Frank Urban
Frank Urban is a Geologist with the Geosciences and Environmental Change Science Center.
Science and Products
Filter Total Items: 21
Hydrogeomorphic processes of thermokarst lakes with grounded-ice and floating-ice regimes on the Arctic coastal plain, Alaska Hydrogeomorphic processes of thermokarst lakes with grounded-ice and floating-ice regimes on the Arctic coastal plain, Alaska
Thermokarst lakes cover > 20% of the landscape throughout much of the Alaskan Arctic Coastal Plain (ACP) with shallow lakes freezing solid (grounded ice) and deeper lakes maintaining perennial liquid water (floating ice). Thus, lake depth relative to maximum ice thickness (1·5–2·0 m) represents an important threshold that impacts permafrost, aquatic habitat, and potentially geomorphic...
Authors
C.D. Arp, Benjamin M. Jones, F.E. Urban, G. Grosse
Thermal erosion of a permafrost coastline: Improving process-based models using time-lapse photography Thermal erosion of a permafrost coastline: Improving process-based models using time-lapse photography
Coastal erosion rates locally exceeding 30 m y-1 have been documented along Alaska's Beaufort Sea coastline, and a number of studies suggest that these erosion rates have accelerated as a result of climate change. However, a lack of direct observational evidence has limited our progress in quantifying the specific processes that connect climate change to coastal erosion rates in the...
Authors
C. Wobus, R. Anderson, I. Overeem, N. Matell, G. Clow, F. Urban
Sea ice loss enhances wave action at the Arctic coast Sea ice loss enhances wave action at the Arctic coast
Erosion rates of permafrost coasts along the Beaufort Sea accelerated over the past 50 years synchronously with Arctic‐wide declines in sea ice extent, suggesting a causal relationship between the two. A fetch‐limited wave model driven by sea ice position and local wind data from northern Alaska indicates that the exposure of permafrost bluffs to seawater increased by a factor of 2.5...
Authors
I. Overeem, R. Scott Anderson, C.W. Wobus, Gary D. Clow, Frank E. Urban, N. Matell
Two mechanisms of aquatic and terrestrial habitat change along an Alaskan Arctic coastline Two mechanisms of aquatic and terrestrial habitat change along an Alaskan Arctic coastline
Arctic habitats at the interface between land and sea are particularly vulnerable to climate change. The northern Teshekpuk Lake Special Area (N-TLSA), a coastal plain ecosystem along the Beaufort Sea in northern Alaska, provides habitat for migratory waterbirds, caribou, and potentially, denning polar bears. The 60-km coastline of N-TLSA is experiencing increasing rates of coastline...
Authors
Christopher D. Arp, Benjamin M. Jones, Joel A. Schmutz, Frank E. Urban, M. Torre Jorgenson
Lake temperature and ice cover regimes in the Alaskan Subarctic and Arctic: Integrated monitoring, remote sensing, and modeling Lake temperature and ice cover regimes in the Alaskan Subarctic and Arctic: Integrated monitoring, remote sensing, and modeling
Lake surface regimes are fundamental attributes of lake ecosystems and their interaction with the land and atmosphere. High latitudes may be particularly sensitive to climate change, however, adequate baselines for these lakes are often lacking. In this study, we couple monitoring, remote sensing, and modeling techniques to generate baseline datasets of lake surface temperature and ice...
Authors
C.D. Arp, Benjamin M. Jones, Matthew Whitman, A. Larsen, F.E. Urban
The dynamic interaction of climate, vegetation, and dust emission, Mojave Desert, USA The dynamic interaction of climate, vegetation, and dust emission, Mojave Desert, USA
No abstract available.
Authors
Frank Urban, Richard L. Reynolds, R. Fulton
Science and Products
Filter Total Items: 21
Hydrogeomorphic processes of thermokarst lakes with grounded-ice and floating-ice regimes on the Arctic coastal plain, Alaska Hydrogeomorphic processes of thermokarst lakes with grounded-ice and floating-ice regimes on the Arctic coastal plain, Alaska
Thermokarst lakes cover > 20% of the landscape throughout much of the Alaskan Arctic Coastal Plain (ACP) with shallow lakes freezing solid (grounded ice) and deeper lakes maintaining perennial liquid water (floating ice). Thus, lake depth relative to maximum ice thickness (1·5–2·0 m) represents an important threshold that impacts permafrost, aquatic habitat, and potentially geomorphic...
Authors
C.D. Arp, Benjamin M. Jones, F.E. Urban, G. Grosse
Thermal erosion of a permafrost coastline: Improving process-based models using time-lapse photography Thermal erosion of a permafrost coastline: Improving process-based models using time-lapse photography
Coastal erosion rates locally exceeding 30 m y-1 have been documented along Alaska's Beaufort Sea coastline, and a number of studies suggest that these erosion rates have accelerated as a result of climate change. However, a lack of direct observational evidence has limited our progress in quantifying the specific processes that connect climate change to coastal erosion rates in the...
Authors
C. Wobus, R. Anderson, I. Overeem, N. Matell, G. Clow, F. Urban
Sea ice loss enhances wave action at the Arctic coast Sea ice loss enhances wave action at the Arctic coast
Erosion rates of permafrost coasts along the Beaufort Sea accelerated over the past 50 years synchronously with Arctic‐wide declines in sea ice extent, suggesting a causal relationship between the two. A fetch‐limited wave model driven by sea ice position and local wind data from northern Alaska indicates that the exposure of permafrost bluffs to seawater increased by a factor of 2.5...
Authors
I. Overeem, R. Scott Anderson, C.W. Wobus, Gary D. Clow, Frank E. Urban, N. Matell
Two mechanisms of aquatic and terrestrial habitat change along an Alaskan Arctic coastline Two mechanisms of aquatic and terrestrial habitat change along an Alaskan Arctic coastline
Arctic habitats at the interface between land and sea are particularly vulnerable to climate change. The northern Teshekpuk Lake Special Area (N-TLSA), a coastal plain ecosystem along the Beaufort Sea in northern Alaska, provides habitat for migratory waterbirds, caribou, and potentially, denning polar bears. The 60-km coastline of N-TLSA is experiencing increasing rates of coastline...
Authors
Christopher D. Arp, Benjamin M. Jones, Joel A. Schmutz, Frank E. Urban, M. Torre Jorgenson
Lake temperature and ice cover regimes in the Alaskan Subarctic and Arctic: Integrated monitoring, remote sensing, and modeling Lake temperature and ice cover regimes in the Alaskan Subarctic and Arctic: Integrated monitoring, remote sensing, and modeling
Lake surface regimes are fundamental attributes of lake ecosystems and their interaction with the land and atmosphere. High latitudes may be particularly sensitive to climate change, however, adequate baselines for these lakes are often lacking. In this study, we couple monitoring, remote sensing, and modeling techniques to generate baseline datasets of lake surface temperature and ice...
Authors
C.D. Arp, Benjamin M. Jones, Matthew Whitman, A. Larsen, F.E. Urban
The dynamic interaction of climate, vegetation, and dust emission, Mojave Desert, USA The dynamic interaction of climate, vegetation, and dust emission, Mojave Desert, USA
No abstract available.
Authors
Frank Urban, Richard L. Reynolds, R. Fulton