Abstract
It is generally hypothesized that tree growth at the upper treeline is normally controlled by temperature while that at the lower treeline is precipitation limited. However, uniform patterns of inter-annual ring-width variations along altitudinal gradients are also observed in some situations. How changing elevation influences tree growth in the cold and arid Qilian Mountains, on the northeastern Tibetan Plateau, is of considerable interest because of the sensitivity of the region’s local climate to different atmospheric circulation patterns. Here, a network of four Qilian juniper (Sabina przewalskii Kom.) ring-width chronologies was developed from trees distributed on a typical mountain slope at elevations ranging from 3000 to 3520 m above sea level (a.s.l.). The statistical characteristics of the four tree-ring chronologies show no significant correlation with increasing elevation. All the sampled tree growth was controlled by a common climatic signal (local precipitation) across the investigated altitudinal gradient (520 m). During the common reliable period, covering the past 450 years, the four chronologies have exhibited coherent growth patterns in both the high- and low-frequency domains. These results contradict the notion of contrasting climate growth controls at higher and lower elevations, and specifically the assumption that inter-annual tree-growth variability is controlled by temperature at the upper treeline. It should be stressed that these results relate to the relatively arid conditions at the sampling sites in the Qilian Mountains.
Highlights
Owing to its high resolution and reliable dating, dendrochronology plays an important role in studies of past climate change [1,2]
The mean segment lengths (MSL) of the four series ranged from 208 years to 249 years
The lowest site had the highest average growth rate (AGR), while the other three higher sites were similar to each other; the lowest growth rate was observed at the higher-mid sampling site
Summary
Owing to its high resolution and reliable dating, dendrochronology plays an important role in studies of past climate change [1,2]. Tree-ring chronologies have been used to reconstruct past climate history over a large range of spatial and temporal scales [3,4,5]. These extended records help us to better understand climate change in a longer-term context. On the basis of physiological associations between plant growth and climate controls at high elevation [10], we might expect that low temperatures limit tree growth at the upper treeline [11]. Previous studies have reported the general ‘‘principle of tree growth-climate relationships’’, whereby tree growth at the upper treeline is controlled by temperature while that at the lower treeline is controlled by precipitation [12,13,14]. Clarifying the association between geography, elevation and climate influences on tree growth still requires further research
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