Litcius/Paper detail

Spatio‐Temporal Machine Learning for Regional to Continental Scale Terrestrial Hydrology

Andrew Bennett, Hoang Tran, Luis De La Fuente, Amanda Triplett, Yueling Ma, P. Melchior, R. M. Maxwell, Laura E. Condon

2024Journal of Advances in Modeling Earth Systems16 citationsDOIOpen Access PDF

Abstract

Abstract Integrated hydrologic models can simulate coupled surface and subsurface processes but are computationally expensive to run at high resolutions over large domains. Here we develop a novel deep learning model to emulate subsurface flows simulated by the integrated ParFlow‐CLM model across the contiguous US. We compare convolutional neural networks like ResNet and UNet run autoregressively against our novel architecture called the Forced SpatioTemporal RNN (FSTR). The FSTR model incorporates separate encoding of initial conditions, static parameters, and meteorological forcings, which are fused in a recurrent loop to produce spatiotemporal predictions of groundwater. We evaluate the model architectures on their ability to reproduce 4D pressure heads, water table depths, and surface soil moisture over the contiguous US at 1 km resolution and daily time steps over the course of a full water year. The FSTR model shows superior performance to the baseline models, producing stable simulations that capture both seasonal and event‐scale dynamics across a wide array of hydroclimatic regimes. The emulators provide over 1,000× speedup compared to the original physical model, which will enable new capabilities like uncertainty quantification and data assimilation for integrated hydrologic modeling that were not previously possible. Our results demonstrate the promise of using specialized deep learning architectures like FSTR for emulating complex process‐based models without sacrificing fidelity.

Topics & Concepts

Computer scienceHydrological modellingSpeedupScale (ratio)Convolutional neural networkWater tableClimate modelRecurrent neural networkEnvironmental scienceArtificial neural networkArtificial intelligenceGroundwaterClimate changeClimatologyGeologyParallel computingCartographyGeotechnical engineeringOceanographyGeographyHydrology and Watershed Management StudiesHydrological Forecasting Using AIMeteorological Phenomena and Simulations