Dendrochronological Analysis of Pinus pinea in Central Chile and South Spain for Sustainable Forest Management

Dendrochronological Analysis of Pinus pinea in Central Chile and South Spain for Sustainable Forest Management

is an important Mediterranean species due to its adaptability and tolerance to aridity and its high-quality pine nuts. Different forest types located in Mediterranean native and non-native environments provide the opportunity to perform comparative studies on the species' response to climate ch...

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Bibliographic Details
Published in:Biology (Basel, Switzerland) Vol. 13; no. 8; p. 628
Main Authors: Loewe-Muñoz, Verónica, Cachinero-Vivar, Antonio M, Camarero, Jesús Julio, Río, Rodrigo Del, Delard, Claudia, Navarro-Cerrillo, Rafael M
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 17-08-2024
MDPI
Subjects:
Adaptability
Arid environments
aridity
Autumn
Climate change
Climatic conditions
Datasets
Dendrochronology
Drought
Economic importance
Environmental conditions
Forest management
growth dynamics
Growth patterns
Indigenous species
natural forest
Pinus pinea
Plantations
Precipitation
Rain
Rainfall
Software
stem diameter growth
stone pine plantation
Summer
tree-ring analysis
Trees
Variance analysis
Winter
Chile
Spain
aridity
tree-ring analysis
natural forest
stem diameter growth
stone pine plantation
growth dynamics
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Summary:is an important Mediterranean species due to its adaptability and tolerance to aridity and its high-quality pine nuts. Different forest types located in Mediterranean native and non-native environments provide the opportunity to perform comparative studies on the species' response to climate change. The aims of this study were to elucidate growth patterns of the species growing in native and exotic habitats and to analyze its response to climatic fluctuations, particularly drought, in both geographical contexts. Understanding stone pine ( ) growth responses to climate variability in native and exotic habitats by comparing natural stands and plantations may provide useful information to plan adequate management under climate change. By doing so, we enhance the understanding of 's adaptability and provide practical approaches to its sustainable management. In this study, we reconstructed and compared the stem radial growth of seven stone pine stands, two in southern Spain and five in central-southern Chile, growing under different climatic conditions. We quantified the relationships between growth variability and climate variables (total rainfall, mean temperature, and SPEI drought index). Growth was positively correlated with autumn rainfall in plantations and with autumn-winter rainfall in natural stands. Growth was also enhanced by high autumn-to-spring rainfall in the driest Chilean plantation, whereas in the wettest and coolest plantation, such correlation was found in winter and summer. A negative impact of summer temperature was found only in one of the five Chilean plantations and in a Spanish site. The correlation between SPEI and tree-ring width indices showed different patterns between and within countries. Overall, exotic plantations showed lower sensitivity to climate variability than native stands. Therefore, stone pine plantations may be useful to assist in mitigating climate change.
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ISSN:2079-7737
2079-7737
DOI:10.3390/biology13080628