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June 3rd, 2025
Version: 2
University of Torino
plant biology
biorxiv

The signature of reproduction on wood anatomy in European beech reveals potential for masting reconstruction

Resente, G.Open in Google Scholar•Crivellaro, A.Open in Google Scholar•Fleurot, E.Open in Google Scholar•Piermattei, A.Open in Google Scholar•Maimone, F.Open in Google Scholar•Wilmking, M.Open in Google Scholar•Hacket-Pain, A.Open in Google Scholar•Motta, R.Open in Google Scholar•Ascoli, D.Open in Google Scholar

O_LIWe investigated the potential of wood anatomical traits to improve the reconstruction of masting events--variable and synchronized patterns of seed production --which are key to understanding tree species responses to current and predicted climate variability. Traditional reliance on tree-ring width as a proxy for reproduction is limited, as growth reductions can also result from drought and other stressors. C_LIO_LIWe analyzed 12 beech cores from North-East Germany, building a 52-year dataset. A wide range of wood anatomical traits was assessed to disentangle the effects of masting and drought. We used multivariate regression and developed a random forest model to evaluate the predictive power of these traits compared to tree ring width alone. C_LIO_LIResults suggested a complex mechanism of carbon reallocation towards reproduction, while reflecting a compensatory strategy to maintain hydraulic function and mechanical stability under resource-constrained conditions. Number of parenchyma cells, vessel density, and lignin content estimates emerged as key predictors for masting, outperforming tree-ring width in capturing the reproductive signal. C_LIO_LIOur findings establish a novel link between wood anatomy and masting events, demonstrating that quantitative wood anatomical traits offer a more accurate and ecologically relevant approach for reconstructing past masting dynamics. C_LI

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