Add to ORKGSpatial and temporal variability in landscape freeze- thaw (FT) status at higher latitudes and elevations significantly impacts land surface water mobility and surface energy partitioning, with major consequences for regional climate, hydrological, ecological, and biogeochemical processes. With the development of new-generation spaceborne remote sensing instruments, future L-band missions, including the NASA Soil Moisture Active and Passive mission, will provide new operational retrievals of landscape FT state dynamics at moderate (~3 km) spatial resolution. We applied theoretical simulations of L-band radar backscatter using first-order radiative transfer models with two and three-layer modeling schemes to develop a modified seasonal thres...
New research is finding that satellite-based radar remote sensing techniques are particularly well-s...
Springtime snowmelt is a major hydrological event across the pan-Arctic. Melt is typically simulated...
Freeze-thaw (FT) and moisture dynamics within the soil active layer are critical elements of boreal,...
The annual freeze/thaw (FT) cycle determines the potential growing season in boreal landscapes and i...
The seasonal transition of the land surface between frozen and nonfrozen conditions affects a number...
The seasonal transition of the land surface between frozen and nonfrozen conditions affects a number...
Monitoring freeze-thaw cycles of high latitude terrestrial ecosystems is useful for estimating the l...
The seasonal transition of the land surface between fro- spring were also generally consistent with ...
In the terrestrial cryosphere, freeze/thaw (FT) state transitions play an important and measurable r...
Freezing and thawing of the land surface affects ecosystem and hydrological processes, the geotechni...
Passive microwave measurements from space are known to be sensitive to the freeze/thaw (F/T) state o...
New research is finding that satellite-based radar remote sensing techniques are particularly well-s...
Freezing and thawing of the land surface affects ecosystem and hydrological processes, the geotechni...
The transition of the landscape between predominantly frozen and nonfrozen conditions in seasonally ...
We hypothesize that the strong sensitivity of radar backscatter to surface dielectric properties, an...
New research is finding that satellite-based radar remote sensing techniques are particularly well-s...
Springtime snowmelt is a major hydrological event across the pan-Arctic. Melt is typically simulated...
Freeze-thaw (FT) and moisture dynamics within the soil active layer are critical elements of boreal,...
The annual freeze/thaw (FT) cycle determines the potential growing season in boreal landscapes and i...
The seasonal transition of the land surface between frozen and nonfrozen conditions affects a number...
The seasonal transition of the land surface between frozen and nonfrozen conditions affects a number...
Monitoring freeze-thaw cycles of high latitude terrestrial ecosystems is useful for estimating the l...
The seasonal transition of the land surface between fro- spring were also generally consistent with ...
In the terrestrial cryosphere, freeze/thaw (FT) state transitions play an important and measurable r...
Freezing and thawing of the land surface affects ecosystem and hydrological processes, the geotechni...
Passive microwave measurements from space are known to be sensitive to the freeze/thaw (F/T) state o...
New research is finding that satellite-based radar remote sensing techniques are particularly well-s...
Freezing and thawing of the land surface affects ecosystem and hydrological processes, the geotechni...
The transition of the landscape between predominantly frozen and nonfrozen conditions in seasonally ...
We hypothesize that the strong sensitivity of radar backscatter to surface dielectric properties, an...
New research is finding that satellite-based radar remote sensing techniques are particularly well-s...
Springtime snowmelt is a major hydrological event across the pan-Arctic. Melt is typically simulated...
Freeze-thaw (FT) and moisture dynamics within the soil active layer are critical elements of boreal,...