Climatic sensitivity, water‐use efficiency, and growth decline in boreal jack pine (Pinus banksiana) forests in Northern Ontario

Abstract

AbstractRises in atmospheric carbon dioxide (atmCO2) levels are known to stimulate photosynthesis and increase intrinsic water‐use efficiency (iWUE) in trees. Stand‐level increases in iWUE depend on the physiological response of dominant species to increases in atmCO2, while tree‐level response to increasing atmCO2 depends on the balance between the direct effects of atmCO2 on photosynthetic rate and the indirect effects of atmCO2 on drought conditions. The aim of this study was to characterize the response of boreal jack pine (Pinus banksiana) stands in Northern Ontario to changes in atmCO2 and associated climatic change over the past 100 years. The impact of changes in growing season length, temperature, and precipitation, as well as atmCO2 on tree growth, was determined using stable carbon isotopes and dendrochronological analysis. Jack pine stands in this study were shown to be in progressive decline. As expected, iWUE was found to increase in association with rising atmCO2. However, increases in iWUE were not directly coupled with atmCO2, suggesting that the degree of iWUE improvement is limited by alternative factors. Water‐use efficiency was negatively associated with tree growth, suggesting that warming‐ and drought‐induced stomatal closure has likely led to deviations from expected atmCO2‐enhanced growth. This finding corroborates that boreal forest stands are likely to face continued stress under future climatic warming.