Jiafu Mao Senior Staff Scientist Contact 865.576.7815 | MAOJ@ORNL.GOV All Publications Artificial light at night outweighs temperature in lengthening urban growing seasons Remotely Sensed High-Resolution Soil Moisture and Evapotranspiration: Bridging the Gap Between Science and Society A unified ensemble soil moisture dataset across the continental United States... A unified ensemble soil moisture dataset across the continental United States A unified ensemble soil moisture dataset across the continental United States Convective potential and fuel availability complement near-surface weather in regulating global wildfire activity Earth's record-high greenness and its attributions in 2020... Nonnegligible cascading impacts of global urban expansion on net primary productivity... Soil moisture controls over carbon sequestration and greenhouse gas emissions: a review Fires jeopardize world’s carbon sinks No constraint on long-term tropical land carbon-climate feedback uncertainties from interannual variability Consistent time allocation fraction to vegetation green-up versus senescence across northern ecosystems despite recent climate change Evaluating the effects of heatwave events on hydrological processes in the contiguous United States (2003–2022) Quantifying the long-term changes of terrestrial water storage and their driving factors Thermal, water, and land cover factors led to contrasting urban and rural vegetation resilience to extreme hot months Multiscale assessment of North American terrestrial carbon balance Urbanization effects on the spatial patterns of spring vegetation phenology depend on the climatic background Quantifying wildfire drivers and predictability in boreal peatlands using a two-step error-correcting machine learning framework in TeFire v1.0 Historical and projected future runoff over the Mekong River basin... Fertilizer management for global ammonia emission reduction Discrepant trends in global land-surface and air temperatures controlled by vegetation biophysical feedbacks Perspectives on Artificial Intelligence for Predictions in Ecohydrology Co-regulation of water and energy in the spatial heterogeneity of drought resistance and resilience Exploring the environmental drivers of vegetation seasonality changes in the northern extratropical latitudes: a quantitative analysis * Fragile Earth: AI for Climate Sustainability - From Wildfire Disaster Management to Public Health and Beyond Pagination Current page 1 Page 2 Page 3 … Next page ›› Last page Last » Key Links ORCID Google Scholar ORCID Organizations Biological and Environmental Systems Science Directorate Environmental Sciences Division Earth Systems Science Section Earth System Modeling Group