalgeun (National Disaster Management Research Institute, MOIS) Kim, Jinyoung (National Disaster Management Research Institute, MOIS) |
1 | Lee, H.J., K.O. Lee, S.H. Lee, and H.W. Lee, 2008. Numerical Study on the Air Cooling Effect due to Increased Albedo in Urban Area, Journal of Korean Society for Atmospheric Environment, 24(4): 383-392 (in Korean with English abstract). DOI |
2 | Lee, J.S., M.K. Kim, and J.C. Park, 2016. The Effects of Socioeconomic Factors on Mortality under High Temperature in Soeul, South Korea, Journal of the Korean Association of Regional Geographers, 22(1): 195-210 (in Korean with English abstract). |
3 | Lee, K.G. and W.H. Hong, 2007. The Study on the Heat Island and Cool Island According to Trend toward Higher Temperature in Urban - Case Study of Taegu Metropolitian City, Journal of the Architectural Institute of Korea Planning & Design, 23(8): 291-228 (in Korean with English abstract). |
4 | Lee, N.Y., Y.S. Cho, and J.Y. Lim, 2014. Effect of Climate Change on Mortality Rate Analysis of Vulnerable Populations, Health and Social Welfare Review, 34(10): 456-484 (in Korean with English abstract). DOI |
5 | Lee, T.W., 2001. Heat Island Phenomenon and Building Energy Consumption in the Urban, The Magazine of the Society of Air-conditioning and Refrigerating Engineers of Korea, 30(9): 80-82 (in Korean with English abstract). |
6 | Loveday, J., G.K. Loveday, J. Byrne, B.L. Ong, and P. Newman, 2017. A Technique for Quantifying the Reduction of Solar Radiation due to Colud and Tree Cover, Procedia Engineering, 180: 403-412. DOI |
7 | O'Malley, C., P. Piroozfar, E.R.P. Farr, and F. Pomponi, 2015. Urban Heat Island (UHI) Mitigating Strategies: A Case-based Comparative Analysis, Sustainable Cities and Society, 19: 222-235. DOI |
8 | Park, K., S. Lee, Y. Shin, and H. Hwang, 2011. Analysis on the Mitigation Effects of Urban Heat Island through Creation of Water Space - A Case Study of Yeol-Mae Villge Apt in Daejeon's Noeun District, Journal of the Korea Institute of Ecological Architecture and Environment, 11(5): 13-18 (in Korean with English abstract). |
9 | Park, J.E., B.Y. Heo, and Y. Sunwoo, 2016. A Study on Human Damage due to Heat Wave by Region, Journal of the Korean Society of Hazard Mitigation, 16(1): 103-109 (in Korean with English abstract). DOI |
10 | Park, K.H., B.G. Song, and J.E. Park, 2016. Analysis on the Effects of Land Cover Types and Topographic Features on Heat Wave Days, Journal of the Korean Association of Geographic Information Studies, 19(4): 76-91 (in Korean with English abstract). DOI |
11 | Peterson, T.C., 2014. Changes in Weather and Climate Extremes: State of Knowledge Relevant to Air and Water Quality, Journal of Air and Waste Management, 64: 184-187. DOI |
12 | Phung, D., P.K. Thai, Y. Guo, L. Morawska, S. Rutherford, and C. Chu, 2016. Ambient Temperature and Risk of Cardiovascular Hospitalization: An Updated Systematic Review and Meta-analysis, Science of the Total Environment, 550: 1084-1102. DOI |
13 | Rinner, C. and M. Hussain, 2011. Toronto's Urban Heat Island: Exploring the Relationship between Land Use and Surface Temperature, Remote Sensing, 3(6): 1251-1265. DOI |
14 | Rizwan, A.M., L.Y.C. Dennis, and C. Liu, 2008. A Review on the Generation, Determination and Mitigation of Urban Heat Island, Journal of Environmental Sciences, 20(1): 120-128. DOI |
15 | Shashua-Bar, L., O. Potchter, A. Bitan, D. Boltansky, and Y. Yaakov, 2010. Microclimate Modelling of Street Tree Species Effects within the Varied Urban Morphology in the Mediterranean City of Tel Aviv, Israel, International Journal of Climatology, 30: 44-57. DOI |
