Different moisture regimes during the last 150 years inferred from a tree-ring delta O-18 network over the transitional zone of the Asian summer monsoon

• The East Asian summer monsoon (EASM) and Indian summer monsoon (ISM) are two interactive climate systems dominating the moisture variability of Monsoon Asia. However, ISM-EASM interactions and their effects on regional moisture dynamics remain unclear. This study investigated the spatiotemporal characteristics of monsoon-related hydroclimate variability by establishing a new tree-ring oxygen isotope ratio (delta O-18(tree)) network of eight delta O-18(tree) records covering the last 150 years in southern China, which differs from previous studies that used data from individual sites. The delta O-18(tree) chronologies were found to be sensitive to regional hydroclimatic changes during the monsoon season. The delta O-18(tree) network indicated an east-west clustering pattern in the ISM-EASM transitional zone, which demonstrates an asynchrony in d18Otree variability in the west and east of this region. Regional variability of the west and east delta O-18(tree) modes reflected the different moisture signals, as indicated by their significant correlations with modern observations and paleo-delta O-18 records in disparate upstream regions of moisture transport (the Indochina Peninsula and Southeast China). This finding was confirmed by the east-west distinct pattern of spatial isotopic depletion of monsoon rainfall that originates from coastal areas of tropical oceans (Bay of Bengal and South China Sea) to the study area, as well as the consistent present-day pattern of atmospheric vapor transport during the monsoon season. In addition, the west and east modes exhibited stronger associations with ISM variability, whereas the east-west delta O-18(tree) gradient captured the EASM-related hydroclimatic signal, suggesting that summer moisture variability in the ISM-EASM transitional zone was regulated more by ISM than by EASM during the last 150 years. The relationships between delta O-18(tree) and large-scale ocean-atmosphere interaction modes revealed that the El Nino-Southern Oscillation (ENSO) dominantly modulates delta O-18(tree) variability across southern China.

Ämnesord

NATURVETENSKAP  -- Geovetenskap och miljövetenskap -- Geologi (hsv//swe)

NATURAL SCIENCES  -- Earth and Related Environmental Sciences -- Geology (hsv//eng)

Nyckelord

Tree rings

Oxygen isotope

Moisture signals

Atmospheric circulation

Hydroclimate variability

indian monsoon

stable-isotopes

precipitation

china

seasonality

Engineering

Geology

Water Resources

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