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Spanning traceroutes over modular networks and general scaling degree distributions.Ensemble Kalman filter versus particle filter for a physically-based coupled surface–subsurface modelThe influence of water table depth and the free atmospheric state on convective rainfall predispositionPlant-soil interactions in salt marsh environments: Experimental evidence from electrical resistivity tomography in the Venice LagoonTree root systems competing for soil moisture in a 3D soil–plant modelSaturated area dynamics and streamflow generation from coupled surface–subsurface simulations and field observationsReply to comment by L. R. Gardner on “Spatial organization and ecohydrological interactions in oxygen-limited vegetation ecosystems”Observation and modeling of catchment-scale solute transport in the hydrologic response: A tracer studySpatial organization and ecohydrological interactions in oxygen-limited vegetation ecosystemsA comparison of two physics-based numerical models for simulating surface water–groundwater interactionsOn the uniformity of anthropogenic Venice upliftSoil contamination and land subsidence raise concern in the Venice watershed, ItalyMultiresponse modeling of variably saturated flow and isotope tracer transport for a hillslope experiment at the Landscape Evolution ObservatoryAn iterative particle filter approach for coupled hydro-geophysical inversion of a controlled infiltration experimentCoupled inverse modeling of a controlled irrigation experiment using multiple hydro-geophysical dataA tracer test in a shallow heterogeneous aquifer monitored via time-lapse surface electrical resistivity tomographyThe integrated hydrologic model intercomparison project, IH-MIP2: A second set of benchmark results to diagnose integrated hydrology and feedbacksSurface-subsurface model intercomparison: A first set of benchmark results to diagnose integrated hydrology and feedbacksSurface-subsurface flow modeling with path-based runoff routing, boundary condition-based coupling, and assimilation of multisource observation dataComparison of Data Assimilation Techniques for a Coupled Model of Surface and Subsurface FlowEnsemble Kalman filter data assimilation for a process-based catchment scale model of surface and subsurface flowSpatial variability of CO2 efflux in a drained cropped peatland south of Venice, ItalyHydrological modeling in swelling/shrinking peat soilsIncipient subsurface heterogeneity and its effect on overland flow generation – insight from a modeling study of the first experiment at the Biosphere 2 Landscape Evolution ObservatoryAssessment of adaptive and heuristic time stepping for variably saturated flowBad behavior of Godunov mixed methods for strongly anisotropic advection–dispersion equationsCoupling water flow and solute transport into a physically-based surface–subsurface hydrological modelThree-dimensional mixed finite element-finite volume approach for the solution of density-dependent flow in porous mediaHigh order Godunov mixed methods on tetrahedral meshes for density driven flow simulations in porous mediaQ62925344Mixed-finite element and finite volume discretization for heavy brine simulations in groundwaterQ62925355A Time-Splitting Technique for the Advection-Dispersion Equation in GroundwaterLong term peatland subsidence: Experimental study and modeling scenarios in the Venice coastlandAnthropogenic Venice uplift by seawater pumping into a heterogeneous aquifer systemCan Venice be raised by pumping water underground? A pilot project to help decideSubsidence due to peat oxidation and impact on drainage infrastructures in a farmland catchment south of the Venice LagoonA reduced order model-based preconditioner for the efficient solution of transient diffusion equationsExamination of the seepage face boundary condition in subsurface and coupled surface/subsurface hydrological modelsFlow dynamics in hyper-saline aquifers: hydro-geophysical monitoring and modeling
P50
Q51707901-314C321C-6F42-49F6-9CBA-97552CB3B604Q53960068-032A3B01-7F82-4BB4-994B-094DF2A4A25BQ57253770-0F35B608-969B-423E-8BBE-9D2E772498D2Q57253782-C32BA928-54B4-4B30-8C2D-59A0807C3ADEQ57253791-2DB6338F-D6AA-452C-B0CB-0306E2B9B468Q57253802-4F496672-1DA7-44A7-967A-ABB0079D1D2FQ57253868-46CD7CDA-D0E7-4997-BE64-7780621966BAQ57253884-BF2B4219-1F81-4A59-A96F-030C49C5D39CQ57253931-511A2B88-4DF0-43B2-BB7C-58C0F41943CAQ57540923-E5286EFF-55C0-44AF-B902-4F2E0C94ED75Q57858827-99EB8EFC-16E7-46AC-8D3B-44A6293F1A3FQ57858903-D0E26834-C411-440F-8F59-E4B7055EF64FQ57863862-D31C01E9-4474-485B-AD73-D2026253D80FQ57872095-28C7192D-75B5-442F-BA52-E20979984C0FQ57872103-9B531BE3-FDB4-4775-A05D-05D3F4F1D57FQ57872144-42C822DA-CC51-4AB3-B330-05714357F5A4Q58102299-823AAEBD-2CB3-4297-B026-0E8F6CF6724AQ58102380-C9D360A1-865D-4079-8F44-7CF515457313Q58330188-819CAD4A-D503-46AA-A0FF-D1958982B7E6Q58330191-50F4489D-FA9F-41FB-B0DD-ED84B068DD8BQ58330193-B61AFF7E-F6AA-40FA-909D-2E9D9C5579ADQ58330196-3550B20B-5603-49DE-81D5-EAD9E80FE8B7Q58330201-97855D5E-C8B6-4AFF-A3E6-852B8E30B448Q58363788-9765A55E-98F1-4E7C-BEB8-F3FE7D082807Q58874075-CDF721D6-F206-4386-96B6-752573AD0402Q62925305-6DF08901-E48E-46C4-A5A6-02EEA13AAEFCQ62925306-7C85784C-8C48-4FF1-B66E-39A8E1457355Q62925326-3E8B88DA-6480-4B05-AAB6-AC701829946DQ62925329-BE324382-45F5-41C2-AA36-48D19B94F9CBQ62925344-11F35E32-51C7-40EA-8953-E5A2EFEEDECCQ62925346-D3E2F4A2-E5E6-401B-9F76-1B4A3F94994FQ62925355-2C9492EA-1649-4673-8C72-08BFDD9B4900Q62925360-29C11EB6-EBA2-4DC7-86FB-A5BB0E1711FEQ62925538-36AF4575-0A6D-4229-AD83-9D1EDDA0E8ECQ62925542-36113830-1C9E-4206-8B09-81FB9BE92451Q62925555-5DD55D34-913F-48EF-AA63-5E91587779C1Q62925582-6448B156-C5AF-4731-BB58-CEEC5D69B010Q62925826-B29BB132-0236-4115-824D-1D7F34FFD625Q62925828-7D6DD4C3-D371-4822-AF0D-0AB35713F46DQ62925832-29D558D8-2809-469F-81B3-4C61424FBDFD
P50
description
researcher, ORCID id # 0000-0002-0382-0202
@en
wetenschapper
@nl
name
Mario Putti
@ast
Mario Putti
@en
Mario Putti
@es
Mario Putti
@nl
type
label
Mario Putti
@ast
Mario Putti
@en
Mario Putti
@es
Mario Putti
@nl
prefLabel
Mario Putti
@ast
Mario Putti
@en
Mario Putti
@es
Mario Putti
@nl
P106
P21
P2456
P31
P496
0000-0002-0382-0202