16 | Witt, C., A.J. Schubert, M. Jehn, A. Holzgreve, U. Liebers, and W. Endlicher, 2015. The Effects of Climate Change on patients with Chronic Lung Disease - A Systematic Literature Review, Dtsh Arztebl Int, 112: 878-883. |
17 | Song, K.O., 2012. Need to Adapt to Extreme Heat, Heavy Rain and Storms as Climate Change becomes More Serious, BDI FOCUS, 168. |
18 | Wan, Z., 2006. MODIS Land Surface Temperature Products Users' Guide, Institute for Computational Earth System Science, University of California, Santa Barbara, CA, USA, pp. 16-21. |
19 | Wen, Q., D. Lu and J. Schubring, 2004. Estimation of Land Surface Temperature-Vegetation abundance Relationship for Urban Heat Island Studies, Remote Sensing of Environment, 89(4): 467-483. DOI |
20 | Williams, A.P., D.A. Craig, I.M. Constance, W.W. Thomas, J. Michaelsen, J.S. Christopher, and S.W. Leavitt, 2010. Forest Responses to Increasing Aridity and Warmth in the Southwestern United States, Proccedings of the National Academy of Sciences United States of America, 107(50): 21289-21294. DOI |
21 | Yi, C., T.H. Kwon, M.S. Park, Y.J. Choi, and S.M. An, 2015. A Study on the Roughness Length Spatial Distribution in Relation to the Seoul Building Morphology, Atmosphere, 25(2): 339-351 (in Korean with English abstract). DOI |
22 | Yoon, M.H and T.M. Ahn, 2009. An Application of Satellite Image Analysis to Visualize the Effects of Urban Green Areas on Temperature, Journal of Korean Institute of Landscape Architecture, 37(3): 46-53 (in Korean with English abstract). |
23 | Yu, W., K. Mengersen, X. Wang, X. Ye, Y. Guo, and X. Pan, 2012. Daily Average Temperature and Mortality among the Elderly: A Meta-analysis and Systematic Review of Epidemiological Evidence, International Journal of Biometeorology, 56: 569-581. DOI |
24 | KCDC, 2012. 2012 Heat Wave Health Damage White Paper, Korea Centers for Disease Control and Prevention, ChungBuk, Korea, pp. 14-43. |
25 | IPCC, 2014. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change, Climate Change 2014: Synthesis Report, IPCC, Geneva, Switzerland, p. 151. |
26 | Jee, J.B., K.T. Lee, and Y.J. Choi, 2014. Analysis of Land Surface Temperature from MODIS and Landsat Satellites Using by AWS Temperature in Capital area, Korean Journal of Remote Sensing, 30(2): 315-329 (in Korean with English abstract). DOI |
27 | Jung, J.H., I.G. Kim, D.G. Lee, J.H. Shin, and B.J. Kim, 2014. Study on the Vulnerability Regarding High Temperature Related Mortality in Korea, Journal of the Korean Geographical Society, 49(2): 245-263 (in Korean with English abstract). |
28 | KCDC, 2019. 2018 Annual Report on the Notified patients with Heat-related illness in Korea, Korea Centers for Disease Control and Prevention, ChungBuk, Korea, pp. 28-41. |
29 | Keshtegar, B., C. Mert, and O. Kisi, 2018. Comparison of Four Heuristic Regression Techniques in Solar Radiation Modeling: Kriging Method vs RSM, MARS and M5 Model Tree, Renewable and Sustainable Energy Reviews, 81(1): 330-341. DOI |
30 | Kim, D.W., J.H. Chung, J.W. Lee, and J.S. Lee, 2014. Characteristics of Heat Wave Mortality in Korea, Atmosphere, 24(2): 225-234 (in Korean with English abstract). DOI |
31 | Kim, D.Y., 2011. The Relationship of Change of Land Cover and Land Surface Temperature Using Satellite Images in Incheon, The Korean Association of Professional Geographers, 45(3): 493-501 (in Korean with English abstract). |
