Asian continental isoscapes of tree-ring δ<sup>18</sup>O: implications for paleoclimate and paleoenvironment.
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ABSTRACT: Continental-scale isoscapes of tree-ring oxygen isotopes (δ18OTR) are crucial for understanding atmospheric circulation dynamics, interpreting climatic significance, and tracing wood provenance. However, continental-scale δ18OTR isoscapes remain underdeveloped. We compiled 313 multi-year averaged δ18OTR records across Asia and generated isoscapes using two machine learning approaches: XGBoost and Random Forest. Results reveal a 'sandwich' pattern: depleted values at high (>50°N) and low (<30°N) latitudes, enriched values at mid-latitudes (30°N-50°N). This pattern closely resembles the distribution of precipitation δ18O (δ18OP). Correlation and commonality analyses confirm δ18OP as the primary driver of δ18OTR isoscape patterns across Asia. Continental-scale δ18OTR-elevation relationships are generally insignificant, except in Indian Summer Monsoon regions showing significant negative correlations (r = -0.69, p < 0.05). These findings suggest that δ18O-based paleoaltimetry reconstructions work best in regions with dominant moisture sources such as Indian Summer Monsoon regions. This study provides Asia's first continental-scale δ18OTR isoscapes, establishing a foundation for atmospheric circulation and dendroprovenancing research.
SUBMITTER: Huang R
PROVIDER: S-EPMC12713636 | biostudies-literature | 2025 Dec
REPOSITORIES: biostudies-literature
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