Groundwater is by far the largest unfrozen freshwater resource on the planet. It plays a
critical role as the bottom of the hydrologic cycle, redistributing water in the subsurface and …

Many physical, chemical and biological processes taking place at the land surface are
strongly influenced by the amount of water stored within the upper soil layers. Therefore …

Rainfall-Runoff Modelling: The Primer, Second Edition is the follow-up of this popular and
authoritative text, first published in 2001. The book provides both a primer for the novice and …

Surface flow and subsurface flow constitute a naturally linked hydrologic continuum that has
not traditionally been simulated in an integrated fashion. Recognizing the interactions …

Soil moisture is a key participant in land‐atmosphere interactions and an important
determinant of terrestrial climate. In regions where the water table is shallow, soil moisture is …

This study combines a variably-saturated groundwater flow model and a mesoscale
atmospheric model to examine the effects of soil moisture heterogeneity on atmospheric …

A highly modular and scale-consistent Terrestrial Systems Modeling Platform (TerrSysMP) is
presented. The modeling platform consists of an atmospheric model (Consortium for Small …

We present the results of a unique, parallel scaling study using a 3‐D variably saturated flow
problem including land surface processes that ranges from a single processor to a maximum …

Over the last 100 years, boundary layer meteorology grew from the subject of mostly near-
surface observations to a field encompassing diverse atmospheric boundary layers (ABLs) …

The fluxes of water and energy between the land surface and atmosphere involve many
complex non-linear processes. In this study, the Noah and Noah-MP land surface models …