Publication |
|
Van Oijen M., Cameron D.R., Butterbach-Bahl K., Farahbakhshazad N., Jansson P.-E., Kiese R., Rahn K.-H., Werner C., Yeluripati J.B. (2011) A Bayesian framework for model calibration, comparison and analysis: Application to four models for the biogeochemistry of a Norway spruce forest. Agricultural and Forest Meteorology 151 (2011) 1609– 1621
|
Learn More
|
Wolf B., Kiese R., Chen W., Grote R., Zheng X., Butterbach-Bahl K. (2012) Modeling N2O emissions from steppe in Inner Mongolia, China, with consideration of spring thaw and grazing intensity. Plant Soil (2012) 350:297–310
|
Learn More
|
Extending a physiological forest model by an observation-based tree competition module improves spatial representation of diameter growth
|
Learn More
|
Integrating mycorrhiza in a complex model system - effects on ecosystem C and N fluxes
|
Learn More
|
Overlooking the canopy: The importance of canopy structure in scaling isoprenoid emissions from leaf to canopy
|
Learn More
|
Challenges for evaluating process-based models of gas exchange at forest sites with fetches of various species
|
Learn More
|
Modelling forest carbon balances considering tree mortality and removal
|
Learn More
|
Modelling of microbial carbon and nitrogen turnover in soil with special emphasis on N-trace gases emission
|
Learn More
|
Evaluation of a process-based ecosystem model for long-term biomass and stand development of Eucalyptus globulus plantations
|
Learn More
|
Water fluxes within beech stands in complex terrain
|
Learn More
|
Process-based modelling of seasonality and drought stress in isoprenoid emission models
|
Learn More
|
Modelling and observation of biosphere-atmosphere interactions in natural savannah in Burkina Faso, West Africa
|
Learn More
|
Modelling the drought impact on monoterpene fluxes from an evergreen Mediterranean forest canopy
|
Learn More
|
Model evaluation of different mechanisms driving freeze-thaw N2O emissions
|
Learn More
|
A new Modular Biosphere Simulation Framework. In: Geophysical Research Abstracts
|
Learn More
|