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The last 5 uploaded publications
Interpretable Machine Learning Reveals the Crucial Role of Water Availability in Regulating Thermal Optimality of Terrestrial Ecosystems
Arman Ahmadi, Kaniska Mallick, K. Yi, Dennis Baldocchi (2025). Interpretable Machine Learning Reveals the Crucial Role of Water Availability in Regulating Thermal Optimality of Terrestrial Ecosystems. , 2(2), DOI: https://doi.org/10.1029/2024jh000445.
Article125 days agoData set for A Coupled Ground Heat Flux-Surface Energy Balance Model of Evaporation Using Thermal Remote Sensing Observations
Devansh Desai, Kaniska Mallick, B. K. Bhattacharya, G. S. Bhat, Ross Morrison, Jamie R. Clevery, Will Woodgate, Jason Beringer, Glynn Hulley, Kerry Cawse‐Nicholson, Dennis Baldocchi, Siyan Ma, Joe Varfaillie (2021). Data set for A Coupled Ground Heat Flux-Surface Energy Balance Model of Evaporation Using Thermal Remote Sensing Observations. , DOI: https://doi.org/10.5281/zenodo.5806501.
Article125 days agoDisentangling ecosystem transpiration from evapotranspiration observations employing simplified vegetation-substrate energy balance model
Kaniska Mallick, Dennis Baldocchi, Andrew Jarvis, Ivonne Trebs, Mauro Sulis, Joseph A. Berry (2020). Disentangling ecosystem transpiration from evapotranspiration observations employing simplified vegetation-substrate energy balance model. , DOI: https://doi.org/10.5194/egusphere-egu2020-5193.
Article125 days agoInsights Into the Aerodynamic Versus Radiometric Surface Temperature Debate in Thermal‐Based Evaporation Modeling
Kaniska Mallick, Dennis Baldocchi, Andrew Jarvis, Tian Hu, Ivonne Trebs, Mauro Sulis, Nishan Bhattarai, Christian Bossung, Yomna Eid, James Cleverly, Jason Beringer, William Woodgate, Richard Silberstein, Nina Hinko‐Najera, Wayne S. Meyer, Darren Ghent, Zoltan Szantoi, Gilles Boulet, William P. Kustas (2022). Insights Into the Aerodynamic Versus Radiometric Surface Temperature Debate in Thermal‐Based Evaporation Modeling. , 49(15), DOI: https://doi.org/10.1029/2021gl097568.
Article40 days agoWater Stress Explains the Aerodynamic versus Radiometric Surface Temperature Paradox in Thermal-based Evaporation Modeling
Kaniska Mallick, Dennis Baldocchi, Andrew Jarvis, Tian Hu, Ivonne Trebs, Mauro Sulis, Nishan Bhattarai, Christian Bossung, Yomna Eid, James Cleverly, Jason Beringer, William Woodgate, Richard Silberstein, Nina Hinko‐Najera, Wayne S. Meyer, Darren Ghent, Zoltan Szantoi, Gilles Boulet, William P. Kustas (2022). Water Stress Explains the Aerodynamic versus Radiometric Surface Temperature Paradox in Thermal-based Evaporation Modeling. , DOI: https://doi.org/10.1002/essoar.10511004.1.
Preprint40 days ago