Predicting species dominance shifts across elevation gradients in mountain forests in Greece under a warmer and drier climate

Authored by Nikolaos M Fyllas, Anastasia Christopoulou, Alexandros Galanidis, Chrysanthi Z Michelaki, Christos Giannakopoulos, Panayiotis G Dimitrakopoulos, Margarita Arianoutsou, Manuel Gloor

Date Published: 2017

DOI: 10.1007/s10113-016-1093-1

Sponsors: European Union

Platforms: No platforms listed

Model Documentation: Other Narrative

Model Code URLs: Model code not found

Abstract

The Mediterranean Basin is expected to face warmer and drier conditions in the future, following projected increases in temperature and declines in precipitation. The aim of this study is to explore how forests dominated by Abies borisii-regis, Abies cephalonica, Fagus sylvatica, Pinus nigra and Quercus frainetto will respond under such conditions. We combined an individual-based model (GREFOS), with a novel tree ring data set in order to constrain tree diameter growth and to account for inter- and intraspecific growth variability. We used wood density data to infer tree longevity, taking into account inter- and intraspecific variability. The model was applied at three 500-m-wide elevation gradients at Taygetos in Peloponnese, at Agrafa on Southern Pindos and at Valia Kalda on Northern Pindos in Greece. Simulations adequately represented species distribution and abundance across the elevation gradients under current climate. We subsequently used the model to estimate species and functional trait shifts under warmer and drier future conditions based on the IPCC A1B scenario. In all three sites, a retreat of less drought-tolerant species and an upward shift of more drought-tolerant species were simulated. These shifts were also associated with changes in two key functional traits, in particular maximum radial growth rate and wood density. Drought-tolerant species presented an increase in their average maximal growth and decrease in their average wood density, in contrast to less drought-tolerant species.

Tags

Climate change models modelling Drought growth Vegetation dynamics Traits Wood density Mediterranean basin Functional types Forest gap models Greece Mediterranean mountainous forests Trait plasticity Fire history Increment