Abstract

Abstract Summer drought frequency is expected to increase with climate change in forested regions of Europe. To examine the physiological impacts of low soil moisture on Norway spruce [ Picea abies (L.) Karst.], we conducted an irrigation experiment in a Norway spruce‐dominated forest. We monitored sap flow ( Q s ), stem circumference and soil water potential ( Ψ w ), measured needle water potential ( Ψ l ), and estimated potential evapotranspiration (PET) in control and irrigated plots. Soil water availability influenced the response of Q s to PET and the impact of Q s on maximum daily stem shrinkage (MDS). The positive relationship between Q s and PET was constrained below a threshold Ψ w near −0.3 MPa. MDS was higher beyond this threshold, for a given value of Q s . Higher MDS and lower tree water status ( Δ W) were observed at low Ψ w in control plants, suggesting the lower water potential of stems' conducting tissues. Stem circumference increase (SCI) was 62% lower in control trees following the irrigation treatment. Slight SCI recovery was observed in these trees in response to early autumn rainfall, which caused Δ W to return to its predrought state. The results demonstrate that low water availability not only reduced Q s , Δ W, SCI, Ψ l and increased MDS but also altered their mutual relations. Copyright © 2014 John Wiley & Sons, Ltd.