Abstract
Tree-ring samples from Chinese Pine (Pinus tabulaeformis Carr.) that were collected in the Taihe Mountains on the western Loess Plateau, China, were used to analyze the effects of climate and drought on radial growth and to reconstruct the mean April-June Standardized Precipitation Evapotranspiration Index (SPEI) during the period 1730–2012 AD. Precipitation positively affected tree growth primarily during wet seasons, while temperature negatively affected tree growth during dry seasons. Tree growth responded positively to SPEI at long time scales most likely because the trees were able to withstand water deficits but lacked a rapid response to drought. The 10-month scale SPEI was chosen for further drought reconstruction. A calibration model for the period 1951–2011 explained 51% of the variance in the modeled SPEI data. Our SPEI reconstruction revealed long-term patterns of drought variability and captured some significant drought events, including the severe drought of 1928–1930 and the clear drying trend since the 1950s which were widespread across northern China. The reconstruction was also consistent with two other reconstructions on the western Loess Plateau at both interannual and decadal scales. The reconstructed SPEI series showed synchronous variations with the drought/wetness indices and spatial correlation analyses indicated that this reconstruction could be representative of large-scale SPEI variability in northern China. Period analysis discovered 128-year, 25-year, 2.62-year, 2.36-year, and 2.04-year cycles in this reconstruction. The time-dependency of the growth response to drought should be considered in further studies of the community dynamics. The SPEI reconstruction improves the sparse network of long-term climate records for an enhanced understanding of climatic variability on the western Loess Plateau, China.
Highlights
During recent decades, drought events have increased in intensity and frequency, in arid and semi-arid regions, in response to global climate change [1, 2]
The strongest response of growth indices to temperature was found from January of the current year to May of the current year (r = -0.524), suggesting that both precipitation and temperature strongly correlated with tree growth
A tree-ring width chronology from 1692 to 2012 in the Taihe Mountains, Gansu Province, China was developed in this study
Summary
Drought events have increased in intensity and frequency, in arid and semi-arid regions, in response to global climate change [1, 2]. This drought variation has strongly affected regional social and agricultural developments, resulting in significant economic losses in northern China. The long-term drought variation history must be recovered using proxy records With their high resolution and accurate dating method, tree rings are universally acknowledged as one of the most valuable proxies and have played a crucial role in paleoclimate research and ecological investigations [3].
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