Performance evaluation of evapotranspiration estimations in a model of soil water balance

## Abstract The validation of soil water balance models and the evaluation of the quality of the model predictions at field‐scale require time‐series of __in situ__ measured model outputs. In our study, we have validated such a model using a 6‐year period with time‐series of automatically recorded,

## Abstract Soil is the largest reservoir of water in a catchment and evapotranspiration is the largest yearly output flux of water from the soil in semiarid environments at the catchment scale. Hydrologic stress is one of the typical characteristics of semiarid environments. The shortage of water

This paper is the second in a series of three papers, dealing with the hydrology of a forested lowland catchment, within the context of soil acidification research. The hydrological behaviour of the unsaturated soil zone is described with the numerical simulation model SWIF. The first paper presents

The model SWIF (Soil Water In Forested ecosystems) is presented. SWIF is a model for the simulation of water flow in the unsaturated soil zone, including water extraction by roots and lateral saturated drainage. The model gives a halfimplicit finite difference solution to the flow equation. For mini

## Abstract Field experiments were conducted to investigate the effects of leaf area index and soil moisture content on evapotranspiration and its components within an apple orchard in northwest China for 2 years. Evapotranspiration in the non‐rainfall period was estimated using two approaches: the