Title
FOREST-BGC, A general model of forest ecosystem processes for regional applications. II. Dynamic carbon allocation and nitrogen budgets
Document Type
Article
Publication Title
Tree Physiology
Publication Date
7-1991
Volume
9
Issue
1-2
First Page
147
Last Page
160
Abstract
A new version of the ecosystem process model FOREST-BGC is presented that uses stand water and nitrogen limitations to alter the leaf/root/stem carbon allocation fraction dynamically at each annual iteration. Water deficit is defined by integrating a daily soil water deficit fraction annually. Current nitrogen limitation is defined relative to a hypothetical optimum foliar N pool, computed as maximum leaf area index multiplied by maximum leaf nitrogen concentration. Decreasing availability of water or nitrogen, or both, reduces the leaf/root carbon partitioning ratio. Leaf and root N concentrations, and maximum leaf photosynthetic capacity are also redefined annually as functions of nitrogen availability. Test simulations for hypothetical coniferous forests were performed for Madison, WI and Missoula, MT, and showed simulated leaf area index ranging from 4.5 for a control stand at Missoula, to 11 for a fertilized stand at Madison, with Year 50 stem carbon biomasses of 31 and 128 Mg ha−1, respectively. Total nitrogen incorporated into new tissue ranged from 34 kg ha−1 year−1 for the unfertilized Missoula stand, to 109 kg ha−1 year−1 for the fertilized Madison stand. The model successfully showed dynamic annual carbon partitioning controlled by water and nitrogen limitations.
DOI
https://doi.org/10.1093/treephys/9.1-2.147
Rights
© 1991 Oxford University Press
Recommended Citation
Steven W. Running, Stith T. Gower; FOREST-BGC, A general model of forest ecosystem processes for regional applications. II. Dynamic carbon allocation and nitrogen budgets. Tree Physiol 1991; 9 (1-2): 147-160. doi: 10.1093/treephys/9.1-2.147