Covariance and climate signals among state-of-the-art tree-ring proxies

• Authors: ROEMER Philipp; WIELAND Anna; TORBENSON Max C A; REINIG Frederick; ZIACO Emanuele; FRIGO Davide; GREULE Markus; URBAN Otmar; CASLAVSKY Josef; PERNICOVA Natalie; TRNKA Miroslav; CARRER Marco; BÜNTGEN Ulf; KEPPLER Frank; ESPER Jan
• Year of publication: 2025
• Type: Article in Periodical
• Magazine / Source: Quaternary Science Reviews
• MU Faculty or unit: Faculty of Science
• web: https://doi.org/10.1016/j.quascirev.2025.109270
• Doi: https://doi.org/10.1016/j.quascirev.2025.109270
• Keywords: Mediterranean; Paleoclimatology; Pinus heldreichii; Quantitative wood anatomy; Tree-ring stable isotopes
• Description: Tree-ring stable isotopes and wood anatomical traits emerged as powerful proxies for paleoclimate reconstructions, providing information beyond traditional ring width and wood density chronologies. However, comprehensive comparisons of these state-of-the-art tree-ring proxies derived from the same trees have yet to be performed to identify and differentiate their full paleoclimatic skill. Here, we assess covariance and climate signals in tree-ring width (TRW), maximum latewood density (MXD), cellulose stable carbon (?13Cc) and oxygen (?18Oc) isotopes, lignin methoxy carbon (?13Cm) and hydrogen (?2Hm) isotopes, radial cell lumen diameter (Drad), and radial and tangential cell wall thickness (CWTrad/CWTtan) of ten Bosnian pines (Pinus heldreichii) from a treeline site on Mt. Smolikas, Greece. Proxy cross-comparison over the period 1861–2020 CE reveals strong covariance between detrended ?13Cc and ?13Cm (r ? 0.81). ?13Cc and ?18Oc exhibit the highest inter-series correlations (r ? 0.61) among all proxies. ?13Cc, ?13Cm, ?18Oc, together with Drad, show considerable skill for reconstructing summer precipitation, whereas MXD and ?2Hm may be used for summer temperature reconstructions. Enhanced inter-series and hydroclimate correlations, along with a prolonged seasonality are significant advances of the isotopic and wood anatomical measurements compared to TRW. Our findings highlight the importance of integrating new isotopic, particularly ?13Cc, and xylem anatomical data into existing TRW networks to enhance our understanding of past hydroclimate variability and contextualize the recent aridification of the Mediterranean region.