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Global Hotspots of the Wildland Urban Interface
Project Start Date
01/01/2021
Project End Date
12/31/2024
Grant Number
80NSSC21K0310
Solicitation
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Team Members:

Person Name Person role on project Affiliation
Volker Radeloff Principal Investigator University of Wisconsin-Madison, Madison, US
Sebastian Martinuzzi Co-Investigator UW-Madison, Madison, USA
Katarzyna Lewinska Postdoc Researcher UW-Madison, Madison, USA
Franz Pflug Postdoc Researcher UW-Madison, Madison, USA
Amanda Carlson Postdoc Researcher UW-Madison, Madison, USA
Abstract

The Wildland Urban Interface (WUI), i.e., the area where houses are in or near wildland vegetation, is widespread in the US and in other countries, and growing rapidly, but there is no global WUI hotspots map.  Because the WUI is by definition the zone between urban areas and forests or shrublands, it has fallen between the cracks.  That is unfortunate, because the WUI is where wildfire problems for society are worst, and where many other environmental problems are concentrated.

The goal of our project is to identify and characterize global hotspots of the Wildland Urban Interface.  We will build on our strong record of accomplishment mapping the WUI in the US for federal agencies.  

First, we will map potential WUI hotspots from 2011 to 2021 globally using coarse- and medium-resolution satellite data.  We define a WUI hotspot as a 10-20,000 km2 landscape where WUI is either widespread, or growing rapidly, or both.  Our 1st objective is to analyze multi-year VIIRS nighttime lights to identify 20 potential WUI hotspots globally.  Our 2nd objective is to analyze multi-year Landsat and Sentinel-2 data to map change in impervious surface cover and wildland vegetation in these 20 hotspots.

Second, we will map the WUI in these hotspots based on high-resolution satellite data.  Our 3rd objective is to analyze multiyear WorldView data with semantic segmentation to map building footprints in 10 of the hotspots from objective 2.  Our 4th objective is to map WUI growth in these 10 hotspots based on the building footprints (obj. 3), and wildland vegetation (obj. 2),.  Based on the results from objective 4, we and identify the causes of WUI growth, and we will measure impacts, such as the number of houses in the WUI, and rates of WUI growth.

Our proposal is highly responsive to the call, meets all requirements, and is well aligned with the goals and emphases of the solicitation.  We will analyze multi-source satellite imagery, including high-resolution imagery from NASA’s archives, using recently developed methods to map building footprints from very-high-resolution satellite imagery (WorldView), together with medium-resolution satellite imagery (Landsat/Sentinel-2) to map wildland vegetation and imperviousness, and VIIRS nighttime lights for a global assessment of potential WUI areas.  We will focus on WUI, a land use change with high societal impacts due to the escalating rate ofwildfires found there.  And lastly, we will demonstrate that our methods are scalable by mapping 20 potential WUI hotspots with coarse- and medium-resolution satellite data, and 10 of them in detail with high-resolution imagery.  In doing so, we will combine multi-source imagery so that their individual strengths contribute towards an integrated analysis that no single dataset could provide.

Project Documents

Year Authors Type Title
2023 Volker Radeloff Publications F. Schug, A. Bar-Massada, A. R. Carlson, H. Cox, T. J. Hawbaker, D. Helmers, P. Hostert, D. Kaim, N. K. Kasraee, S. Martinuzzi, M. H. Mockrin, K. A. Pfoch, and V. C. Radeloff. 2023. The global wildland-urban interface. Nature, DOI: 10.1038/s41586-023-06320-0.
2023 Volker Radeloff Publications Kasraee, N. K., T. J. Hawbaker, and V. C. Radeloff. 2023. Identifying building locations in the wildland-urban interface before and after fires with convolutional neural networks. International Journal of Wildland Fire, in press. https://www.publish.csiro.au/WF/WF22181
2023 Volker Radeloff Publications Radeloff V., Mockrin M., Helmers D., Carlson A., Hawbaker T., Martinuzzi S., Schug F., Alexandre P., Kramer H., Pidgeon A. Rising wildfire risk to houses in the United States, especially in grasslands and shrublands. Science, Volume 382, Number 6671 https://www.science.org/doi/10.1126/science.ade9223
2022 Volker Radeloff Publications Bar-Massada, A., F. Alcansena, F. Schug, and V. C. Radeloff. 2023. The Wildland-Urban Interface in Europe: spatial patterns and associations with socio-economic and demographic variables. Landscape and Urban Planning, 235: 104759. https://www.sciencedirect.com/science/article/pii/S0169204623000786#ak005
2022 Volker Radeloff Publications Yin, H., B. Tan, D. Frantz, and V. C. Radeloff. 2022. Integrated topographic correction improves forest mapping using Landsat imagery. International Journal of Applied Earth Observation and Geoinformation, 108: 102716. https://www.sciencedirect.com/science/article/pii/S0303243422000423
2022 Volker Radeloff Publications Carlson, A., D. H. Helmers, T. J. Hawbaker, M. H. Mockrin, and V. C. Radeloff. 2022. The wildland-urban interface in the United States based on 125 million building locations. Ecological Applications, 2022: e2597. https://esajournals.onlinelibrary.wiley.com/doi/full/10.1002/eap.2597
2021 Volker Radeloff Publications Mockrin, M. H., D. Helmers, T. J. Hawbaker, and V. C. Radeloff. 2022. Growth of the wildland-urban interface within and around U.S. National Forests and Grasslands, 1990-2010. Landscape and Urban Planning, 218: 104283.https://www.sciencedirect.com/science/article/pii/S0169204621002462