Dryland ecosystems cover over 40% of the Earth’s surface, and are highly heterogeneous systems dependent upon rainfall and temperature. Climate change and anthropogenic activities have caused considerable shifts in vegetation and fire regimes, leading to desertification, habitat loss, and the spread of invasive species. Modern public satellite imagery is unable to detect fine temporal and spatial changes that occur in drylands. These ecosystems can have rapid phenological changes, and the heterogeneity of the ground cover is unable to be identified at course pixel sizes (e.g. 250 m). We develop a system that uses data from multiple satellites to model finer data to detect phenology in a semi-arid ecosystem, a dryland ecosystem type. The fir...
Drylands are the habitat and source of livelihood for about two fifths of the world’s populati...
Drylands cover 40% of the global terrestrial area and support roughly 2 billion people for grazing a...
With global change, which includes climate change, there is a sense of urgency to understand how shi...
High spatial and temporal imagery are necessary to monitor phenological changes in semi-arid regions...
Water-limited ecosystems encompass approximately 40% of terrestrial land mass and play a critical ro...
Environmental disturbances in semi-arid ecosystems have highlighted the need to monitor current and ...
Drylands include all terrestrial regions where the production of crops, forage, wood and other ecosy...
Drylands, covering nearly 30% of the global land surface, are characterized by high climate variabil...
The native vegetation communities in the sagebrush steppe, a semi-arid ecosystem type, are under thr...
Drylands, covering nearly 30% of the global land surface, are characterized by high climate variabil...
Drylands, covering nearly 30% of the global land surface, are characterized by high climate variabil...
Remote sensing of dryland ecosystem vegetation is notably problematic due to the low canopy cover an...
Drylands, covering nearly 30% of the global land surface, are characterized by high climate variabil...
Baseline information about dryland forest phenology is necessary to accurately anticipate future eco...
Baseline information about dryland forest phenology is necessary to accurately anticipate future eco...
Drylands are the habitat and source of livelihood for about two fifths of the world’s populati...
Drylands cover 40% of the global terrestrial area and support roughly 2 billion people for grazing a...
With global change, which includes climate change, there is a sense of urgency to understand how shi...
High spatial and temporal imagery are necessary to monitor phenological changes in semi-arid regions...
Water-limited ecosystems encompass approximately 40% of terrestrial land mass and play a critical ro...
Environmental disturbances in semi-arid ecosystems have highlighted the need to monitor current and ...
Drylands include all terrestrial regions where the production of crops, forage, wood and other ecosy...
Drylands, covering nearly 30% of the global land surface, are characterized by high climate variabil...
The native vegetation communities in the sagebrush steppe, a semi-arid ecosystem type, are under thr...
Drylands, covering nearly 30% of the global land surface, are characterized by high climate variabil...
Drylands, covering nearly 30% of the global land surface, are characterized by high climate variabil...
Remote sensing of dryland ecosystem vegetation is notably problematic due to the low canopy cover an...
Drylands, covering nearly 30% of the global land surface, are characterized by high climate variabil...
Baseline information about dryland forest phenology is necessary to accurately anticipate future eco...
Baseline information about dryland forest phenology is necessary to accurately anticipate future eco...
Drylands are the habitat and source of livelihood for about two fifths of the world’s populati...
Drylands cover 40% of the global terrestrial area and support roughly 2 billion people for grazing a...
With global change, which includes climate change, there is a sense of urgency to understand how shi...