Forest structural diversity modulates tree growth synchrony in response to climate change

IF 3.7 2区农林科学 Q1 FORESTRY

Forest Ecology and Management Pub Date : 2025-01-21 DOI:10.1016/j.foreco.2025.122505

Julen Astigarraga , Joaquín Calatayud , Paloma Ruiz-Benito , Jaime Madrigal-González , Julián Tijerín-Triviño , Miguel A. Zavala , Enrique Andivia , Asier Herrero

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引用次数: 0

Abstract

Following centuries of deforestation, many industrialized countries have experienced an increase in forest area and biomass due to changes in land- and forest-use since the mid-20th century. At the same time, the impacts of climate change on forests are aggravating, but the interplay between past land- and forest-use (i.e. land- and forest-use legacies) and climate change in tree growth remains elusive. Tree growth synchrony, defined as the coincident increase in annual tree growth between different tree individuals over time, represents a comprehensive ecological measure of the level of environmental stress faced by forests, and consequently, can assess forest vulnerability to global change. Here using network theory and generalized linear mixed models, we tested whether tree size heterogeneity, resulting from different land- and forest-use legacies (i.e. recently-established, long-established, recently-pruned pollards and old-pruned pollards), modulated tree growth synchrony in response to heatwaves frequency synchrony between 1970 and 2020. We analyzed tree growth data from European beech (Fagus sylvatica L.) stands with different histories of forest management at the species’ low-latitude margin. We found increased tree growth synchrony under more frequent heatwaves and late spring frosts, and reduced precipitation. Interestingly, tree growth synchrony in response to heatwave frequency was modulated by tree size heterogeneity, with the highest synchrony observed in stands with low tree size heterogeneity, mainly found in recently-established forests. Conversely, stands with high tree size heterogeneity did not show important changes in synchrony with increasing heatwaves frequency. Our results highlight the importance of maintaining structurally diverse forests to mitigate the negative effects of climate change on forest productivity, and thereby, increase forest resilience to future forest climate risks.

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来源期刊

Forest Ecology and Management 农林科学-林学

CiteScore

7.50

自引率

10.80%

发文量

665

审稿时长

39 days

期刊介绍： Forest Ecology and Management publishes scientific articles linking forest ecology with forest management, focusing on the application of biological, ecological and social knowledge to the management and conservation of plantations and natural forests. The scope of the journal includes all forest ecosystems of the world. A peer-review process ensures the quality and international interest of the manuscripts accepted for publication. The journal encourages communication between scientists in disparate fields who share a common interest in ecology and forest management, bridging the gap between research workers and forest managers. We encourage submission of papers that will have the strongest interest and value to the Journal''s international readership. Some key features of papers with strong interest include: 1. Clear connections between the ecology and management of forests; 2. Novel ideas or approaches to important challenges in forest ecology and management; 3. Studies that address a population of interest beyond the scale of single research sites, Three key points in the design of forest experiments, Forest Ecology and Management 255 (2008) 2022-2023); 4. Review Articles on timely, important topics. Authors are welcome to contact one of the editors to discuss the suitability of a potential review manuscript. The Journal encourages proposals for special issues examining important areas of forest ecology and management. Potential guest editors should contact any of the Editors to begin discussions about topics, potential papers, and other details.