about
An overview of current applications, challenges, and future trends in distributed process-based models in hydrologyA comparison of two physics-based numerical models for simulating surface water–groundwater interactionsImpacts of grid resolution on surface energy fluxes simulated with an integrated surface-groundwater flow modelHuman Water Use Impacts on the Strength of the Continental Sink for Atmospheric WaterIntroduction of an Experimental Terrestrial Forecasting/Monitoring System at Regional to Continental Scales Based on the Terrestrial System Modeling Platform (v1.1.0)Connection Between Root Zone Soil Moisture and Surface Energy Flux Partitioning Using Modeling, Observations, and Data Assimilation for a Temperate Grassland Site in GermanyQuantifying the Impact of Subsurface-Land Surface Physical Processes on the Predictive Skill of Subseasonal Mesoscale Atmospheric SimulationsThe integrated hydrologic model intercomparison project, IH-MIP2: A second set of benchmark results to diagnose integrated hydrology and feedbacksStudying the influence of groundwater representations on land surface-atmosphere feedbacks during the European heat wave in 2003Evaluating the dual-boundary forcing concept in subsurface-land surface interactions of the hydrological cycleEvaluating the Influence of Plant-Specific Physiological Parameterizations on the Partitioning of Land Surface Energy FluxesMonitoring and Modeling the Terrestrial System from Pores to Catchments: The Transregional Collaborative Research Center on Patterns in the Soil–Vegetation–Atmosphere SystemThe subsurface–land surface–atmosphere connection under convective conditionsA Scale-Consistent Terrestrial Systems Modeling Platform Based on COSMO, CLM, and ParFlowImplementation and scaling of the fully coupled Terrestrial Systems Modeling Platform (TerrSysMP v1.0) in a massively parallel supercomputing environment – a case study on JUQUEEN (IBM Blue Gene/Q)Surface-subsurface model intercomparison: A first set of benchmark results to diagnose integrated hydrology and feedbacksThe concept of dual-boundary forcing in land surface-subsurface interactions of the terrestrial hydrologic and energy cyclesIntroduction of an Experimental Terrestrial Forecasting/Monitoring System at Regional to Continental Scales Based on the Terrestrial System Modeling Platform (v1.1.0)
P50
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P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Mauro Sulis
@ast
Mauro Sulis
@en
Mauro Sulis
@es
Mauro Sulis
@nl
type
label
Mauro Sulis
@ast
Mauro Sulis
@en
Mauro Sulis
@es
Mauro Sulis
@nl
prefLabel
Mauro Sulis
@ast
Mauro Sulis
@en
Mauro Sulis
@es
Mauro Sulis
@nl
P108
P106
P108
P1153
26021535300
57200292470
P31
P496
0000-0002-3149-4096