Eastern white pine ring proxies show potential for climate reconstruction in a Canadian temperate forest

Labrecque-Foy, Julie-Pascale, Lemay, Marc-André, Gennaretti, Fabio, Boucher, Étienne, Arseneault, Dominique et Montoro Girona, Miguel ORCID: https://orcid.org/0000-0002-6916-3639 (2026). Eastern white pine ring proxies show potential for climate reconstruction in a Canadian temperate forest. Dendrochronologia , 96 . Article 126507. doi:10.1016/j.dendro.2026.126507 Repéré dans Depositum à https://depositum.uqat.ca/id/eprint/1824

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URL Officielle: https://doi.org/10.1016/j.dendro.2026.126507

Résumé

High-resolution climate reconstructions are needed to understand past and future climate–vegetation dynamics. However, climate reconstructions using ring width are scarce in temperate regions where climate has limited impacts on tree growth. In Témiscamingue, white pine sunken logs represent valuable archives for long-term climate reconstructions, but white pine’s response to climate variations in this temperate region is unknown. Moreover, the most suitable proxies for climate reconstruction in white pine—ring widths or stable isotopes—remain unclear. This study evaluates which proxy, or combination of proxies, best captures climate signals in white pine radial growth across contrasting soil drainage conditions. Ring widths were measured in 60 trees from Opémican National Park (30 on each of fast and moderate drainage conditions). Carbon and oxygen isotope ratios were analyzed from five trees per site over the period 1950–2020. Climatic data from ERA5 were used to calibrate response functions. June-August drought index (SPEI) as well as June-July precipitation and temperature were the dominant climatic drivers on all proxies, regardless of drainage type. Bayesian linear models revealed that combining carbon isotopes with ring-width data provided the most robust reconstruction of June–July precipitation ( = 0.43), that combining oxygen isotopes with ring widths yielded the best reconstruction of June–July temperatures (r = 0.49), and that combining carbon and oxygen isotopes produced the best reconstruction of June-August SPEI (r = 0.45). This study is among the first to demonstrate the potential of a multi-proxy approach for climate reconstruction using white pine. Our results provide insights that may guide future climate reconstructions in temperate regions, where tree species with lower climate sensitivity could also be considered.

Type de document:	Article
Informations complémentaires:	La version officielle de cet article a été publiée dans la revue Dendrochronologia en 2026. Le texte intégral de l’article est disponible en libre accès sur le site de la revue : https://doi.org/10.1016/j.dendro.2026.126507
Mots-clés libres:	Bayesian modeling; Climate change; Dendroclimatology; Stable isotopes Tree rings; Pinus strobus
Divisions:	Forêts
Date de dépôt:	26 mai 2026 17:56
Dernière modification:	26 mai 2026 17:56
URI:	https://depositum.uqat.ca/id/eprint/1824

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