A semi-empirical soil acidification model was developed for use in integrated assessment models on a European scale. The model simulates the time development of base saturation and aluminium concentration using an empirical relationship with pH. An accompanying data set was developed by overlaying European maps of soils, land use, climate and altitude followed by a procedure that aggragates the input data over soil-texture combinations in each EMEP 150 km x 150 km grid cell. Model tests show that themodel gives results comparable to the SMART model, although it overestimates initial base saturation in some areas with high acid input and simulates a faster recovery from acidification than SMART
Atmospheric deposition of SO x , NOx and NHx will cause major changes in the chemical composition of...
Atmospheric deposition of SO <sub>x</sub> , NOx and NHx will cause major changes in the chemical com...
Dynamic biogeochemistry models are important tools for determining the time-scales of recovery from ...
A semi-empirical soil acidification model was developed for use in integrated assessment models on a...
An overview is given of three dynamic soil acidification models for application on different spatial...
This paper briefly describes a set of models which can be used to assist decision makers in their ev...
The dynamic soil acidification model SAFE was applied to 44 forested sites in Skåne, southern Sweden...
A regional soil acidification model was developed by integration and adaptation of existing models. ...
Dynamic models for soil and water acidification and recovery are becoming increasingly important too...
A one-layer (SMART) and a multi-layer (RESAM) soil acidification model with temporal resolutions of ...
Three dynamic soil acidification models have been developed for application on local, national and c...
A soil acidification model has been developed to estimate long-term chemical changes in soil and soi...
International audienceA two-layer application of the catchment-based soil and surface water acidific...
We report here the application of 4 dynamic prosess-oriented models of soil and water acidification ...
Long-term impacts of acidic depositions on soils can be predicted with coupled applications of acid ...
Atmospheric deposition of SO x , NOx and NHx will cause major changes in the chemical composition of...
Atmospheric deposition of SO <sub>x</sub> , NOx and NHx will cause major changes in the chemical com...
Dynamic biogeochemistry models are important tools for determining the time-scales of recovery from ...
A semi-empirical soil acidification model was developed for use in integrated assessment models on a...
An overview is given of three dynamic soil acidification models for application on different spatial...
This paper briefly describes a set of models which can be used to assist decision makers in their ev...
The dynamic soil acidification model SAFE was applied to 44 forested sites in Skåne, southern Sweden...
A regional soil acidification model was developed by integration and adaptation of existing models. ...
Dynamic models for soil and water acidification and recovery are becoming increasingly important too...
A one-layer (SMART) and a multi-layer (RESAM) soil acidification model with temporal resolutions of ...
Three dynamic soil acidification models have been developed for application on local, national and c...
A soil acidification model has been developed to estimate long-term chemical changes in soil and soi...
International audienceA two-layer application of the catchment-based soil and surface water acidific...
We report here the application of 4 dynamic prosess-oriented models of soil and water acidification ...
Long-term impacts of acidic depositions on soils can be predicted with coupled applications of acid ...
Atmospheric deposition of SO x , NOx and NHx will cause major changes in the chemical composition of...
Atmospheric deposition of SO <sub>x</sub> , NOx and NHx will cause major changes in the chemical com...
Dynamic biogeochemistry models are important tools for determining the time-scales of recovery from ...
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