Drought-induced delays in stem hydraulic development shape gas exchange and growth recovery in Douglas fir
Franklin Alongi, Timo Knüver, Scott A M McAdam, Yanick Ziegler, Andreas Gast, Nadine K Ruehr

TL;DR
Drought delays water transport development in Douglas fir, limiting recovery of photosynthesis and growth by disrupting daytime expansion patterns.
Contribution
The study reveals that drought-induced delays in stem hydraulic development, not carbon or water stress, constrain recovery of gas exchange and growth in Douglas fir.
Findings
Severe drought reduced carbon accumulation by 51% and similarly affected stem growth.
Daytime growth was absent in drought-exposed trees, unlike control trees where it contributed up to 30% of total growth.
Sufficient sapwood area is likely needed to buffer xylem tension and support daytime growth.
Abstract
The limiting factors of tree recovery from drought, particularly the coordination between carbon sources and sinks, remain poorly understood. In this study, juvenile Douglas fir (Pseudotsuga menziesii) were exposed to 28 d of mild or severe drought, followed by 35 d of recovery. We continuously monitored CO₂ and H₂O fluxes in shoots and roots to derive gas exchange and carbon accumulation, while measuring basal area to estimate stem growth and sapwood development. To identify underlying mechanisms of drought recovery, we periodically measured nonstructural carbohydrates (NSC), midday water potential (Ψmd), and foliar abscisic acid (ABA). We found no evidence that ABA or Ψmd limited gas exchange recovery, with stomatal conductance recovery instead related to drought-induced reductions in sapwood development. While carbon accumulation ultimately recovered to control levels following mild…
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Taxonomy
TopicsPlant Water Relations and Carbon Dynamics · Tree-ring climate responses · Plant responses to water stress
