Divergent responses of Qinghai spruce(Picea crassifolia) to recent warming along elevational gradients in the central Qilian Mountains, Northwest China

Understanding the radial growth trends of trees and their response to recent warming along elevation gradients is crucial for assessing how forests will be impacted by future climate change. Here, we collected 242 tree-ring cores from five plots across the Qinghai spruce(Picea crassifolia Kom.) forest belt(2600–3350 m a.s.l.) in the central Qilian Mountains, Northwest China, to study trends in the radial growth of trees and their response to climate factors with variable elevation. All the sampled P. crassifolia chronologies showed an increasing trend in the radial growth of trees at higher altitudes(3000–3350 m), whereas the radial growth of trees at lower altitudes(2600–2800 m) has decreased in recent decades. The radial growth of trees was limited by precipitation at lower elevations(L, ML), but mainly by temperature at higher elevation sites(MH, H, TL). Climate warming has caused an unprecedented increase in the radial growth of P. crassifolia at higher elevations. Our results suggest that ongoing climate warming is beneficial to forest ecosystems at high elevations but restricts the growth of forest ecosystems at low elevations.