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  2. Earth Resources Observation and Science Center (EROS)
  3. Land surface thermal feature change monitoring in urban and non-urban interface from 1985 to present (ver. 5.0, December 2023)
  4. Annual land surface urban heat island intensity from 1985 to present (collection 1)
  5. Annual SUHI intensity from MeanLST in 50 cities of CONUS from 1985 to 2020

Annual SUHI intensity from MeanLST in 50 cities of CONUS from 1985 to 2020

Dates

Publication Date
Start Date
1985
End Date
2020
Release Date
2023-12-11

Citation

Xian, G.Z., Shi, H., Mueller, C.W., Hussain, R.A., Arab, S., Sayler, K.L., and Howard, D., 2019, Land surface thermal feature change monitoring in urban and non-urban interface from 1985 to present (ver. 5.0, December 2023): U.S. Geological Survey data release, https://doi.org/10.5066/P9H6E1FZ.

Summary

Surface Urban Heat Island (SUHI) intensity data is intended to quantify the difference between urban surface temperatures and the surrounding non-urban environment. The calculation takes the difference between a specific urban pixel’s maximum land surface temperature (MeanLST) and the mean of the cities non-urban MeanLST. Data are provided across 50 regions throughout the Continental U.S. using previously generated annual MeanLST – derived from Collection 1 Landsat U.S. Analysis Ready Data (ARD) for Surface Temperature. The data ranges from 1985-2020, and covers data within 5 km of each city. NOTE: While a previous version is available from the author, all datasets for pilot cities can be found in version 5.0.

Contacts

Point of Contact :
U.S. Geological Survey, LAND RESOURCES, George Z Xian
Originator :
George Z. Xian, Hua Shi, Chase Mueller, Reza Hussain, Saeed Arab, Kristi Sayler, Danny Howard
Metadata Contact :
U.S. Geological Survey, LAND RESOURCES, George Z Xian
Distributor :
U.S. Geological Survey - ScienceBase

Attached Files

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SUHI_intensity_MeanT_USA_main_FGDC 5.0.xml
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Purpose

Landsat surface temperature data is an important geophysical variable for understanding the thermal, hydrological, and societal impacts of urbanization. However, due to Landsat’s limited temporal frequency and the additional impacts of cloud cover, significant processing of the data is required to begin leveraging Landsat’s resolution and historical record. This dataset aims to eliminate the processing step and provide analysis ready data for evaluating the surface urban heat island.

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  • Earth Resources Observation and Science Center (EROS)

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