Climatic signals in tree ring of Picea schrenkiana along an altitudinal gradient in the central Tianshan Mountains, northwestern China

Abstract

C � Springer-Verlag 2005 Abstract Tree-ring samples of Picea schrenkiana (Fisch. et Mey) were studied along an altitudinal gradient in the central Tianshan Mountains, and ring-width chronologies were developed for three sites at different altitudes: low- forest border (1600-1700 m a.s.l.), interior forest (2100- 2200 m a.s.l.), and upper treeline (2600-2700 m a.s.l.). Annual ring-width variations were similar among the three sites but variability was greatest at the low-forest border site. The statistical characters of the chronologies showed that mean sensitivity (MS) and standard deviation (SD) decreased with increasing elevation. In other words, the re- sponse of tree growth to environmental changes decreased with increasing altitude. To understand the differing re- sponse of trees at different elevations to the environmental changes, response function analysis was used to study the relationships between tree-ring widths and mean monthly temperature and total monthly precipitation from 1961 to 2000. The results showed that precipitation was the most important factor limiting tree radial growth in the arid cen- tral Tianshan Mountains, precipitation in August of the prior growth year played an important role on tree's ra- dial growth across the entire altitudinal gradient even at the cold, high-elevation treeline site. It is expected that with increasing altitude air temperature decreased and precip- itation increased, the importance of precipitation on tree growth decreased, and the response of tree growth to envi- ronmental changes decreased, too. This conclusion may be helpful to understand and research the relationship between climatic change and tree growth in arid and semiarid area.