Water-limited ecosystems encompass approximately 40% of terrestrial land mass and play a critical role in modulating Earth’s climate and provisioning ecosystem services to humanity. Spaceborne remote sensing is a critical tool for characterizing ecohydrologic patterns and advancing the understanding of the interactions between atmospheric forcings and ecohydrologic responses. Fine to medium scale spatial and temporal resolutions are needed to capture the spatial heterogeneity and the temporally intermittent response of these ecosystems to environmental forcings. Techniques combining complementary remote sensing datasets have been developed, but the heterogeneous nature of these regions present significant challenges. Here we investigate the...
Drylands, covering nearly 30% of the global land surface, are characterized by high climate variabil...
Vegetation remote sensing has been largely focused on the utilization of the Vegetation Indices (VIs...
Drylands cover 40% of the global terrestrial area and support roughly 2 billion people for grazing a...
Water-limited ecosystems encompass approximately 40% of terrestrial land mass and play a critical ro...
Dryland ecosystems cover over 40% of the Earth’s surface, and are highly heterogeneous systems depen...
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...
Accurate estimation of aboveground biomass of grasslands is key to sustainable grassland utilization...
Image time series of high temporal and spatial resolution capture land surface dynamics of heterogen...
Mounting evidence indicates dryland ecosystems play an important role in driving the interannual var...
Time series vegetation indices with high spatial resolution and high temporal frequency are importan...
Grasslands form the dominant land cover in the upper reaches of the Yellow River and provide a relia...
Drylands, covering nearly 30% of the global land surface, are characterized by high climate variabil...
Vegetation responses and ecosystem function are spatially variable and influenced by climate variabi...
Drylands, covering nearly 30% of the global land surface, are characterized by high climate variabil...
Vegetation remote sensing has been largely focused on the utilization of the Vegetation Indices (VIs...
Drylands cover 40% of the global terrestrial area and support roughly 2 billion people for grazing a...
Water-limited ecosystems encompass approximately 40% of terrestrial land mass and play a critical ro...
Dryland ecosystems cover over 40% of the Earth’s surface, and are highly heterogeneous systems depen...
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...
Accurate estimation of aboveground biomass of grasslands is key to sustainable grassland utilization...
Image time series of high temporal and spatial resolution capture land surface dynamics of heterogen...
Mounting evidence indicates dryland ecosystems play an important role in driving the interannual var...
Time series vegetation indices with high spatial resolution and high temporal frequency are importan...
Grasslands form the dominant land cover in the upper reaches of the Yellow River and provide a relia...
Drylands, covering nearly 30% of the global land surface, are characterized by high climate variabil...
Vegetation responses and ecosystem function are spatially variable and influenced by climate variabi...
Drylands, covering nearly 30% of the global land surface, are characterized by high climate variabil...
Vegetation remote sensing has been largely focused on the utilization of the Vegetation Indices (VIs...
Drylands cover 40% of the global terrestrial area and support roughly 2 billion people for grazing a...