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. 2024 Oct;30(10):e17546.
doi: 10.1111/gcb.17546.

No Future Growth Enhancement Expected at the Northern Edge for European Beech due to Continued Water Limitation

Stefan Klesse  1   2 Richard L Peters  3   4 Raquel Alfaro-Sánchez  5   6 Vincent Badeau  7 Claudia Baittinger  8 Giovanna Battipaglia  9 Didier Bert  10 Franco Biondi  11 Michal Bosela  12   13 Marius Budeanu  14 Vojtěch Čada  15 J Julio Camarero  16 Liam Cavin  17 Hugues Claessens  18 Ana-Maria Cretan  19 Katarina Čufar  20 Martin de Luis  21 Isabel Dorado-Liñán  22 Choimaa Dulamsuren  23 Josep Maria Espelta  24 Balazs Garamszegi  25 Michael Grabner  25 Jozica Gricar  26 Andrew Hacket-Pain  27 Jon Kehlet Hansen  28 Claudia Hartl  29 Andrea Hevia  30   31 Martina Hobi  1 Pavel Janda  15 Alistair S Jump  17 Jakub Kašpar  32 Marko Kazimirović  33 Srdjan Keren  34 Juergen Kreyling  35 Alexander Land  36 Nicolas Latte  18 François Lebourgeois  7 Christoph Leuschner  37 Mathieu Lévesque  38 Luis A Longares  21 Edurne Martinez Del Castillo  39 Annette Menzel  40 Maks Merela  20 Martin Mikoláš  15 Renzo Motta  41 Lena Muffler  37   42 Anna Neycken  1   38 Paola Nola  43 Momchil Panayotov  44 Any Mary Petritan  14 Ion Catalin Petritan  19 Ionel Popa  45   46 Peter Prislan  26 Tom Levanič  26 Catalin-Constantin Roibu  47 Álvaro Rubio-Cuadrado  16   22 Raúl Sánchez-Salguero  31 Pavel Šamonil  32   48 Branko Stajić  33 Miroslav Svoboda  15 Roberto Tognetti  49 Elvin Toromani  50 Volodymyr Trotsiuk  1 Ernst van der Maaten  51 Marieke van der Maaten-Theunissen  51 Astrid Vannoppen  52 Ivana Vašíčková  32 Georg von Arx  1   2 Martin Wilmking  35 Robert Weigel  37   42 Tzvetan Zlatanov  53 Christian Zang  54 Allan Buras  55
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Free article

No Future Growth Enhancement Expected at the Northern Edge for European Beech due to Continued Water Limitation

Stefan Klesse et al. Glob Chang Biol. 2024 Oct.
Free article

Abstract

With ongoing global warming, increasing water deficits promote physiological stress on forest ecosystems with negative impacts on tree growth, vitality, and survival. How individual tree species will react to increased drought stress is therefore a key research question to address for carbon accounting and the development of climate change mitigation strategies. Recent tree-ring studies have shown that trees at higher latitudes will benefit from warmer temperatures, yet this is likely highly species-dependent and less well-known for more temperate tree species. Using a unique pan-European tree-ring network of 26,430 European beech (Fagus sylvatica L.) trees from 2118 sites, we applied a linear mixed-effects modeling framework to (i) explain variation in climate-dependent growth and (ii) project growth for the near future (2021-2050) across the entire distribution of beech. We modeled the spatial pattern of radial growth responses to annually varying climate as a function of mean climate conditions (mean annual temperature, mean annual climatic water balance, and continentality). Over the calibration period (1952-2011), the model yielded high regional explanatory power (R2 = 0.38-0.72). Considering a moderate climate change scenario (CMIP6 SSP2-4.5), beech growth is projected to decrease in the future across most of its distribution range. In particular, projected growth decreases by 12%-18% (interquartile range) in northwestern Central Europe and by 11%-21% in the Mediterranean region. In contrast, climate-driven growth increases are limited to around 13% of the current occurrence, where the historical mean annual temperature was below ~6°C. More specifically, the model predicts a 3%-24% growth increase in the high-elevation clusters of the Alps and Carpathian Arc. Notably, we find little potential for future growth increases (-10 to +2%) at the poleward leading edge in southern Scandinavia. Because in this region beech growth is found to be primarily water-limited, a northward shift in its distributional range will be constrained by water availability.

Keywords: Fagus sylvatica; climate change; climate sensitivity; drought; growth projection; leading edge; trailing edge; tree rings.

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