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An Integrated View of Whole-Tree Hydraulic Architecture. Does Stomatal or Hydraulic Conductance Determine Whole Tree Transpiration?

机译：全树水力建筑的综合视图。气孔或水力传导决定整个树的蒸腾作用吗？

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Hydraulic conductance exerts a strong influence on many aspects of plant physiology, namely: transpiration, CO2 assimilation, growth, productivity or stress response. However we lack full understanding of the contribution of root or shoot water transport capacity to the total water balance, something which is difficult to study in trees. Here we tested the hypothesis that whole plant hydraulic conductance modulates plant transpiration using two different seedlings of citrus rootstocks, Poncirus trifoliata (L.) Raf. and Cleopatra mandarin (Citrus reshni Hort ex Tan.). The two genotypes presented important differences in their root or shoot hydraulic conductance contribution to whole plant hydraulic conductance but, even so, water balance proved highly dependent on whole plant conductance. Further, we propose there is a possible equilibrium between root and shoot hydraulic conductance, similar to that between shoot and root biomass production, which could be related with xylem anatomy.

机译：水力传导对植物生理的许多方面都具有重要影响，即：蒸腾作用，CO2同化作用，生长，生产力或胁迫响应。但是，我们对根或枝条的水分输送能力对总水分平衡的贡献缺乏充分的了解，这在树木中很难研究。在这里，我们测试了一种假设，即使用两种不同的柑桔砧木幼苗Poncirus trifoliata（L.）Raf整株水力传导调节植物的蒸腾作用。和Cleopatra普通话（Citrus reshni Hort，来自Tan。）。两种基因型在根或芽水力传导对全株水力传导的贡献上表现出重要的差异，但是即使如此，水平衡仍然高度依赖于整个植物的电导率。此外，我们提出根与芽的水力传导之间存在可能的平衡，类似于芽与根生物量生产之间的平衡，这可能与木质部的解剖结构有关。

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期刊名称 other
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Juan Rodríguez-Gamir; Eduardo Primo-Millo; María Ángeles Forner-Giner;
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年(卷),期 -1(11),5
年度 -1
页码 e0155246
总页数 19
原文格式 PDF
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1. Leaf hydraulic conductance, measured in situ, declines and recovers daily: leaf hydraulics, water potential and stomatal conductance in four temperate and three tropical tree species. [J] . Johnson D.M., Woodruff D.R., McCulloh K.A., Tree Physiology . 2009,第7期

机译：现场测量的叶片水力传导率每天下降并恢复：四种温带和三种热带树种的叶片水力学，水势和气孔传导率。
2. Leaf hydraulic conductance, measured in situ, declines and recovers daily: leaf hydraulics, water potential and stomatal conductance in four temperate and three tropical tree species [J] . D.M. Johnson12 D.R. Woodruff1 K.A. McCulloh3 and F.C. Meinzer1 Tree Physiology . 2009,第7期

机译：每天测量的叶片水力传导率每天下降并恢复：四种温带和三种热带树种的叶片水力学，水势和气孔传导率
3. Linking stomatal sensitivity and whole-tree hydraulic architecture [J] . McCulloh Katherine A., Woodruff David R. Tree Physiology . 2012,第4期

机译：将气孔敏感性与整树水力结构联系起来
4. Effect of gradually water stress and recovery on photosynthesis,transpiration,and stomatal conductance in two plantago species [C] . ARahimi, H.R.Rahimian Mashhadi, M.R.Jahansoz 2008世界草地与草原大会论文集 . 2008

机译：逐渐水分胁迫和恢复对两种车前草光合作用，蒸腾作用和气孔导度的影响
5. Hydraulic resistance: A determinant of short term stomatal conductance signaling in disparate xylem anatomy of red maple (Acer rubrum L.) and shumard oak (Quercus shumardii Buckl.). [D] . Inman, William Wright, III. 2007

机译：液压阻力：决定气孔传导率的短期决定因素，该信号在红枫（Acer rubrum L.）和短吻栎（Quercus shumardii Buckl。）的不同木质部解剖中形成。
6. Effects of size and microclimate on whole-tree water use and hydraulic regulation in Schima superba trees [O] . Xiao-wei Zhao, Lei Ouyang, Ping Zhao, -1

机译：大小和小气候对木荷树全树用水和水力调节的影响
7. An Integrated View of Whole-Tree Hydraulic Architecture. Does Stomatal or Hydraulic Conductance Determine Whole Tree Transpiration? [O] . Juan Rodríguez-Gamir, Eduardo Primo-Millo, María Ángeles Forner-Giner 2016

机译：全树水力建筑的综合观。气孔或水力传导是否决定整棵树的蒸腾？

An Integrated View of Whole-Tree Hydraulic Architecture. Does Stomatal or Hydraulic Conductance Determine Whole Tree Transpiration?

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