Kevin McKeehan scite author profile

The increase in wildfire risk in the United States in recent decades has been linked to rapid growth of the wildland-urban interface and to changing climate. While there have been numerous studies on wildfires and climate change, few have separately assessed the impact of climate response to land-use-land-cover change (LULCC) on wildfires. In this study, we analyse two 10-year regional climate simulations driven by the current (2011) and future (2100) land-use-land-cover patterns to assess modifications by the projected LULCC to the frequency and severity of fire-prone atmospheric conditions described by two fire weather indices, the Canadian Forest Fire Weather Index and the Hot-Dry-Windy Index. The simulation corresponding to future land-use-land-cover pattern yields higher surface temperature and vapour pressure deficit and lower precipitation compared to the simulation with the current pattern in areas where urbanized landscapes replace forests and grasslands, such as along the Piedmont and outside the Chicagoland region, while in areas where croplands replace forests, such as the southeast Coastal Plains, the results are reversed. These changes to local and regional atmospheric conditions lead to longer fire seasons and more extreme fire-weather conditions in much of the eastern United States, specifically in the Southeast and Ohio River Valley where significant urban expansion is projected by the end of the century. Whereas in Southern California where some highly flammable shrublands will be replaced by urban or crop lands, fire-prone atmospheric conditions are likely to be less frequent and less extreme in the future. However, much of California moves towards a yearround fire season under the projected LULCC. The results suggest that by altering atmospheric conditions, LULCC may play an important role in determining fire regime, but the effects are highly heterogeneous and regionalized.

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A 5500-year record of coastal dune evolution along the shores of Lake Michigan in the North American Great Lakes: The relationship of lake-level fluctuations and climate

Arbogast

Lovis

McKeehan

et al. 2023

Quaternary Science Reviews

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The geography and progression of blowouts in the coastal dunes along the eastern shore of Lake Michigan since 1938

McKeehan

Arbogast

2023

Quat. res.

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Coastal dunes along Lake Michigan's eastern shoreline are a unique system comprising perhaps the largest complex of freshwater coastal dunes in the world. Here, we examine the blowouts in this region and determine how they have evolved since the 1930s. We conducted a spatiotemporal analysis of 435 blowouts by comparing repeat aerial images of the coast beginning in 1938. Using an unsupervised machine learning classification known as iso-clustering, we mapped blowout morphologies at three timestamps: 1938, 1986–1988, and 2018. We then compared the blowout geographies through a technique known as a spatial-temporal analysis of moving polygons (STAMP) model, which allowed us to analyze how each blowout changed in time and space. Results show blowouts have contracted ~37% in size since 1938, mostly at the expense of vegetation, with many fragmenting. These findings comport with other regional and global studies detailing a trend in coastal dune stabilization from vegetation and suggest that an increase in precipitation or other environment drivers could be responsible. Moreover, we detected no new blowouts since 1938 along the ~500 km shoreline or on any of the Lake Michigan islands. This suggests blowouts here are artifacts of premodern conditions, perhaps the result of prior stormier or drier eras.

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The Parkhill Phase Middle Paleoindian Hipwater Site, Great Lakes, USA

et al. 2022

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Kevin McKeehan

Repeat photography of Lake Michigan coastal dunes: Expansion of vegetation since 1900 and possible drivers

Will land use land cover change drive atmospheric conditions to become more conducive to wildfires in the United States?

A 5500-year record of coastal dune evolution along the shores of Lake Michigan in the North American Great Lakes: The relationship of lake-level fluctuations and climate

The geography and progression of blowouts in the coastal dunes along the eastern shore of Lake Michigan since 1938

The Parkhill Phase Middle Paleoindian Hipwater Site, Great Lakes, USA

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