Abstract: Atmospheric carbon dioxide ([CO2]) has increased dramatically within the current life spans of long-lived trees and old forests. Consider that a 500-year-old tree in the early 21st century has spent 70% of its life growing under pre-industrial levels of [CO2], which were 30% lower than current levels. Here we address the question of whether old trees have already responded to the rapid rise in [CO2] occurring over the past 150 years. In spite of limited data, aging trees have been shown to possess a substantial capacity for increased net growth after a period of post-maturity growth decline. Observations of renewed growth and physiological function in old trees have, in some instances, coincided with Industrial Age increases in key environmental resources, including [CO2], suggesting the potential for continued growth in old trees as a function of continued global climate change.

Key words: carbon dioxide, hydraulic limitation, old growth, stomata, tree rings.