Site- and species-specific responses of forest growth to climate across the European continent

Babst, Flurin; Poulter, Benjamin; Trouet, Valerie; Tan, Kun; Neuwirth, Burkhard; Wilson, Robert; Carrer, Marco; Grabner, Michael; Tegel, Willy; Levanic, Tom; Panayotov, Momchil; Urbinati, Carlo; Bouriaud, Olivier; Ciais, Philippe; Frank, David (2013). Site- and species-specific responses of forest growth to climate across the European continent. Global Ecology and Biogeography, 22(6), pp. 706-717. Wiley-Blackwell 10.1111/geb.12023

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Aim

To evaluate the climate sensitivity of model-based forest productivity estimates using a continental-scale tree-ring network.
Location

Europe and North Africa (30–70° N, 10° W–40° E).

Methods

We compiled close to 1000 annually resolved records of radial tree growth for all major European tree species and quantified changes in growth as a function of historical climatic variation. Sites were grouped using a neural network clustering technique to isolate spatiotemporal and species-specific climate response patterns. The resulting empirical climate sensitivities were compared with the sensitivities of net primary production (NPP) estimates derived from the ORCHIDEE-FM and LPJ-wsl dynamic global vegetation models (DGVMs).

Results

We found coherent biogeographic patterns in climate response that depend upon (1) phylogenetic controls and (2) ambient environmental conditions delineated by latitudinal/elevational location. Temperature controls dominate forest productivity in high-elevation and high-latitude areas whereas moisture sensitive sites are widespread at low elevation in central and southern Europe. DGVM simulations broadly reproduce the empirical patterns, but show less temperature sensitivity in the boreal zone and stronger precipitation sensitivity towards the mid-latitudes.

Main conclusions

Large-scale forest productivity is driven by monthly to seasonal climate controls, but our results emphasize species-specific growth patterns under comparable environmental conditions. Furthermore, we demonstrate that carry-over effects from the previous growing season can significantly influence tree growth, particularly in areas with harsh climatic conditions – an element not considered in most current-state DGVMs. Model–data discrepancies suggest that the simulated climate sensitivity of NPP will need refinement before carbon-cycle climate feedbacks can be accurately quantified.

Item Type:	Journal Article (Original Article)
Division/Institute:	10 Strategic Research Centers > Oeschger Centre for Climate Change Research (OCCR) 08 Faculty of Science > Institute of Geography > Physical Geography
UniBE Contributor:	Frank, David
Subjects:	900 History > 910 Geography & travel
ISSN:	1466-822X
Publisher:	Wiley-Blackwell
Language:	English
Submitter:	Monika Wälti-Stampfli
Date Deposited:	11 Aug 2014 14:27
Last Modified:	05 Dec 2022 14:32
Publisher DOI:	10.1111/geb.12023
Uncontrolled Keywords:	Climate impacts, dendroclimatology, DGVM, forest ecology, forest productivity, LPJ, NPP, ORCHIDEE, terrestrial carbon cycle, tree-ring
BORIS DOI:	10.7892/boris.49664
URI:	https://boris.unibe.ch/id/eprint/49664

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