%0 Journal Article 
%A Sáez Cano, Guadalupe
%A Marvá Ruiz, Marcos
%A Ruiz Benito, Paloma
%A Zavala Gironés, Miguel Ángel de
%T Modelling tree growth in monospecific forests from forest inventory data
%D 2021
%@ 1999-4907
%U http://hdl.handle.net/10017/50732
%X The prediction of tree growth is key to further understand the carbon sink role of forests and the short-term forest capacity on climate change mitigation. In this work, we used large-scale data available from three consecutive forest inventories in a Euro-Mediterranean region and the Bertalanffy?Chapman?Richards equation to model up to a decade?s tree size variation in monospecific forests in the growing stages. We showed that a tree-level fitting with ordinary differential equations can be used to forecast tree diameter growth across time and space as function of environmental characteristics and initial size. This modelling approximation was applied at different aggregation levels to monospecific regions with forest inventories to predict trends in aboveground tree biomass stocks. Furthermore, we showed that this model accurately forecasts tree growth temporal dynamics as a function of size and environmental conditions. Further research to provide longer term prediction forest stock dynamics in a wide variety of forests should model regeneration and mortality processes and biotic interactions.
%K Carbon storage
%K Differential equations
%K National Forest Inventory
%K Dbh dynamics
%K Short-term prediction
%K Medio Ambiente
%K Environmental science
%~ Biblioteca Universidad de Alcala