Abstract
Studies on long-term fluctuations in glacier volume and mass are crucial
for understanding past climate change. In this paper, we utilized Picea schrenkiana
to develop a 525-year chronology of latewood blue intensity (LWBI) in
the Tianshan Mountains. Relying on temperature as the main controlling
factor for tree growth and glacier mass balance (GMB) variations, the
LWBI chronology was used to reconstruct the summer temperature (JJA, R2adj = 47%) and the annual glacier mass balance (annual GMB, R2adj = 39%)
in the Tianshan Mountains over the past 400 years. The reconstruction
results show that the rapid warming since 1974 has caused the Tianshan
No.1 glacier (TS No.1) to experience an unprecedented melting trend
within the last four centuries. It is disturbing that the glacier still
remain in an ablation state for the next 80 years under both
representative concentration paths (RCP) 4.5 and 8.5 scenarios, which
will exacerbate the adverse environmental impacts of glacial hazards.
Our study provides a continuous record for glacier research in high
mountains Asian and contributes to a more detailed assessment of glacier
and climate change in this region.
Original language | English |
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Article number | 104210 |
Journal | Global and Planetary Change |
Volume | 228 |
Early online date | 4 Aug 2023 |
DOIs | |
Publication status | Published - Sept 2023 |
Keywords
- Tree rings
- Blue intensity
- Glacier mass balance
- Tianshan no.1 glacier
- Climate change