Publication details

Tree-ring stable isotopes in cellulose and lignin methoxy groups reveal different age-related behaviour

Authors

WIELAND Anna RÖMER Philipp TORBENSON Max GREULE Markus URBAN Otmar ČÁSLAVSKÝ Josef PERNICOVÁ Natálie TRNKA Miroslav BÜNTGEN Ulf ESPER Jan KEPPLER Frank

Year of publication 2024
Type Article in Periodical
Magazine / Source Quaternary International
MU Faculty or unit

Faculty of Science

Citation
Web https://www.sciencedirect.com/science/article/pii/S1040618224000491
Doi http://dx.doi.org/10.1016/j.quaint.2024.02.004
Keywords Age trend; Cellulose; Lignin methoxy groups; Northern Greece; Pinus heldreichii; Tree-ring stable isotopes
Description Tree-ring stable isotopes (TRSI) have the unique ability to capture inter-annual to multi-millennial climate trends and extremes if the appropriate data and methods are combined. However, there is still an ongoing debate about age-related biases in TRSI measurements that potentially affect the fidelity of their chronologies and subsequent climate reconstructions. Here, we investigate carbon and oxygen TRSI measurements in cellulose (?13Ccell and ?18Ocell) and carbon and hydrogen ratios in lignin methoxy groups (?13Cmeth and ?2Hmeth) of more than 60 living and relict pine (Pinus heldreichii) trees from northern Greece that span the period 512–2020 CE continuously. We identified significant (p < 0.01) level offsets between living and relict ?18Ocell values (1.49 mUr) that preclude, among others, the combination of living and relict wood series for reliable age-trend assessment, and we found distinct differences between cellulose and methoxy TRSI chronologies including contrasting recent trends in carbon, oxygen, and hydrogen isotope ratios suggesting that varying environmental signals are retained in the TRSI proxies. Assessments are supported by comparisons with well-established ontogenetic trends in tree-ring width and latewood maximum density to identify significant (p < 0.01) age-trends in relict ?18Ocell values between 50 and 190 years of cambial age, and in relict ?13Cmeth and ?2Hmeth values in tree rings older than 100 years. Relict ?13Ccell values, on the other hand, show increasing values between 50 and 80 years of cambial age (p < 0.01), but no evidence for long-term trends beyond these early stages. The combined assessment of multiple TRSI from cellulose and lignin methoxy groups contributes to a better understanding of the underlying physiological processes and extends the range of extractable climate information from the utilized tree-ring proxies. Our findings demonstrate that raw ?13Ccell data from Mt. Smolikas can be used for climate calibration and reconstruction purposes without the need for standardization (expect for rings ?80 years of cambial age), potentially providing new insights into long-term climate variability in the eastern Mediterranean region. ?18Ocell, ?13Cmeth, and ?2Hmeth values, however, require detrending due to long-term age-related trends.

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