Simulating Carbon Stocks and Fluxes of an African Tropical Montane Forest with an Individual-Based Forest Model
Autor(en): | Fischer, Rico Ensslin, Andreas Rutten, Gemma Fischer, Markus Costa, David Schellenberger Kleyer, Michael Hemp, Andreas Paulick, Sebastian Huth, Andreas |
Stichwörter: | BIOMASS; CLIMATE-CHANGE; DYNAMICS; GROWTH; LONG-TERM IMPACTS; MT. KILIMANJARO; Multidisciplinary Sciences; NET ECOSYSTEM EXCHANGE; PRODUCTIVITY; RAIN-FOREST; Science & Technology - Other Topics; TEMPERATE | Erscheinungsdatum: | 2015 | Herausgeber: | PUBLIC LIBRARY SCIENCE | Journal: | PLOS ONE | Volumen: | 10 | Ausgabe: | 4 | Zusammenfassung: | Tropical forests are carbon-dense and highly productive ecosystems. Consequently, they play an important role in the global carbon cycle. In the present study we used an individual-based forest model (FORMIND) to analyze the carbon balances of a tropical forest. The main processes of this model are tree growth, mortality, regeneration, and competition. Model parameters were calibrated using forest inventory data from a tropical forest at Mt. Kilimanjaro. The simulation results showed that the model successfully reproduces important characteristics of tropical forests (aboveground biomass, stem size distribution and leaf area index). The estimated aboveground biomass (385 t/ha) is comparable to biomass values in the Amazon and other tropical forests in Africa. The simulated forest reveals a gross primary production of 24 t(c)ha(-1)yr(-1). Modeling above-and belowground carbon stocks, we analyzed the carbon balance of the investigated tropical forest. The simulated carbon balance of this old-growth forest is zero on average. This study provides an example of how forest models can be used in combination with forest inventory data to investigate forest structure and local carbon balances. |
ISSN: | 19326203 | DOI: | 10.1371/journal.pone.0123300 |
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geprüft am 19.05.2024