Drought induces lagged tree mortality in a subalpine forest in the Rocky Mountains

Abstract

Extreme climatic events are key factors in initiating gradual or sudden changes in forest ecosystems through the promotion of severe, tree‐killing disturbances such as fire, blowdown, and widespread insect outbreaks. In contrast to these climatically‐incited disturbances, little is known about the more direct effect of drought on tree mortality, especially in high‐elevation forests. Therefore projections of drought‐induced mortality under future climatic conditions remain uncertain. For a subalpine forest landscape in the Rocky Mountains of northern Colorado (USA), we quantified lag effects of drought on mortality of Engelmann spruce Picea engelmannii, subalpine fir Abies lasiocarpa, and lodgepole pine Pinus contorta. For the period 1910–2004, we related death dates of 164 crossdated dead trees to early‐season and late‐season droughts. Following early‐season droughts, spruce mortality increased over five years and fir mortality increased sharply over 11 years. Following late‐season droughts, spruce showed a small increase in mortality within one year, whereas fir showed a consistent period of increased mortality over two years. Pine mortality was not affected by drought. Low pre‐drought radial growth rates predisposed spruce and fir to drought‐related mortality. Spruce and fir trees that died during a recent drought (2000–2004) had significantly lower pre‐drought growth rates than live neighbour trees. Overall, we found large interspecific differences in drought‐related mortality with fir showing the strongest effect followed by spruce and pine. This direct influence of climatic variability on differential tree mortality has the potential for driving large‐scale changes in subalpine forests of the Rocky Mountains.