32 | Akbari, H., 2002. Shade Trees Reduce Building Energy Use and Emissions from Power Plants, Enviro Pollution, 116(1): 119-126. DOI |
33 | 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 Journal of Remote Sensing, 28(2): 203-214 (in Korean with English abstract). DOI |
34 | Aflaki, A., M. Mirneshad, A. Ghaffarianhoseini, H. Omrany, Z.H. Wang, and H. Akbari, 2017. Urban Heat Island Mitigation Strategies: A State-of-the-art Review on Kuala Lumpur, Singapore and Hong Kong, Cities, 62: 131-145. DOI |
35 | Ahn, J.S., H.D. Kim, and S.W. Kim, 2007. Estimation of Urban Heat Island Potential based on Land Use in Summertime of Daegu, Journal of the Environmental Sciences, 16(1): 65-71(Korean with English abstract). DOI |
36 | Anselin, L., 1995. Local Indicators of Spatial Association-LISA, Geographical Analysis, 27(2): 93-115. DOI |
37 | Bae, M.K., B.E. Kim, and H. Oh, 2019. Spatial Analysis of the Relationship among Disaster Risk, Vulnerable Population and Response Capacity: The Case of Cheongju City, Crisisonomy, 15(10): 119-135 (in Korean with English abstract). |
38 | Benmarhnia, T., S. Deguen, J.S. Kaufman, and A. Smargiassi, 2015. Vulnerability to Heat-related Mortality: A Systematic Review, Meta-analysis and Meta-regression Analysis, Epidemiology, 26: 781-793. DOI |
39 | Bunker, A., J. Wildenhain, A. Vandenbergh, N. Henschke, J. Rocklov, and S. Hajat, 2016. Effects of Air Temperature on Climate-sensitive Mortality and Morbidity Outcomes in the Elderly; A Systematic review and Meta-analysis of Epidemiological Evidence, EBioMedicine, 6; 258-268. DOI |
40 | Chen, X.L., H.M. Zhao, P.X. Li, and Z.Y. Yin, 2006. Remote Sensing Image-based Analysis of the Relationship between Uran Heat Island and Land Use/Cover Changes, Remote Sensing of Environment, 104(2): 133-146. DOI |
41 | Cho, S., Y. Yoon, E. Ryu, B. Park, and W. Kim, 2009. The Influence of Land Cover and Zoning on the Urban Heat Islnad In Cheongju, Journal of the Korean Environmental Sciences Society, 18(7): 169-176 (in Korean with English abstract). |
42 | Choi, G.Y., J.N. Choi, and H.J. Kwon, 2005. The Impact of High Apparent Temperature on the Increase of Summertime Disease-related Mortality in Seoul: 1999-2000, Journal of Preventive Medicine and Public Health, 38(3): 283-290 (in Korean with English abstract). |
43 | Coutts, A.M., E.C. White, N.J. Tapper, J. Beringer, and S.J. Livesley, 2015. Temperature and Human Thermal Comfort Effects of Street Trees across Three Contrasting Street Canyon Environments, Theory Applied Climatology, 124: 55-68. |
44 | Do, H.J., J.M. Lee, and J.H. Ra, 2007. A Study on the Distribution Characteristic of Urban Surface Temperature and Urbna Heat Island Effects, Journal of the Environmental Sciences, 16(5): 611-622 (in Korean with English abstract). DOI |
45 | Kim, J.A., K.R. Kim, Cameron C. Lee, Scott C. Sheridan, Laurence S. Kalkstein, and B.J. Kim, 2016. Analysis of Occurrence Distribution and Synoptic Pattern of Future Heat Waves in Korea, Journal of Climate Research, 11(1): 15-27 (in Korean with English abstract). DOI |
46 | Kim, J.H., 2011. Using Geary's Local Statistics and AMOEBA to Identify Spatial Clusters Area, Seoul National University, Seoul, Korea. |
47 | Kim, J.Y., D.G. Lee, I.S. Park, B.C. Choi, and J.S. Kim, 2006. Influences of Heat Waves on Daily Mortality in South Korea, Atmosphere, 16(4): 269-278 (in Korean with English abstract). |
