Bristlecone Pine Maximum Latewood Density as a Superior Proxy for Millennium‐Length Temperature Reconstructions

T. De Mil; V. Matskovsky; M. Salzer; L. Corluy; L. Verschuren; C. Pearson; L. Van Hoorebeke; V. Trouet; J. Van den Bulcke

doi:10.1029/2024GL109799

Geophysical Research Letters (Aug 2024)

Bristlecone Pine Maximum Latewood Density as a Superior Proxy for Millennium‐Length Temperature Reconstructions

T. De Mil,
V. Matskovsky,
M. Salzer,
L. Corluy,
L. Verschuren,
C. Pearson,
L. Van Hoorebeke,
V. Trouet,
J. Van den Bulcke

Affiliations

T. De Mil: Forest Is Life TERRA Teaching and Research Centre Gembloux Agro Bio‐Tech University of Liège Gembloux Belgium
V. Matskovsky: UGent‐Woodlab Laboratory of Wood Technology Department of Environment Ghent University Ghent Belgium
M. Salzer: Laboratory of Tree‐Ring Research University of Arizona Tucson AZ USA
L. Corluy: UGent‐Woodlab Laboratory of Wood Technology Department of Environment Ghent University Ghent Belgium
L. Verschuren: UGent‐Woodlab Laboratory of Wood Technology Department of Environment Ghent University Ghent Belgium
C. Pearson: Laboratory of Tree‐Ring Research University of Arizona Tucson AZ USA
L. Van Hoorebeke: UGent Centre for X‐ray Tomography (UGCT) Ghent Belgium
V. Trouet: Laboratory of Tree‐Ring Research University of Arizona Tucson AZ USA
J. Van den Bulcke: UGent‐Woodlab Laboratory of Wood Technology Department of Environment Ghent University Ghent Belgium

DOI: https://doi.org/10.1029/2024GL109799
Journal volume & issue: Vol. 51, no. 15
pp. n/a – n/a

Abstract

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Abstract Bristlecone pine (Pinus longaeva) (PILO) trees exhibit exceptional longevity. Their tree‐ring width (TRW) series offer valuable insights into climatic variability. Maximum latewood density (MXD) typically correlates better with temperature variations than TRW, yet PILO MXD records are non‐existent due to methodological challenges related to tree‐ring structure. Here, we used an X‐ray Computed Tomography (X‐ray CT) toolchain on 51 PILO cores from the California White Mountains to build a chronology that correlates significantly (r = 0.66, p < 0.01) with warm‐season (March‐September) temperature over a large spatial extent. This led to the first X‐ray CT‐based temperature reconstruction (1625–2005 CE). Good reconstruction skill (RE = 0.51, CE = 0.32) shows that extending MXD records across the full length of the PILO archive could yield a robust warm‐season temperature proxy for the American Southwest over millennia. This breakthrough opens avenues for measuring MXD in other challenging conifers, increasing our understanding of past climate further, particularly in lower latitudes.

Published in Geophysical Research Letters

ISSN: 0094-8276 (Print); 1944-8007 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physics: Geophysics. Cosmic physics
Website: https://agupubs.onlinelibrary.wiley.com/journal/19448007

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