Out on a Limb: Testing the Hydraulic Vulnerability Segmentation Hypothesis in Trees Across Multiple Ecosystems.

IF 6 1区 生物学 Q1 PLANT SCIENCES
Jennifer M R Peters, Brendan Choat
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引用次数: 0

Abstract

Plant hydraulic theory states that leaf and stem vulnerability to embolism is coordinated within individual plants. The hydraulic vulnerability segmentation hypothesis (HVSH) predicts higher vulnerability in leaves to protect the stem from hydraulic failure, preserving stem xylem, which is generally more metabolically expensive and slower to regenerate than leaf tissues. However, studies designed to test HVSH have reported wide ranges in vulnerability segmentation (VS), and patterns with the environment have been elusive. In this study, we tested HVSH in phylogenetically constrained tree species from contrasting ecosystems across the Australian landscape. In 12 species, we found no support for HVSH. While leaf vulnerability was strongly governed by climate, VS was universally absent or negative. Consistently, the onset of leaf embolism occurred after the loss of leaf turgor and seasonally low leaf water potentials, illustrating the rarity of embolism in leaves. Within the leaf, embolism primarily occurring first and last in the leaf midvein, suggesting redundancy in leaf architecture to preserve function. Overall, this multi-ecosystem study provides a more complete picture of drought resistance mechanisms: (1) leaf safety was greatest in trees from drier ecosystems and (2) hydraulic thresholds were mostly conserved across organs indicating environmentally driven drought resistance in both leaves and stems.

铤而走险:在多个生态系统的树木中测试水力脆弱性分段假说
植物水力理论认为,叶片和茎对栓塞的脆弱性在单株植物内部是相互协调的。根据水力易损性分段假说(HVSH)的预测,叶片的易损性较高,以保护茎免受水力破坏,同时保留茎木质部,因为茎木质部的代谢成本通常比叶片组织高,再生速度也较慢。然而,旨在测试 HVSH 的研究报告显示,脆弱性分段(VS)的范围很广,而且与环境的关系模式一直难以捉摸。在这项研究中,我们对来自澳大利亚不同生态系统的系统发育受限树种进行了HVSH测试。在 12 个物种中,我们没有发现 HVSH 的支持。虽然叶片的脆弱性受气候的影响很大,但VS却普遍不存在或呈负值。一致的是,叶片栓塞发生在叶片失去张力和叶片水势季节性降低之后,这说明了叶片栓塞的罕见性。在叶片内部,栓塞主要首先发生在叶片中脉,最后发生在叶片中脉,这表明叶片结构具有冗余性,可以保持功能。总之,这项多生态系统研究为抗旱机制提供了一个更完整的图景:(1)来自较干旱生态系统的树木叶片安全性最高;(2)各器官的水力阈值大多保持不变,表明叶片和茎都具有环境驱动的抗旱性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Plant, Cell & Environment
Plant, Cell & Environment 生物-植物科学
CiteScore
13.30
自引率
4.10%
发文量
253
审稿时长
1.8 months
期刊介绍: Plant, Cell & Environment is a premier plant science journal, offering valuable insights into plant responses to their environment. Committed to publishing high-quality theoretical and experimental research, the journal covers a broad spectrum of factors, spanning from molecular to community levels. Researchers exploring various aspects of plant biology, physiology, and ecology contribute to the journal's comprehensive understanding of plant-environment interactions.
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