Article
Analyses from stand to tree level allow disentangling the effects of age, size, origin and competition on tree growth sensitivity to climate in natural and afforested Scots pine forests
Author/s | Rubio Cuadrado, Álvaro
Montes, Fernando Alberdi, Iciar Cañellas, Isabel Aulló Maestro, Isabel Sánchez Salguero, Raúl Hevia Cabal, Andrea Camarero, J. Julio |
Department | Universidad de Sevilla. Departamento de Biología Vegetal y Ecología |
Publication Date | 2024-07-21 |
Deposit Date | 2024-08-26 |
Published in |
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Abstract | The sensitivity of tree growth to climate is conditioned by several variables, often intermingled, such as the origin of the forest (natural vs. artificial), tree age, tree size and tree-to-tree competition. The effect of ... The sensitivity of tree growth to climate is conditioned by several variables, often intermingled, such as the origin of the forest (natural vs. artificial), tree age, tree size and tree-to-tree competition. The effect of these variables is usually inferred from average growth series obtained at the stand level, thus ignoring the differences at the individual tree level and their drivers. Our objective is to disentangle the effects of stand origin, age, size, competition and social status on the sensitivity of tree growth to climate, including the effects of extreme climatic events, such as droughts, on resistance and resilience, and also to show the advantages of using a tree-level approach. To this end, we compared four stands of Pinus sylvestris with contrasting characteristics: young afforested, young of natural origin, old afforested and old of natural origin. We analyzed differences in growth sensitivity to climate at both stand and tree levels to compare both approaches. Our results show the great complexity of the relationships of the variables considered with the sensitivity of growth to climate. All these variables are important and with strong interactions between them, which makes their effects not unidirectional and strongly dependent on the site conditions. While the stand approach hides these interactions, the tree-level approach makes it possible to analyze them in detail. In general, the sensitivity of growth to climate increases with age, diameter, afforested origin, decreasing competition and higher social status; growth resistance increases with age, decreasing diameter, afforested origin, decreasing competition and higher social status; and growth resilience increases with age, diameter, natural origin, decreasing competition and higher social status. We show the usefulness of the analysis of data at individual tree level, which, combined with the joint analysis at stand level, allows us to obtain more accurate and detailed information. |
Funding agencies | European Union (UE). H2020 Consejo Superior de Investigaciones Científicas (CSIC) Ministerio de Ciencia e Innovación (MICIN). España Agencia Estatal de Investigación. España Universidad de Sevilla |
Project ID. | SUPERB H2020-101036849
IFN-2021 TED2021-129770B-C21 PID2020-119204RB-C22 VII-PPITUS 2022 |
Citation | Rubio Cuadrado, Á., Montes, F., Alberdi, I., Cañellas, I., Aulló Maestro, I., Sánchez Salguero, R.,...,Camarero, J.J. (2024). Analyses from stand to tree level allow disentangling the effects of age, size, origin and competition on tree growth sensitivity to climate in natural and afforested Scots pine forests. Agricultural and Forest Meteorology, 355, 110148. https://doi.org/10.1016/j.agrformet.2024.110148. |
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