48 | Eom, K.C., P.K. Jung, S.H. Park, S.Y. Yoo, and T.W. Kim, Evaluation of the Effect of Urban-agriculture on Urban Heat Island Mitigation, Korean Journal of Soil Science and Fertilizer, 45(4): 848-852 (in Korean with English abstract). |
49 | Kim, J.S. and H.Y. Kim, 2020. Analysis on the Characteristics of Heat Wave Vulnerable Areas Using Landsat 8 Data and Vulnerability Assessment Analysis, Journal of the Korean Association of Geographic Information Studies, 23(1): 1-14 (in Korean with English abstract). |
50 | Kim, K.T. and J.M. Song. 2015. The Effect of the Cheonggyecheon Restoration Project on the Mitigation of Urban Heat Island, Journal of Korea Planning Association, 50(4): 139-154. DOI |
51 | Fiore, A.M., V. Naik, D. Spracklen, and A.L. Steiner, 2012. Global Air Quality and Climate, Chemical Society Reviews, 41: 6663-6683. DOI |
52 | Garcia, S.M. and A.A. Rosenberg, 2010. Food Security and Marine Capture Fisheries: Characteristics, Trends, Drivers and Future Perspectives, Philosophical Transactions of the Royal Society Biological Sciences, 365: 2869-2880. DOI |
53 | Guo, Y., A. Gasparmini, B.G. Armstrong, B. Tawatsupa, A. Tobias, and E. Lavigne, 2017. Heat Wave and Mortality: A Multicountry, Multicommunity Study, Environmental Health Perspectives, 087006: 1-8. |
54 | Hashida, S., H. Omori, and S.K. AtsumasaYoshida, 2017. Heat Island Mitigation Effects of Various Ground Cover Materials in and around Yokohama Campus, Tokyo City University, Journal of Heat Island Institute International, 12: 54-60. |
55 | Kim, T.H., W.H. Lee, and Y.K. Han, 2018. Analysis of Thermal Heat Island Potential by Urbanization Using Landsat-8 Time-series Satellite Imagery, Journal of the Korean Society of Surveying, Geodesy, Photogrammetry, and Cartography, 36(4): 305-316 (in Korean with English abstract). DOI |
56 | Kwon, Y.J., D.K. Lee, and S.K. Ahn, 2019. Urban Street Planting Scenarios Simulation for Micro-scale Urban Heat Island Effect Mitigation in Seoul, Journal of Environmental Impact Assessment, 28(1): 23-34 (in Korean with English abstract). DOI |
57 | Kjellstrom, T. and A.J. McMichael, 2013. Climate Change Threats to Population Health and Well-being: The Imperative of Protective Solutions That Will Last, Global Health Action, 6(1): 20816. DOI |
58 | KMA, 2019. Meteorological Yearbook, Korea Meteorological Administration, Seoul, KR, pp. 118-122. |
59 | Ku, C.Y., 2014. Development of Land Surface Temperature Map Generation Method with Landsat 8 TIRS Imagery and Automatic Weather System Data, Journal of the Korean Cartographic Association, 14(1): 17-27 (in Korean with English abstract). |
60 | Lee, D.G., Y.J. Choi, K.R. Kim, J.Y. Byon, L.S. Kalkstein, and S.C. Sheridan, 2010. Development of Heat-health Warning System based on Regional Properties between Climate and Human Health, Journal of Climate Change Research, 1(2): 109-120 (in Korean with English abstract). |
61 | Lee, G. and H. Lim, 2009. A Spatial Statistical Approach to Identifying Areas with Poor Access to Grocery Foods in the City of Buffalo, New York, Journal of Urban Studies, 46(7): 1299-1315 (in Korean with English abstract). DOI |
62 | Kim, M.K., S.P. Kim, N.H. Kim and H.G. Shon. 2014. Urbanization and Urban Heat Island Analysis using Landsat Imagery: Sejong City as a Case Study, Journal of the Korean Society of Civil Engineers, 34(3): 1033-1041 (in Korean with English abstract). DOI |
63 | Lee, G.J., M.H. Hwang, S.H. Han, and E.J. Yang, 2015. A First Step toward Understanding and Utilizing Spatial Statistical Analysis, Korea Research Institute for Human Settlements, Anyang, Korea, pp. 32-42. |