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Daniel Ricciuto
Oak Ridge National LaboratoryMeeting roles in:
Peatland Futures: Disturbance, Recovery, and Earth System Feedbacks Poster
Modeling the responses of nutrient cycling dynamics to warming and elevated CO2 in peatland ecosystems
Navigating Complexity: Collaboration and Synthesis in SPRUCE’s Scientific Commons
Developing Workflow for High, Mixed and Irregular Resolution E3SM Land Model Coupled with 3D Watershed Flow and Reactive-Transport Models
Historical and Projected Fire Weather Changes in the Contiguous United States: Evidence from Multi-source Ensemble Analysis
Myriad Ecophysiological Responses of Boreal Plants to 10 Years of Whole Ecosystem Warming and CO2
Implementing belowground control on nutrient uptake in a land surface model improves representation of a boreal peatland ecosystem
Improving simulations of Northern Peatlands through integration of models, ecosystem experiments and observations
Hydrologic Insights from SPRUCE Warming for Data‑Driven Wetland Modeling
Year-Round Modelling of Peatland Hydrology from Water Table Depth or Near-Surface Peat Water Contents and Soil Temperature
AI-based spinup for the land component of an Earth system model
A High-Resolution, Observation-Based Biomass Map over the Contiguous U.S.
Accelerating Earth System Simulations: Creating an AI-Powered Emulator for the E3SM Land Model
Opportunities Remaining in the U.S. DOE’s Decadal SPRUCE (Spruce and Peatland Responses Under Changing Environments) Experiment
ELM-TAM: a structure-based, function-oriented land model embracing fine-root system complexity
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