De Roo Linus, Salomón Roberto Luis, Oleksyn Jacek, Steppe Kathy
Laboratory of Plant Ecology, Faculty of Bioscience Engineering, Ghent University, B-9000, Ghent, Belgium.
Institute of Dendrology, Polish Academy of Sciences, Parkowa 5, PL-62-035, Kórnik, Poland.
New Phytol. 2020 Oct;228(1):70-81. doi: 10.1111/nph.16662. Epub 2020 Jun 16.
Photosynthesis in woody tissues (P ) is less sensitive to water shortage than in leaves, hence, P might be a crucial carbon source to alleviate drought stress. To evaluate the impact of P on tree drought tolerance, woody tissues of 4-m-tall drought-stressed Populus tremula trees were subjected to a light-exclusion treatment across the entire plant to inhibit P . Xylem water potential (Ψ ), sap flow ( ), leaf net photosynthesis (P ), stem diameter variations (ΔD), in vivo acoustic emissions in stems (AEs) and nonstructural carbohydrate concentrations ([NSC]) were monitored to comprehensively assess water and carbon relations at whole-tree level. Under well-watered conditions, P kept Ψ at a higher level, lowered and had no effect on [NSC]. Under drought, Ψ , and P in light-excluded trees rapidly decreased in concert with reductions in branch xylem starch concentration. Moreover, sub-daily patterns of ΔD, and AEs were strongly related, suggesting that in vivo AEs may inform not only about embolism events, but also about capacitive release and replenishment of stem water pools. Results highlight the importance of P in maintaining xylem hydraulic integrity under drought conditions and in sustaining NSC pools to potentially limit increases in xylem tension.
木质组织中的光合作用(P)对水分短缺的敏感度低于叶片,因此,P可能是缓解干旱胁迫的关键碳源。为评估P对树木耐旱性的影响,对4米高的干旱胁迫欧洲山杨的木质组织进行整株遮光处理以抑制P。监测木质部水势(Ψ)、液流( )、叶片净光合作用(P)、茎直径变化(ΔD)、茎干体内声发射(AEs)和非结构性碳水化合物浓度([NSC]),以全面评估整树水平的水分和碳关系。在水分充足条件下,P使Ψ保持在较高水平,降低了 ,且对[NSC]无影响。在干旱条件下,遮光处理树木的Ψ、 和P随着树枝木质部淀粉浓度的降低而迅速同步下降。此外,ΔD、 和AEs的日变化模式密切相关,这表明体内声发射不仅可以反映栓塞事件,还可以反映茎干水池的电容释放和补充情况。研究结果凸显了P在干旱条件下维持木质部水力完整性以及维持NSC库以潜在限制木质部张力增加方面的重要性。
