Satellite image-based quantitative assessment of surface urban heat island supporting environmental management at the city level

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Research Paper 01/03/2017
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Satellite image-based quantitative assessment of surface urban heat island supporting environmental management at the city level

Tran Thi Van, Ha Duong Xuan Bao, Nguyen Thi Tuyet Mai
J. Bio. Env. Sci.10( 3), 224-234, March 2017.
Certificate: JBES 2017 [Generate Certificate]

Abstract

In urban area, one of the great problem is the rise of temperature, which leads to form the urban heat island effect. This paper refers to the urban surface temperature extracted from the satellite images from which to consider changes in the formation of surface urban heat island for Ho Chi Minh city in period 1995-2015. Research has identified land surface temperature from thermal infrared band, according to the ability of the surface emission based on characteristics of normalized difference vegetation index NDVI. The results showed that temperature fluctuated over the city with the spatial gradual expansion of the high temperature zone towards the suburbs. Within 20 years, the formation of surface urban heat island with two typical locations showed a clear difference between the surface temperature of urban and rural areas with spatial expansion of heat island in 4 times in 2015 compared to 1995. An extreme surface urban heat island located in the urban core has an area of approximately 18% compared to the total area of the region. Since then, the solution to mitigate the impact of surface urban heat island has been proposed, in order to protect the urban environment and the lives of residents in Ho Chi Minh City becoming better.

VIEWS 17

Carlson T, Ripley D. 1997. On the relation between NDVI, fractional vegetation cover and leaf area index. Remote sensing of Environment 62, 241-252.

EPA. 2012. The Encyclopedia of Earth. Available online: www.eoearth.org/view/article/153461

Gupta R. 1991. Remote Sensing Geology. Germany: Springer-Verlag Berlin Heidelberg.

Ho Tong Minh Dinh, Le Van Trung, Tran Thi Van. 2007. Surface Emissivity in Determining Land Surface Temperature, International Journal of Geoinformatics 3.

Jones PD, Groisman PY, Coughlan M, Plummer N, Wang WC, Karl TR. 1990. Assessment of urbanization effects in time-series of surface air temperature over land. Nature 72, 347-169.

Kalnay E, Cai M. 2003. Impact of urbanization and land-use change on climate, Nature 31, 423-528.

Le Van Trung, Nguyen Thanh Minh. 2006. Mapping Land Surface Temperature (LST) from Satellite Imageries. Case Study in Hochiminh city. Proceedings of the International Symposium GIS-IDEAS 2006, 9-11 November 2006, Ho Chi Minh City, Vietnam 93-99.

Lo CP, Quattrochi AD, Luvall JC. 1997. Application of high-resolution thermal infrared remote sensing and GIS to assess the urban heat. Remote Sensing of Environment 18, 287-304.

Lougeay, Brazel A, Hubble M. 1996. Monitoring intraurban temperature patterns and associated land cover in Phoenix, Aizona using Landsat thermal data. Geocarto International 11, 79-90.

Nguyen Duc Hoa. 2010. The process of urbanization in Saigon – HCMC from 1860 to 2008, and the impact on the socio-economic development of the city. Proceedings of the 3th International Workshop “Vietnam Study”. Session: Urban and Urbanization 310-327.

Nguyen Thi Tuyet Mai. 2016. Research on the impact assessment of urban heat islands on the air quality by remote sensing method, Graduate Thesis, Ho Chi Minh City University of Technology.

Pham Hong Cuc. 2014. Remote sensing application to study of the impact of urban development to thermal environment for northen part of Ho Chi Minh city, Graduate Thesis, Ho Chi Minh city University of Technology.

Pham Van Cu and Hiroshi Watanabe. 2004. Use of Thermal Infrared Channels of Aster to Evaluate The Land Surface Temperature Changes of an Urban Area in Hanoi, Vietnam, Proceedings of the International Symposium GIS-IDEAS 2004, 85-90, Hanoi, Vietnam, 16-18 September 2004.

Tran H, Yasuoka Y. 2002. Monitoring Urban Surface from Space: Case Study of Hochiminh City and Surrounding Region, Proceedings of the International Symposium on Geoinformatics (GIS-IDEAS 2002), pp. 1-7, Hanoi, Vietnam, 25-28.

Tran Tan Vinh. 2005. The problem of urbanization and sustainable development in HCMC. Available online: www.hids.hochiminhcity.gov.vn/c

Tran Thi Van, Hoang Thai Lan, Le Van Trung. 2011. Research on the change of urban surface temperature under the impact of the urbanization process in Ho Chi Minh city by remote sensing. Journal of Earthsciences 33, 347-359.

Tran Thi Van. 2006. Thermal remote sensing applications to examine characteristics of urban surface temperature with the distribution of land cover types at HCMC. Journal of Science and Technology, Vietnam National University Publishing House 9, 70-74

Valor E, Caselles V. 1996. Mapping Land Surface Emissivity from NDVI: Application to European, African and South American Areas. Remote Sensing of Environment 57, 167-184.

Van de Griend A, Owe M. 1993. On the relationship between thermal emissivity and the normalized difference vegetation index for natural surfaces. Int. J. Remote Sensing 14, 1119-1131.

Voogt JA, Oke TR. 2003. Thermal remote sensing of urban climate. Remote sensing of Enviroment 86, 370-384.

Weng Q, Lu D, Schubring J. 2004. Estimation of land surface temperature–vegetation abundance relationship for urban heat island studies. Remote Sensing of Environment 89, 467-483.

Weng Q. 2009. Thermal infrared remote sensing for urban climate and environmental studies: methods, applications, and trends. ISPRS Journal of Photogrammetry and Remote Sensing 64, 335-344.

Yang S, Zhang M, Zeng R. 1984. The urban heat island effect of Guangzhou. Journal of South China, Normal University 2, 35-45.