TY - CHAP
T1 - Modelling change in ground vegetation response to acid and nitrogen pollution, climate change and forest management at in Sweden 1500-2100 A.D.
AU - Sverdrup, Harald
AU - Belyazid, Salim
AU - Nihlgård, Bengt
AU - Ericson, Lars
PY - 2007
Y1 - 2007
N2 - The ForSAFE model, designed for modelling biogeochemical cycles (water, acidity, base cation, nitrogen and carbon) in terrestrial ecosystems, was modified with a vegetation response module (VEG), incorporating the effects of: nitrogen pollution, acidification, soil moisture, temperature, wind chill exposure, light and shading by trees, grazing by animals, competition between plants, above ground for light and below ground for water and nutrients. The model calculates the response of important ground vegetation plant groups. The integrated model was tested and validated at integrated level II forest monitoring sites across Sweden. Four are shown here, and are used to assess the effect of acidification and nitrogen pollution in relation to factors such as climate change, forest management and changing grazing pressure. The response functions have been derived from single-factor experiments and integrated through the model structure for use on whole systems. The tests with the model suggest that the ground vegetation composition is reasonably well predicted, that much research remains before the model is fully tested and operational, and that the model may serve as a tool for assessing impacts of climate change, acid rain and forest management on plant biodiversity in forested areas.
AB - The ForSAFE model, designed for modelling biogeochemical cycles (water, acidity, base cation, nitrogen and carbon) in terrestrial ecosystems, was modified with a vegetation response module (VEG), incorporating the effects of: nitrogen pollution, acidification, soil moisture, temperature, wind chill exposure, light and shading by trees, grazing by animals, competition between plants, above ground for light and below ground for water and nutrients. The model calculates the response of important ground vegetation plant groups. The integrated model was tested and validated at integrated level II forest monitoring sites across Sweden. Four are shown here, and are used to assess the effect of acidification and nitrogen pollution in relation to factors such as climate change, forest management and changing grazing pressure. The response functions have been derived from single-factor experiments and integrated through the model structure for use on whole systems. The tests with the model suggest that the ground vegetation composition is reasonably well predicted, that much research remains before the model is fully tested and operational, and that the model may serve as a tool for assessing impacts of climate change, acid rain and forest management on plant biodiversity in forested areas.
KW - Biodiversity
KW - Climate change
KW - ForSAFE model
KW - Pollution
KW - Soil
KW - Vegetation
UR - http://www.scopus.com/inward/record.url?scp=84885768390&partnerID=8YFLogxK
U2 - 10.1007/978-1-4020-5885-1_19
DO - 10.1007/978-1-4020-5885-1_19
M3 - Chapter
AN - SCOPUS:84885768390
SN - 9781402058844
SP - 163
EP - 179
BT - Acid Rain - Deposition to Recovery
PB - Springer Netherlands
ER -